Meta-analysis and Network meta-analysis Results

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Cataracts in adults: management. London: National Institute for Health and Care Excellence (NICE); 2017 Oct. (NICE Guideline, No. 77.)

Cataracts in adults: management.

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Appendix HMeta-analysis and Network meta-analysis Results

H.1. Patient information

What information do people with cataracts and their carers find useful, and what format (for example written or verbal) do they prefer it to be provided in?
What information on cataract surgery do people and their carers find useful when deciding whether surgery is appropriate for them, and before, during and after any operation(s) they elect to undergo? What format (for example written or verbal) do they prefer it to be provided in?

There were no meta-analyses conducted for these questions.

H.2. Indicators for referral

What are the indicators for referral for cataract surgery?
What are the optimal clinical thresholds in terms of severity and impairment for referral for cataract surgery?

There were no meta-analyses conducted for these questions.

H.3. Pre-operative assessment and biometry

What is the effectiveness of different techniques for undertaking biometry?
What are the most appropriate formulae to optimise intraocular lens biometry calculation?
What is the effectiveness of strategies used to select intraocular lens constants in order to optimise biometry calculation?
What other factors should be considered such as, who should undertake biometry and when should preoperative biometry be assessed?
What is the effectiveness of risk stratification techniques to reduce surgical complications?
What are the risk factors associated with increased surgical complications in cataract surgery?

H.3.1. Biometry techniques - Forest plots of outcomes

H.3.1.1. Ultrasound (immersion and contact) and optical biometry to measure axial length

Mean absolute prediction errors

Cumulative proportion of eyes within various ranges of absolute prediction errors

H.3.1.2. Keratometry (manual and automated) and topography to measure corneal curvature

Mean absolute prediction errors

Cumulative proportion of eyes within various ranges of absolute prediction errors

H.3.1.3. Observational studies in people undergoing phacoemulsification cataract surgery with a history of corneal refractive surgery

Studies including mixed populations of individuals with a history of different types of refractive surgery (laser-assisted in situ keratomileusis, photorefractive keratectomy and radial keratotomy) for various indications (myopia, hyperopia)

Mean prediction errors

Mean absolute prediction errors

Studies including individuals with a history of laser-assisted in situ keratomileusis and photorefractive keratectomy for myopia

Mean prediction errors: keratometry (SRK-T formula) vs topography (SRK-T formula)

Mean prediction errors: keratometry (Haigis-L formula) vs topography (SRK-T formula)

Cumulative proportion of eyes within various ranges of absolute prediction errors: keratometry (SRK-T formula) vs topography (SRK-T formula)

Cumulative proportion of eyes within various ranges of absolute prediction errors: keratometry (Haigis-L formula) vs topography (SRK-T formula)

H.3.2. Intraocular lens formulas: Network meta-analyses results: Virgin eyes without a history of corneal refractive surgery

H.3.2.1. Model fit statistics for all outcomes

Table 1Model fit statistics used to select fixed or random effect models for all comparisons and outcomes

Studies	Outcome	Model	Total model DIC	Total model DIC (FE – RE)	Total residual deviance	No. of data-points	Between-study SD (95% CrI)	Preferred model
VIRGIN EYES WITHOUT A HISTORY OF CORNEAL REFRACTIVE SURGERY
Axial length less than 22.00mm
7 (Carifi, Cooke, Day, Doshi, Moschos, Ozcura, Srivannaboon)	Mean absolute error	FE	43.024	87.582	137.8	37	-	RE
	Mean absolute error	RE	−44.558	87.582	36.72	37	0.267 (0.174, 0.424)	RE
5 (Aristodemou, Day, Eom, Kane, Srivannaboon)	Within 0.25D	FE	157.592	−1.143	22.47	28	-	FE
5 (Aristodemou, Day, Eom, Kane, Srivannaboon)	Within 0.25D	RE	158.735	−1.143	21.67	28	0.124 (0.004, 0.439)	FE
11 (Aristodemou, Carifi, Cooke, Day, Doshi, Eom, Kane, Moschos, Ozcura, Percival, Srivannaboon)	Within 0.5D	FE	344.21	28.658	97.82	52	-	RE
	Within 0.5D	RE	315.552	28.658	52.32	52	0.589 (0.345, 0.920)	RE
11 (Aristodemou, Carifi, Cooke, Day, Doshi, Eom, Kane, Moschos, Ozcura, Percival, Srivannaboon)	Within 1.0D	FE	295.164	18.295	83.66	52	-	RE
	Within 1.0D	RE	276.869	18.295	50.87	52	0.653 (0.367, 1.035)	RE
3 (Carifi, Kane, Ozcura)	Within 2.0D	FE	43.015	−1.091	9.174	12	-	FE
3 (Carifi, Kane, Ozcura)	Within 2.0D	RE	44.106	−1.091	9.731	12	0.593 (0.024, 1.834)	FE
Axial length 22.00 to 24.50mm
2 (Ozcura, Srivannaboon)	Mean absolute error	FE	−20.877	−0.027	6.015	6	-	FE
2 (Ozcura, Srivannaboon)	Mean absolute error	RE	−20.85	−0.027	6.028	6	1004 (0.051, 1.948)
3 (Aristodemou, Kane, Srivannaboon)	Within 0.25D	FE	126.752	−1.491	12.98	14	-	FE
3 (Aristodemou, Kane, Srivannaboon)	Within 0.25D	RE	128.243	−1.491	12.62	14	0.069 (0.005, 0.360)	FE
4 (Aristodemou, Kane, Ozcura, Srivannaboon)	Within 0.5D	FE	138.89	−2.357	12.8	16	-	FE
4 (Aristodemou, Kane, Ozcura, Srivannaboon)	Within 0.5D	RE	141.247	−2.357	13.65	16	0.046 (0.002, 0.242)	FE
4 (Aristodemou, Kane, Ozcura, Srivannaboon)	Within 1.0D	FE	119.799	−1.358	13.68	16	-	FE
4 (Aristodemou, Kane, Ozcura, Srivannaboon)	Within 1.0D	RE	121.157	−1.358	13.7	16	0.090 (0.003, 0.465)	FE
2 (Kane, Ozcura)	Within 2.0D	FE	43.439	−1.011	7.367	8	-	FE
2 (Kane, Ozcura)	Within 2.0D	RE	44.45	−1.011	7.782	8	0.745 (0.044, 1.918)	FE
Axial length 24.50 to 26.00mm
1 (Srivannaboon)	Mean absolute error	FE	−6.133	0.009	3.991	4	-	FE
1 (Srivannaboon)	Mean absolute error	RE	−6.142	0.009	3.986	4	0.964 (0.040, 1.949)	FE
3 (Aristodemou, Kane, Srivannaboon)	Within 0.25D	FE	99.785	−1.785	11.55	14	-	FE
3 (Aristodemou, Kane, Srivannaboon)	Within 0.25D	RE	101.57	−1.785	12.01	14	0.132 (0.006, 0.726)	FE
4 (Aristodemou, Kane, Percival, Srivannaboon)	Within 0.5D	FE	113.319	−2.338	15	17	-	FE
4 (Aristodemou, Kane, Percival, Srivannaboon)	Within 0.5D	RE	115.657	−2.338	15.63	17	0.129 (0.004, 0.755)	FE
6 (Aristodemou, El-Nafees, Kane, Mitra, Percival, Srivannaboon)	Within 1.0D	FE	113.402	−1.7	20.9	21	-	FE
	Within 1.0D	RE	115.102	−1.7	20.49	21	0.227 (0.012, 1.052)	FE
1 (Kane)	Within 2.0D	FE	26.195	−0.029	6.666	6	-	FE
1 (Kane)	Within 2.0D	RE	26.224	−0.029	6.711	6	1.010 (0.059, 1.948)	FE
Axial length greater than 26.00mm
2 (Bang, Cooke)	Mean absolute error	FE	−19.062	1.227	16.31	13	-	FE
2 (Bang, Cooke)	Mean absolute error	RE	−20.289	1.227	13.25	13	0.294 (0.021, 1.623)	FE
2 (Aristodemou, Kane)	Within 0.25D	FE	73.422	−2.148	10.05	12	-	FE
2 (Aristodemou, Kane)	Within 0.25D	RE	75.57	−2.148	10.93	12	0.260 (0.008, 1.540)	FE
5 (Aristodemou, Bang, Cooke, Kane, Percival)	Within 0.5D	FE	160.51	−1.369	24.45	28	-	FE
5 (Aristodemou, Bang, Cooke, Kane, Percival)	Within 0.5D	RE	161.879	−1.369	24.31	28	0.122 (0.007, 0.457)	FE
8 (Aristodemou, Bang, Cooke, El-Nafees, Kane, Mitra, Percival, Petermeier)	Within 1.0D	FE	196.074	19.255	64.1	35	-	RE
	Within 1.0D	RE	176.819	19.255	35.1	35	0.974 (0.506, 1724)	RE
2 (Bang, Kane)	Within 2.0D	FE	44.466	1.002	13.49	10	-	FE
2 (Bang, Kane)	Within 2.0D	RE	43.464	1.002	10.79	10	1.033 (0.095, 1.933)	FE

H.3.2.2. Full dataset: Axial length subgroup – less than 22.00mm

Figure 1AL <22.0mm: Mean absolute error - random effects model – evidence network

Table 2AL <22.0mm: Mean absolute error - random effects model – input data

	SRKT	BarrettUniversal II	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	Holladay2-LT	LadasSuperFormula	Olsen_standalone	T2
Cooke & (2016)	0.40 (0.51)	0.39 (0.48)	0.41 (0.51)	0.48 (0.49)		0.44 (0.47)	0.43 (0.47)		0.40 (0.48)	0.46 (0.57)	0.39 (0.49)
Doshi et al. (2017)	0.54 (0.46)		1.36 (0.75)	0.59 (0.36)
Ozcura et al. (2016)	0.70 (0.64)			0.76 (0.65)
Carifi et al. (2015)	1.34 (1.04)		1.03 (0.87)	0.95 (0.78)	0.82 (0.77)
Srivannaboon et al. (2013)			0.44 (0.40)	0.42 (0.33)	0.44 (0.31)			0.45 (0.30)
Day et al. (2012)	0.52 (0.42)		0.44 (0.35)	0.46 (0.39)
Day et al. (2012)	0.50 (0.37)		0.37 (0.28)	0.50 (0.37)
Day et al. (2012)	0.79 (0.56)		0.86 (0.58)	0.74 (0.58)
Day et al. (2012)	0.85 (0.56)		0.77 (0.51)	0.83 (0.61)
Moschos et al. (2014)	0.97 (0.38)		0.43 (0.22)	0.72 (0.51)

Table 3AL <22.0mm: Mean absolute error random effects model relative effectiveness of all pairwise combinations (MD and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	Holladay2-LT	LadasSuperFormula	Olsen_standalone	T2
SRKT		−0.01 (−0.22, 0.20)	−0.03 (−0.30, 0.24)	−0.05 (−0.14, 0.04)	−0.52 (−1.00, −0.04)	0.04 (−0.17, 0.25)	0.03 (−0.19, 0.24)	-	0.00 (−0.21, 0.21)	0.06 (−0.18, 0.29)	−0.01 (−0.22, 0.21)
BarrettUniversalII	−0.07 (−0.57, 0.44)		0.02 (−0.20, 0.23)	0.09 (−0.12, 0.30)	-	0.05 (−0.15, 0.26)	0.04 (−0.17, 0.24)	-	0.01 (−0.20, 0.22)	0.07 (−0.16, 0.29)	0.00 (−0.21, 0.21)
Haigis	−0.04 (−0.25, 0.18)	0.03 (−0.48, 0.54)		−0.03 (−0.22, 0.15)	−0.05 (−0.27, 0.17)	0.04 (−0.18, 0.25)	0.02 (−0.19, 0.23)	0.01 (−0.24, 0.26)	−0.01 (−0.22, 0.21)	0.05 (−0.18, 0.28)	−0.01 (−0.23, 0.20)
HofferQ	−0.06 (−0.27, 0.14)	0.01 (−0.49, 0.51)	−0.02 (−0.23, 0.18)		−0.02 (−0.22, 0.18)	−0.04 (−0.25, 0.17)	−0.06 (−0.26, 0.15)	0.03 (−0.20, 0.26)	−0.08 (−0.29, 0.13)	−0.03 (−0.25, 0.20)	−0.09 (−0.30, 0.12)
Holladay2	−0.16 (−0.58, 0.27)	−0.09 (−0.72, 0.54)	−0.12 (−0.53, 0.28)	−0.09 (−0.50, 0.30)		-	-	0.01 (−0.21, 0.23)	-	-	-
Holladay2_NoPreSurgRef	−0.02 (−0.51, 0.48)	0.05 (−0.54, 0.65)	0.02 (−0.48, 0.52)	0.04 (−0.46, 0.54)	0.14 (−0.49, 0.77)		−0.02 (−0.22, 0.19)	-	−0.04 (−0.25, 0.16)	0.02 (−0.21, 0.24)	−0.05 (−0.26, 0.16)
Holladay2_PreSurgRef	−0.04 (−0.54, 0.47)	0.03 (−0.57, 0.64)	0.00 (−0.51, 0.50)	0.02 (−0.48, 0.53)	0.12 (−0.50, 0.75)	−0.02 (−0.62, 0.57)		-	−0.03 (−0.23, 0.18)	0.03 (−0.19, 0.26)	−0.03 (−0.24, 0.18)
Holladay2-LT	−0.07 (−0.61, 0.47)	0.00 (−0.72, 0.72)	−0.03 (−0.56, 0.49)	−0.01 (−0.53, 0.52)	0.08 (−0.46, 0.65)	−0.05 (−0.76, 0.66)	−0.03 (−0.75, 0.68)		-	-	-
LadasSuperFormula	−0.06 (−0.56, 0.45)	0.01 (−0.60, 0.61)	−0.02 (−0.53, 0.48)	0.00 (−0.50, 0.51)	0.10 (−0.53, 0.72)	−0.04 (−0.63, 0.54)	−0.02 (−0.62, 0.58)	0.01 (−0.70, 0.72)		0.06 (−0.17, 0.28)	−0.01 (−0.22, 0.20)
Olsen_standalone	0.00 (−0.52, 0.50)	0.07 (−0.54, 0.67)	0.04 (−0.49, 0.54)	0.06 (−0.46, 0.56)	0.16 (−0.48, 0.79)	0.02 (−0.59, 0.62)	0.04 (−0.57, 0.64)	0.07 (−0.65, 0.78)	0.06 (−0.55, 0.67)		−0.06 (−0.29, 0.17)
T2	−0.07 (−0.57, 0.43)	0.00 (−0.60, 0.60)	−0.03 (−0.54, 0.47)	−0.01 (−0.51, 0.49)	0.09 (−0.54, 0.71)	−0.05 (−0.65, 0.55)	−0.03 (−0.63, 0.56)	0.00 (−0.71, 0.71)	−0.01 (−0.61, 0.59)	−0.07 (−0.67, 0.53)

Figure 2AL <22.0mm: Mean absolute error - random effects model – relative effect of all options versus common comparator

Table 4AL <22.0mm: Mean absolute error - random effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.005	7 (2, 11)
BarrettUniversalII	0.122	5 (1, 11)
Haigis	0.012	6 (2, 10)
HofferQ	0.017	6 (2, 10)
Holladay2	0.214	3 (1, 11)
Holladay2_NoPreSurgRef	0.078	7 (1, 11)
Holladay2_PreSurgRef	0.090	6 (1, 11)
Holladay2-LT	0.155	5 (1, 11)
LadasSuperFormula	0.112	6 (1, 11)
Olsen_standalone	0.073	7 (1, 11)
T2	0.122	5 (1, 11)

Figure 3AL <22.0mm: Mean absolute error - random effects model – rank probability histograms

Table 5AL <22.0mm: Mean absolute error - random effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
36.72 (compared to 37 datapoints)	−78.017	−111.476	33.459	−44.558	0.267 (95%CI: 0.174, 0.424)

Table 6AL <22.0mm: Mean absolute error - random effects model – notes

Continuous (normal; identity link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations

Figure 4AL <22.0mm: Within 0.25D - fixed effects model – evidence network

Table 7AL <22.0mm: Within 0.25D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
Kane, J. et al. (2016)	51/156	48/156	57/156	44/156	49/156		52/156
Eom et al. (2014)			28/75	22/75
Srivannaboon et al. (2013)			5/15	6/15	5/15	5/15
Day et al. (2012)	11/32		12/32	10/32
Day et al. (2012)	32/100		35/100	39/100
Day et al. (2012)	2/19		3/19	3/19
Day et al. (2012)	3/12		2/12	4/12
Aristodemou et al. (2011)	50/151			44/151
Aristodemou et al. (2011)	145/457			168/457

Table 8AL <22.0mm: Within 0.25D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
SRKT		0.92 (0.57, 1.47)	1.16 (0.83, 1.61)	1.09 (0.90, 1.33)	0.94 (0.59, 1.52)	-	1.03 (0.64, 1.65)
BarrettUniversalII	1.01 (0.67, 1.53)		1.30 (0.81, 2.07)	0.88 (0.54, 1.44)	1.03 (0.64, 1.66)	-	1.13 (0.70, 1.81)
Haigis	1.23 (0.92, 1.64)	1.21 (0.79, 1.85)		0.86 (0.64, 1.15)	0.81 (0.52, 1.27)	1.00 (0.22, 4.56)	0.87 (0.55, 1.38)
HofferQ	1.09 (0.90, 1.32)	1.07 (0.71, 1.62)	0.88 (0.67, 1.16)		1.12 (0.70, 1.77)	0.75 (0.17, 3.33)	1.27 (0.79, 2.06)
Holladay2	1.04 (0.70, 1.55)	1.03 (0.64, 1.65)	0.85 (0.56, 1.27)	0.96 (0.64, 1.41)		1.00 (0.22, 4.56)	1.09 (0.68, 1.75)
Holladay2-LT	0.99 (0.26, 3.53)	0.98 (0.24, 3.57)	0.81 (0.21, 2.82)	0.92 (0.24, 3.20)	0.96 (0.25, 3.38)		-
T2	1.14 (0.76, 1.71)	1.13 (0.70, 1.83)	0.93 (0.61, 1.42)	1.05 (0.70, 1.57)	1.10 (0.69, 1.76)	1.15 (0.31, 4.64)

Figure 5AL <22.0mm: Within 0.25D - fixed effects model – relative effect of all options versus common comparator

Table 9AL <22.0mm: Within 0.25D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.007	5 (2, 7)
BarrettUniversalII	0.066	5 (1, 7)
Haigis	0.286	2 (1, 6)
HofferQ	0.044	4 (1, 7)
Holladay2	0.074	5 (1, 7)
Holladay2-LT	0.327	5 (1, 7)
T2	0.196	3 (1, 7)

Figure 6AL <22.0mm: Within 0.25D - fixed effects model – rank probability histograms

Table 10AL <22.0mm: Within 0.25D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
22.47 (compared to 28 datapoints)	142.482	127.373	15.109	157.592

Table 11AL <22.0mm: Within 0.25D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 7AL <22.0mm: Within 0.50D - random effects model – evidence network

Table 12AL <22.0mm: Within 0.50D - random effects model – input data

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	Holladay2-LT	LadasSuperFormula	Olsen_standalone	T2
Cooke & (2016)	28/41		32/41	28/41	26/41		30/41	27/41		33/41	25/41	30/41
Doshi et al. (2017)	22/40			7/40	17/40
Kane, J. et al. (2016)	93/156		97/156	98/156	87/156	96/156						94/156
Ozcura et al. (2016)	14/32				15/32
Carifi et al. (2015)	6/28			12/28	11/28	12/28
Eom et al. (2014)				50/75	47/75
Srivannaboon et al. (2013)				6/15	9/15	7/15			7/15
Day et al. (2012)	20/32			24/32	18/32
Day et al. (2012)	54/100			68/100	60/100
Day et al. (2012)	6/19			4/19	9/19
Day et al. (2012)	4/12			4/12	4/12
Aristodemou et al. (2011)	91/151				85/151
Aristodemou et al. (2011)	276/457				293/457
Percival et al. (2002)	25/54	36/54			35/54
Moschos et al. (2014)	13/69			50/69	41/69

Table 13AL <22.0mm: Within 0.50D - random effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	Holladay2-LT	LadasSuperFormula	Olsen_standalone	T2
SRKT		2.32 (1.06, 5.05)	1.19 (0.79, 1.80)	1.38 (0.68, 2.80)	1.25 (0.92, 1.71)	1.47 (0.62, 3.45)	1.27 (0.49, 3.29)	0.90 (0.36, 2.25)	-	1.92 (0.69, 5.28)	0.73 (0.29, 1.80)	1.07 (0.71, 1.61)
AvgHofferQSRKT	1.82 (0.51, 6.65)		-	-	0.92 (0.42, 2.04)	-	-	-	-	-	-	-
BarrettUniversalII	1.65 (0.70, 3.92)	0.91 (0.20, 4.12)		0.94 (0.62, 1.42)	0.71 (0.47, 1.07)	0.97 (0.62, 1.54)	0.77 (0.28, 2.11)	0.54 (0.20, 1.45)	-	1.16 (0.40, 3.38)	0.44 (0.17, 1.16)	0.89 (0.59, 1.35)
Haigis	1.38 (0.84, 2.21)	0.76 (0.20, 2.80)	0.84 (0.34, 1.96)		0.90 (0.65, 1.26)	0.98 (0.65, 1.47)	1.27 (0.49, 3.29)	0.90 (0.36, 2.25)	1.31 (0.31, 5.58)	1.92 (0.69, 5.28)	0.73 (0.29, 1.80)	0.96 (0.63, 1.44)
HofferQ	1.30 (0.86, 1.96)	0.71 (0.20, 2.53)	0.79 (0.34, 1.85)	0.94 (0.61, 1.50)		1.18 (0.79, 1.76)	1.57 (0.62, 4.02)	1.11 (0.45, 2.75)	0.58 (0.14, 2.48)	2.38 (0.88, 6.47)	0.90 (0.37, 2.20)	1.26 (0.84, 1.90)
Holladay2	1.45 (0.66, 3.17)	0.80 (0.18, 3.42)	0.88 (0.31, 2.43)	1.05 (0.49, 2.31)	1.11 (0.52, 2.41)		-	-	1.00 (0.24, 4.20)	-	-	0.95 (0.60, 1.49)
Holladay2_NoPreSurgRef	1.53 (0.43, 5.53)	0.84 (0.14, 4.98)	0.93 (0.23, 3.75)	1.11 (0.32, 4.08)	1.17 (0.34, 4.21)	1.06 (0.26, 4.40)		0.71 (0.27, 1.82)	-	1.51 (0.54, 4.26)	0.57 (0.23, 1.46)	1.00 (0.38, 2.66)
Holladay2_PreSurgRef	1.07 (0.31, 3.67)	0.59 (0.10, 3.36)	0.65 (0.17, 2.50)	0.78 (0.23, 2.69)	0.83 (0.24, 2.81)	0.74 (0.18, 2.95)	0.70 (0.15, 3.30)		-	2.14 (0.78, 5.85)	0.81 (0.33, 1.99)	1.41 (0.55, 3.64)
Holladay2-LT	1.23 (0.24, 6.19)	0.67 (0.09, 5.14)	0.75 (0.13, 4.28)	0.90 (0.18, 4.45)	0.95 (0.19, 4.60)	0.85 (0.16, 4.39)	0.80 (0.11, 5.95)	1.14 (0.16, 8.35)		-	-	-
LadasSuperFormula	2.36 (0.64, 8.96)	1.30 (0.21, 7.91)	1.44 (0.35, 6.04)	1.73 (0.47, 6.49)	1.82 (0.49, 6.79)	1.64 (0.39, 7.07)	1.55 (0.31, 7.85)	2.21 (0.46, 10.94)	1.94 (0.26, 14.95)		0.38 (0.14, 1.02)	0.66 (0.23, 1.86)
Olsen_standalone	0.86 (0.25, 2.98)	0.47 (0.08, 2.72)	0.52 (0.14, 2.01)	0.62 (0.18, 2.17)	0.66 (0.19, 2.25)	0.59 (0.15, 2.41)	0.56 (0.12, 2.64)	0.80 (0.18, 3.69)	0.70 (0.10, 5.04)	0.36 (0.07, 1.73)		1.75 (0.69, 4.44)
T2	1.42 (0.60, 3.35)	0.78 (0.17, 3.48)	0.86 (0.31, 2.36)	1.03 (0.44, 2.47)	1.09 (0.47, 2.56)	0.98 (0.35, 2.72)	0.93 (0.23, 3.64)	1.32 (0.35, 4.97)	1.15 (0.20, 6.75)	0.60 (0.14, 2.43)	1.65 (0.43, 6.43)

Figure 8AL <22.0mm: Within 0.50D - random effects model – relative effect of all options versus common comparator

Table 14AL <22.0mm: Within 0.50D - random effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.000	10 (5, 12)
AvgHofferQSRKT	0.217	4 (1, 12)
BarrettUniversalII	0.074	4 (1, 11)
Haigis	0.006	6 (2, 10)
HofferQ	0.002	7 (3, 11)
Holladay2	0.034	6 (1, 11)
Holladay2_NoPreSurgRef	0.113	5 (1, 12)
Holladay2_PreSurgRef	0.032	9 (1, 12)
Holladay2-LT	0.122	8 (1, 12)
LadasSuperFormula	0.357	2 (1, 11)
Olsen_standalone	0.014	11 (2, 12)
T2	0.031	6 (1, 12)

Figure 9AL <22.0mm: Within 0.50D - random effects model – rank probability histograms

Table 15AL <22.0mm: Within 0.50D - random effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
52.32 (compared to 52 datapoints)	272.542	229.532	43.01	315.552	0.589 (95%CI: 0.345, 0.920)

Table 16AL <22.0mm: Within 0.50D - random effects model – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations

Figure 10AL <22.0mm: Within 1.0D - random effects model – evidence network

Table 17AL <22.0mm: Within 1.0D - random effects model – input data

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	Holladay2-LT	LadasSuperFormula	Olsen_standalone	T2
Cooke & (2016)	39/41		38/41	39/41	36/41		36/41	38/41		38/41	39/41	39/41
Doshi et al. (2017)	33/40			14/40	36/40
Kane, J. et al. (2016)	144/156		144/156	142/156	142/156	143/156						145/156
Ozcura et al. (2016)	24/32				26/32
Carifi et al. (2015)	12/28			13/28	17/28	18/28
Eom et al. (2014)				66/75	66/75
Srivannaboon et al. (2013)				11/15	13/15	13/15			13/15
Day et al. (2012)	28/32			31/32	28/32
Day et al. (2012)	89/100			93/100	92/100
Day et al. (2012)	14/19			12/19	14/19
Day et al. (2012)	6/12			7/12	6/12
Aristodemou et al. (2011)	130/151				131/151
Aristodemou et al. (2011)	399/457				408/457
Percival et al. (2002)	43/54	45/54			48/54
Moschos et al. (2014)	47/69			64/69	59/69

Table 18AL <22.0mm: Within 1.0D - random effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	Holladay2-LT	LadasSuperFormula	Olsen_standalone	T2
SRKT		1.28 (0.48, 3.39)	0.93 (0.44, 1.99)	1.10 (0.49, 2.48)	1.29 (1.02, 1.65)	1.39 (0.55, 3.53)	0.37 (0.07, 2.02)	0.65 (0.10, 4.11)	-	0.65 (0.10, 4.11)	1.00 (0.13, 7.46)	1.08 (0.50, 2.37)
AvgHofferQSRKT	1.05 (0.23, 4.61)		-	-	1.60 (0.53, 4.86)	-	-	-	-	-	-	-
BarrettUniversalII	1.27 (0.43, 3.83)	1.21 (0.20, 7.73)		0.93 (0.44, 1.95)	0.77 (0.38, 1.57)	0.92 (0.40, 2.08)	0.57 (0.13, 2.55)	1.00 (0.19, 5.27)	-	1.00 (0.19, 5.27)	1.54 (0.24, 9.73)	1.17 (0.54, 2.52)
Haigis	1.07 (0.62, 1.88)	1.02 (0.22, 4.95)	0.84 (0.28, 2.50)		1.18 (0.63, 2.20)	1.44 (0.79, 2.63)	0.37 (0.07, 2.02)	0.65 (0.10, 4.11)	2.36 (0.36, 15.45)	0.65 (0.10, 4.11)	1.00 (0.13, 7.46)	1.25 (0.58, 2.68)
HofferQ	1.32 (0.81, 2.11)	1.26 (0.28, 5.75)	1.04 (0.34, 3.00)	1.23 (0.71, 2.10)		1.10 (0.60, 2.03)	1.00 (0.27, 3.75)	1.76 (0.39, 7.90)	1.00 (0.12, 8.21)	1.76 (0.39, 7.90)	2.71 (0.49, 14.84)	1.49 (0.71, 3.13)
Holladay2	1.56 (0.63, 4.02)	1.48 (0.27, 8.68)	1.23 (0.35, 4.38)	1.45 (0.59, 3.70)	1.18 (0.48, 3.04)		-	-	1.00 (0.12, 8.21)	-	-	1.20 (0.52, 2.76)
Holladay2_NoPreSurgRef	0.63 (0.13, 3.23)	0.60 (0.07, 5.29)	0.50 (0.09, 2.81)	0.59 (0.12, 2.94)	0.48 (0.10, 2.41)	0.41 (0.07, 2.40)		1.76 (0.39, 7.90)	-	1.76 (0.39, 7.90)	2.71 (0.49, 14.84)	2.71 (0.49, 14.84)
Holladay2_PreSurgRef	1.20 (0.22, 8.15)	1.16 (0.12, 13.02)	0.95 (0.15, 7.30)	1.12 (0.20, 7.69)	0.91 (0.16, 6.23)	0.77 (0.12, 6.00)	1.90 (0.25, 16.72)		-	1.00 (0.19, 5.27)	1.54 (0.24, 9.73)	1.54 (0.24, 9.73)
Holladay2-LT	2.00 (0.26, 22.38)	1.94 (0.16, 32.60)	1.58 (0.17, 21.34)	1.87 (0.25, 21.28)	1.52 (0.20, 17.15)	1.29 (0.16, 14.88)	3.20 (0.24, 55.29)	1.70 (0.10, 30.39)		-	-	-
LadasSuperFormula	1.18 (0.21, 7.80)	1.14 (0.12, 12.03)	0.94 (0.14, 6.75)	1.11 (0.20, 7.26)	0.90 (0.16, 5.99)	0.76 (0.11, 5.82)	1.87 (0.24, 16.44)	0.99 (0.10, 9.58)	0.59 (0.03, 8.93)		1.54 (0.24, 9.73)	1.54 (0.24, 9.73)
Olsen_standalone	2.00 (0.31, 20.29)	1.96 (0.17, 27.07)	1.58 (0.21, 16.97)	1.86 (0.28, 18.71)	1.51 (0.24, 15.13)	1.29 (0.17, 14.30)	3.21 (0.35, 38.30)	1.66 (0.15, 22.15)	1.01 (0.05, 19.87)	1.69 (0.16, 21.88)		1.00 (0.13, 7.46)
T2	1.57 (0.53, 4.94)	1.50 (0.24, 9.77)	1.23 (0.34, 4.73)	1.46 (0.48, 4.64)	1.19 (0.40, 3.73)	1.01 (0.28, 3.68)	2.46 (0.43, 14.60)	1.31 (0.17, 8.54)	0.79 (0.06, 7.53)	1.32 (0.17, 8.98)	0.78 (0.07, 6.03)

Figure 11AL <22.0mm: Within 1.0D - random effects model – relative effect of all options versus common comparator

Table 19AL <22.0mm: Within 1.0D - random effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.001	8 (4, 12)
AvgHofferQSRKT	0.058	8 (1, 12)
BarrettUniversalII	0.032	6 (1, 12)
Haigis	0.002	8 (3, 11)
HofferQ	0.006	6 (2, 10)
Holladay2	0.056	5 (1, 11)
Holladay2_NoPreSurgRef	0.012	11 (2, 12)
Holladay2_PreSurgRef	0.095	7 (1, 12)
Holladay2-LT	0.298	3 (1, 12)
LadasSuperFormula	0.093	7 (1, 12)
Olsen_standalone	0.273	3 (1, 12)
T2	0.075	5 (1, 11)

Figure 12AL <22.0mm: Within 1.0D - random effects model – rank probability histograms

Table 20AL <22.0mm: Within 1.0D - random effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
50.87 (compared to 52 datapoints)	236.411	195.954	40.458	276.869	0.653 (95%CI: 0.367, 1.035)

Table 21AL <22.0mm: Within 1.0D - random effects model – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations

Figure 13AL <22.0mm: Within 2.0D - fixed effects model – evidence network

Table 22AL <22.0mm: Within 2.0D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
Kane, J. et al. (2016)	155/156	156/156	156/156	156/156	156/156	155/156
Ozcura et al. (2016)	31/32			31/32
Carifi et al. (2015)	22/28		24/28	25/28	26/28

Table 23AL <22.0mm: Within 2.0D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
SRKT		3.02 (0.12, 74.69)	1.83 (0.51, 6.48)	2.05 (0.61, 6.86)	3.42 (0.76, 15.35)	1.00 (0.06, 16.13)
BarrettUniversalII	4.65 (0.25, 2033.00)		1.00 (0.02, 50.71)	1.00 (0.02, 50.71)	1.00 (0.02, 50.71)	0.33 (0.01, 8.19)
Haigis	1.77 (0.51, 7.04)	0.38 (0.00, 8.10)		1.33 (0.30, 5.81)	1.90 (0.38, 9.54)	0.33 (0.01, 8.19)
HofferQ	2.14 (0.63, 8.20)	0.46 (0.00, 9.67)	1.21 (0.28, 5.31)		1.44 (0.27, 7.74)	0.33 (0.01, 8.19)
Holladay2	3.61 (0.85, 21.95)	0.77 (0.00, 20.64)	2.03 (0.40, 13.61)	1.67 (0.32, 11.15)		0.33 (0.01, 8.19)
T2	0.91 (0.10, 12.74)	0.20 (0.00, 6.00)	0.51 (0.05, 7.38)	0.42 (0.04, 6.24)	0.25 (0.02, 4.14)

Figure 14AL <22.0mm: Within 2.0D - fixed effects model – relative effect of all options versus common comparator

Table 24AL <22.0mm: Within 2.0D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.003	5 (3, 6)
BarrettUniversalII	0.492	2 (1, 6)
Haigis	0.052	4 (1, 6)
HofferQ	0.089	3 (1, 6)
Holladay2	0.309	2 (1, 5)
T2	0.055	5 (1, 6)

Figure 15AL <22.0mm: Within 2.0D - fixed effects model – rank probability histograms

Table 25AL <22.0mm: Within 2.0D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
9.174 (compared to 12 datapoints)	35.541	28.066	7.474	43.015

Table 26AL <22.0mm: Within 2.0D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

H.3.2.3. Full dataset: Axial length subgroup – 22.00 to 24.50mm

Figure 16AL 22.0–24.5mm: Mean absolute error - fixed effects model – evidence network

Table 27AL 22.0−24.5mm: Mean absolute error - fixed effects model – input data

	SRKT	Haigis	HofferQ	Holladay2	Holladay2-LT
Ozcura et al. (2016)	0.51 (0.42)		0.55 (0.44)
Srivannaboon et al. (2013)		0.40 (0.33)	0.39 (0.33)	0.41 (0.31)	0.42 (0.30)

Table 28AL 22.0−24.5mm: Mean absolute error - fixed effects model – relative effectiveness of all pairwise combinations (MD and 95% credible interval)

	SRKT	Haigis	HofferQ	Holladay2	Holladay2-LT
SRKT		-	0.04 (−0.02, 0.10)	-	-
Haigis	0.05 (−0.05, 0.15)		−0.01 (−0.09, 0.07)	0.01 (−0.07, 0.09)	0.02 (−0.06, 0.10)
HofferQ	0.04 (−0.02, 0.10)	−0.01 (−0.09, 0.07)		0.02 (−0.06, 0.10)	0.03 (−0.05, 0.11)
Holladay2	0.06 (−0.04, 0.16)	0.01 (−0.07, 0.09)	0.02 (−0.06, 0.10)		0.01 (−0.07, 0.09)
Holladay2-LT	0.07 (−0.03, 0.17)	0.02 (−0.06, 0.10)	0.03 (−0.05, 0.11)	0.01 (−0.07, 0.09)

Figure 17AL 22.0–24.5mm: Mean absolute error - fixed effects model – relative effect of all options versus common comparator

Table 29AL 22.0−24.5mm: Mean absolute error - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.739	1 (1, 4)
Haigis	0.123	3 (1, 5)
HofferQ	0.037	3 (1, 5)
Holladay2	0.068	4 (1, 5)
Holladay2-LT	0.032	4 (1, 5)

Figure 18AL 22.0–24.5mm: Mean absolute error - fixed effects model – rank probability histograms

Table 30AL 22.0−24.5mm: Mean absolute error - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
6.015 (compared to 6 datapoints)	−26.891	−32.905	6.014	−20.877

Table 31AL 22.0−24.5mm: Mean absolute error - fixed effects model – notes

Continuous (normal; identity link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 19AL 22.0–24.5mm: Within 0.25D - fixed effects model – evidence network

Table 32AL 22.0−24.5mm: Within 0.25D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
Kane, J. et al. (2016)	1018/2638	1126/2638	1029/2638	1029/2638	1000/2638		1029/2638
Srivannaboon et al. (2013)			52/124	50/124	45/124	46/124
Aristodemou et al. (2011)	599/1508			609/1508
Aristodemou et al. (2011)	1985/4699			1900/4699

Table 33AL 22.0−24.5mm: Within 0.25D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
SRKT		1.19 (1.06, 1.32)	1.02 (0.91, 1.14)	0.97 (0.91, 1.03)	0.97 (0.87, 1.09)	-	1.02 (0.91, 1.14)
BarrettUniversalII	1.16 (1.05, 1.28)		0.86 (0.77, 0.96)	0.86 (0.77, 0.96)	0.82 (0.73, 0.92)	-	0.86 (0.77, 0.96)
Haigis	1.00 (0.90, 1.10)	0.86 (0.77, 0.96)		1.00 (0.89, 1.11)	0.95 (0.85, 1.05)	0.82 (0.49, 1.36)	1.00 (0.90, 1.12)
HofferQ	0.97 (0.91, 1.03)	0.84 (0.76, 0.93)	0.97 (0.88, 1.08)		0.95 (0.85, 1.06)	0.87 (0.52, 1.46)	1.00 (0.90, 1.12)
Holladay2	0.94 (0.85, 1.04)	0.82 (0.73, 0.91)	0.95 (0.85, 1.06)	0.97 (0.88, 1.07)		1.04 (0.62, 1.74)	1.05 (0.94, 1.17)
Holladay2-LT	0.87 (0.57, 1.33)	0.76 (0.49, 1.15)	0.88 (0.57, 1.33)	0.90 (0.59, 1.36)	0.93 (0.60, 1.41)		-
T2	0.99 (0.90, 1.10)	0.86 (0.77, 0.96)	1.00 (0.89, 1.11)	1.02 (0.93, 1.13)	1.05 (0.94, 1.18)	1.14 (0.75, 1.76)

Figure 20AL 22.0–24.5mm: Within 0.25D - fixed effects model – relative effect of all options versus common comparator

Table 34AL 22.0−24.5mm: Within 0.25D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.001	3 (2, 6)
BarrettUniversalII	0.895	1 (1, 2)
Haigis	0.003	4 (2, 7)
HofferQ	0.000	5 (2, 7)
Holladay2	0.000	6 (3, 7)
Holladay2-LT	0.098	7 (1, 7)
T2	0.003	4 (2, 7)

Figure 21AL 22.0–24.5mm: Within 0.25D - fixed effects model – rank probability histograms

Table 35AL 22.0−24.5mm: Within 0.25D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
12.98 (compared to 14 datapoints)	116.779	106.805	9.974	126.752

Table 36AL 22.0−24.5mm: Within 0.25D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 22AL 22.0–24.5mm: Within 0.5D - fixed effects model – evidence network

Table 37AL 22.0−24.5mm: Within 0.5D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
Kane, J. et al. (2016)	1868/2638	1881/2638	1820/2638	1796/2638	1796/2638		1833/2638
Ozcura et al. (2016)	245/422			221/422
Srivannaboon et al. (2013)			82/124	84/124	87/124	89/124
Aristodemou et al. (2011)	1062/1508			1033/1508
Aristodemou et al. (2011)	3353/4699			3266/4699

Table 38AL 22.0−24.5mm: Within 0.5D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
SRKT		1.02 (0.91, 1.15)	0.92 (0.82, 1.03)	0.90 (0.84, 0.96)	0.88 (0.78, 0.99)	-	0.94 (0.83, 1.06)
BarrettUniversalII	1.04 (0.93, 1.15)		0.90 (0.80, 1.01)	0.86 (0.76, 0.97)	0.86 (0.76, 0.97)	-	0.92 (0.81, 1.03)
Haigis	0.92 (0.83, 1.03)	0.89 (0.79, 1.00)		0.96 (0.86, 1.08)	0.97 (0.86, 1.09)	1.30 (0.76, 2.23)	1.02 (0.91, 1.15)
HofferQ	0.90 (0.84, 0.96)	0.87 (0.78, 0.96)	0.97 (0.88, 1.08)		1.01 (0.90, 1.13)	1.21 (0.70, 2.08)	1.07 (0.95, 1.20)
Holladay2	0.89 (0.81, 0.99)	0.86 (0.77, 0.97)	0.97 (0.86, 1.09)	1.00 (0.90, 1.11)		1.08 (0.62, 1.87)	1.07 (0.95, 1.20)
Holladay2-LT	1.09 (0.70, 1.73)	1.05 (0.67, 1.68)	1.18 (0.75, 1.87)	1.21 (0.78, 1.92)	1.22 (0.78, 1.93)		-
T2	0.95 (0.85, 1.06)	0.92 (0.81, 1.03)	1.03 (0.92, 1.16)	1.06 (0.95, 1.17)	1.06 (0.95, 1.19)	0.87 (0.55, 1.37)

Figure 23AL 22.0–24.5mm: Within 0.5D - fixed effects model – relative effect of all options versus common comparator

Table 39AL 22.0−24.5mm: Within 0.5D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.094	3 (1, 5)
BarrettUniversalII	0.318	2 (1, 4)
Haigis	0.004	5 (2, 7)
HofferQ	0.000	6 (4, 7)
Holladay2	0.000	6 (3, 7)
Holladay2-LT	0.569	1 (1, 7)
T2	0.016	4 (2, 7)

Figure 24AL 22.0–24.5mm: Within 0.5D - fixed effects model – rank probability histograms

Table 40AL 22.0−24.5mm: Within 0.5D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
12.8 (compared to 16 datapoints)	127.886	116.882	11.004	138.89

Table 41AL 22.0−24.5mm: Within 0.5D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 25AL 22.0–24.5mm: Within 1.0D - fixed effects model – evidence network

Table 42AL 22.0−24.5mm: Within 1.0D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
Kane, J. et al. (2016)	2477/2638	2485/2638	2453/2638	2451/2638	2480/2638		2467/2638
Ozcura et al. (2016)	374/422			374/422
Srivannaboon et al. (2013)			114/124	118/124	118/124	118/124
Aristodemou et al. (2011)	1398/1508			1400/1508
Aristodemou et al. (2011)	4430/4699			4432/4699

Table 43AL 22.0−24.5mm: Within 1.0D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	RKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
SRKT		1.06 (0.84, 1.33)	0.86 (0.69, 1.07)	0.96 (0.86, 1.08)	1.02 (0.81, 1.28)	-	0.94 (0.75, 1.17)
BarrettUniversalII	1.12 (0.91, 1.38)		0.82 (0.65, 1.02)	0.81 (0.65, 1.01)	0.97 (0.77, 1.22)	-	0.89 (0.71, 1.11)
Haigis	0.90 (0.75, 1.10)	0.81 (0.65, 1.00)		1.01 (0.82, 1.24)	1.20 (0.97, 1.49)	1.73 (0.61, 4.90)	1.09 (0.88, 1.35)
HofferQ	0.96 (0.86, 1.08)	0.86 (0.70, 1.05)	1.07 (0.88, 1.29)		1.19 (0.96, 1.48)	1.00 (0.31, 3.19)	1.10 (0.89, 1.36)
Holladay2	1.09 (0.89, 1.33)	0.97 (0.77, 1.22)	1.21 (0.97, 1.49)	1.13 (0.92, 1.38)		1.00 (0.31, 3.19)	0.92 (0.74, 1.15)
Holladay2-LT	1.25 (0.51, 3.57)	1.12 (0.45, 3.25)	1.39 (0.57, 3.99)	1.30 (0.54, 3.70)	1.15 (0.47, 3.29)		-
T2	1.00 (0.82, 1.22)	0.89 (0.71, 1.11)	1.10 (0.89, 1.37)	1.03 (0.85, 1.27)	0.92 (0.73, 1.14)	0.79 (0.28, 1.97)

Figure 26AL 22.0–24.5mm: Within 1.0D - fixed effects model – relative effect of all options versus common comparator

Table 44AL 22.0−24.5mm: Within 1.0D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.017	4 (2, 7)
BarrettUniversalII	0.245	2 (1, 6)
Haigis	0.001	6 (3, 7)
HofferQ	0.003	5 (2, 7)
Holladay2	0.141	3 (1, 6)
Holladay2-LT	0.562	1 (1, 7)
T2	0.029	4 (1, 7)

Figure 27AL 22.0–24.5mm: Within 1.0D - fixed effects model – rank probability histograms

Table 45AL 22.0−24.5mm: Within 1.0D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
13.68 (compared to 16 datapoints)	108.82	97.841	10.979	119.799

Table 46AL 22.0−24.5mm: Within 1.0D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 28AL 22.0–24.5mm: Within 2.0D - fixed effects model – evidence network

Table 47AL 22.0−24.5mm: Within 2.0D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
Kane, J. et al. (2016)	2633/2638	2635/2638	2627/2638	2627/2638	2630/2638	2630/2638
Ozcura et al. (2016)	420/422			415/422

Table 48AL 22.0−24.5mm: Within 2.0D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
SRKT		1.67 (0.40, 6.99)	0.45 (0.16, 1.31)	0.39 (0.16, 0.93)	0.62 (0.20, 1.91)	0.62 (0.20, 1.91)
BarrettUniversalII	1.57 (0.41, 7.93)		0.27 (0.08, 0.98)	0.27 (0.08, 0.98)	0.37 (0.10, 1.41)	0.37 (0.10, 1.41)
Haigis	0.39 (0.14, 1.05)	0.25 (0.05, 0.83)		1.00 (0.43, 2.31)	1.38 (0.55, 3.43)	1.38 (0.55, 3.43)
HofferQ	0.37 (0.14, 0.87)	0.24 (0.05, 0.77)	0.95 (0.41, 2.14)		1.38 (0.55, 3.43)	1.38 (0.55, 3.43)
Holladay2	0.54 (0.18, 1.59)	0.35 (0.07, 1.23)	1.39 (0.56, 3.66)	1.46 (0.61, 3.71)		1.00 (0.37, 2.67)
T2	0.55 (0.18, 1.59)	0.35 (0.07, 1.25)	1.39 (0.56, 3.70)	1.46 (0.61, 3.75)	1.00 (0.36, 2.75)

Figure 29AL 22.0–24.5mm: Within 2.0D - fixed effects model – relative effect of all options versus common comparator

Table 49AL 22.0−24.5mm: Within 2.0D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.242	2 (1, 4)
BarrettUniversalII	0.714	1 (1, 3)
Haigis	0.002	5 (3, 6)
HofferQ	0.001	5 (3, 6)
Holladay2	0.020	4 (2, 6)
T2	0.022	4 (2, 6)

Figure 30AL 22.0–24.5mm: Within 2.0D - fixed effects model – rank probability histograms

Table 50AL 22.0−24.5mm: Within 2.0D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
7.367 (compared to 8 datapoints)	36.6	29.761	6.839	43.439

Table 51AL 22.0−24.5mm: Within 2.0D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

H.3.2.4. Full dataset: Axial length subgroup – 24.50 to 26.00mm

Figure 31AL 24.5–26.0mm: Mean absolute error - fixed effects model – evidence network

Table 52AL 24.5−26.0mm: Mean absolute error - fixed effects model – input data

	Haigis	HofferQ	Holladay2	Holladay2-LT
Srivannaboon et al. (2013)	0.39 (0.32)	0.45 (0.35)	0.38 (0.34)	0.39 (0.33)

Table 53AL 24.5−26.0mm: Mean absolute error - fixed effects model – relative effectiveness of all pairwise combinations (MD and 95% credible interval)

	Haigis	HofferQ	Holladay2	Holladay2-LT
Haigis		0.06 (−0.13, 0.25)	−0.01 (−0.20, 0.18)	0.00 (−0.18, 0.18)
HofferQ	0.06 (−0.13, 0.25)		−0.07 (−0.27, 0.13)	−0.06 (−0.25, 0.13)
Holladay2	−0.01 (−0.20, 0.18)	−0.07 (−0.27, 0.13)		0.01 (−0.18, 0.20)
Holladay2-LT	0.00 (−0.18, 0.18)	−0.06 (−0.25, 0.13)	0.01 (−0.18, 0.20)

Figure 32AL 24.5–26.0mm: Mean absolute error - fixed effects model – relative effect of all options versus common comparator

Table 54AL 24.5−26.0mm: Mean absolute error - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
Haigis	0.280	2 (1, 4)
HofferQ	0.085	4 (1, 4)
Holladay2	0.349	2 (1, 4)
Holladay2-LT	0.286	2 (1, 4)

Figure 33AL 24.5–26.0mm: Mean absolute error - fixed effects model – rank probability histograms

Table 55AL 24.5−26.0mm: Mean absolute error - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
3.991 (compared to 4 datapoints)	−10.123	−14.114	3.991	−6.133

Table 56AL 24.5−26.0mm: Mean absolute error - fixed effects model – notes

Continuous (normal; identity link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 34AL 24.5–26.0mm: Within 0.25D - fixed effects model – evidence network

Table 57AL 24.5−26.0mm: Within 0.25D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
Kane, J. et al. (2016)	144/372	172/372	143/372	130/372	154/372		147/372
Srivannaboon et al. (2013)			12/24	10/24	14/24	12/24
Aristodemou et al. (2011)	105/234			104/234
Aristodemou et al. (2011)	272/712			275/712

Table 58AL 24.5−26.0mm: Within 0.25D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
SRKT		1.36 (1.02, 1.82)	0.99 (0.74, 1.33)	0.96 (0.82, 1.13)	1.12 (0.83, 1.50)	-	1.03 (0.77, 1.39)
BarrettUniversalII	1.45 (1.12, 1.89)		0.73 (0.54, 0.97)	0.62 (0.47, 0.84)	0.82 (0.61, 1.10)	-	0.76 (0.57, 1.02)
Haigis	1.06 (0.81, 1.38)	0.73 (0.54, 0.97)		0.85 (0.64, 1.13)	1.15 (0.86, 1.52)	1.00 (0.32, 3.10)	1.05 (0.78, 1.40)
HofferQ	0.96 (0.82, 1.12)	0.66 (0.51, 0.86)	0.91 (0.70, 1.18)		1.35 (1.01, 1.80)	1.40 (0.45, 4.38)	1.22 (0.90, 1.64)
Holladay2	1.21 (0.93, 1.57)	0.83 (0.63, 1.11)	1.15 (0.86, 1.52)	1.27 (0.98, 1.64)		0.71 (0.23, 2.23)	0.92 (0.69, 1.24)
Holladay2-LT	1.07 (0.41, 2.76)	0.74 (0.28, 1.94)	1.01 (0.39, 2.61)	1.12 (0.43, 2.89)	0.88 (0.34, 2.30)		-
T2	1.10 (0.85, 1.44)	0.76 (0.57, 1.01)	1.05 (0.78, 1.40)	1.15 (0.88, 1.51)	0.91 (0.68, 1.22)	1.04 (0.39, 2.73)

Figure 35AL 24.5–26.0mm: Within 0.25D - fixed effects model – relative effect of all options versus common comparator

Table 59AL 24.5−26.0mm: Within 0.25D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.001	5 (3, 7)
BarrettUniversalII	0.658	1 (1, 3)
Haigis	0.005	4 (2, 7)
HofferQ	0.000	6 (3, 7)
Holladay2	0.065	3 (1, 6)
Holladay2-LT	0.256	4 (1, 7)
T2	0.015	4 (2, 7)

Figure 36AL 24.5–26.0mm: Within 0.25D - fixed effects model – rank probability histograms

Table 60AL 24.5−26.0mm: Within 0.25D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
11.55 (compared to 14 datapoints)	89.771	79.757	10.014	99.785

Table 61AL 24.5−26.0mm: Within 0.25D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 37AL 24.5–26.0mm: Within 0.5D - fixed effects model – evidence network

Table 62AL 24.5−26.0mm: Within 0.5D - fixed effects model – input data

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
Kane, J. et al. (2016)	248/372		285/372	255/372	256/372	250/372		265/372
Srivannaboon et al. (2013)				19/24	14/24	17/24	14/24
Aristodemou et al. (2011)	170/234				173/234
Aristodemou et al. (2011)	481/712				473/712
Percival et al. (2002)	20/26	21/26			20/26

Table 63AL 24.5−26.0mm: Within 0.5D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
SRKT		1.26 (0.33, 4.79)	1.64 (1.19, 2.26)	1.09 (0.80, 1.48)	1.01 (0.86, 1.19)	1.02 (0.75, 1.39)	-	1.24 (0.91, 1.69)
AvgHofferQSRKT	1.30 (0.41, 4.73)		-	-	0.79 (0.21, 3.02)	-	-	-
BarrettUniversalII	1.59 (1.19, 2.15)	1.21 (0.33, 4.02)		0.67 (0.48, 0.92)	0.67 (0.49, 0.93)	0.63 (0.45, 0.86)	-	0.76 (0.54, 1.05)
Haigis	1.08 (0.82, 1.43)	0.83 (0.22, 2.75)	0.68 (0.49, 0.94)		0.95 (0.71, 1.29)	0.92 (0.68, 1.24)	0.37 (0.10, 1.32)	1.14 (0.83, 1.55)
HofferQ	1.00 (0.85, 1.17)	0.77 (0.21, 2.45)	0.63 (0.47, 0.84)	0.92 (0.70, 1.22)		0.97 (0.72, 1.30)	1.00 (0.32, 3.15)	1.12 (0.82, 1.54)
Holladay2	1.00 (0.76, 1.31)	0.76 (0.21, 2.53)	0.63 (0.46, 0.86)	0.92 (0.68, 1.24)	1.00 (0.76, 1.31)		0.58 (0.17, 1.91)	1.21 (0.88, 1.65)
Holladay2-LT	0.63 (0.24, 1.72)	0.48 (0.10, 2.21)	0.40 (0.15, 1.10)	0.58 (0.22, 1.58)	0.63 (0.24, 1.70)	0.63 (0.24, 1.71)		-
T2	1.20 (0.91, 1.60)	0.92 (0.25, 3.07)	0.76 (0.54, 1.05)	1.11 (0.81, 1.52)	1.20 (0.90, 1.60)	1.20 (0.88, 1.63)	1.90 (0.69, 5.16)

Figure 38AL 24.5–26.0mm: Within 0.5D - fixed effects model – relative effect of all options versus common comparator

Table 64AL 24.5−26.0mm: Within 0.5D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.000	6 (3, 8)
AvgHofferQSRKT	0.373	2 (1, 8)
BarrettUniversalII	0.574	1 (1, 3)
Haigis	0.003	4 (2, 7)
HofferQ	0.000	6 (3, 8)
Holladay2	0.001	6 (2, 8)
Holladay2-LT	0.025	8 (2, 8)
T2	0.025	3 (2, 7)

Figure 39AL 24.5–26.0mm: Within 0.5D - fixed effects model – rank probability histograms

Table 65AL 24.5−26.0mm: Within 0.5D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
15 (compared to 17 datapoints)	101.303	89.288	12.015	113.319

Table 66AL 24.5−26.0mm: Within 0.5D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 40AL 24.5–26.0mm: Within 1.0D - fixed effects model – evidence network

Table 67AL 24.5−26.0mm: Within 1.0D - fixed effects model – input data

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
Kane, J. et al. (2016)	351/372		364/372	349/372	350/372	348/372		353/372
Srivannaboon et al. (2013)				24/24	22/24	20/24	20/24
Aristodemou et al. (2011)	215/234				224/234
Aristodemou et al. (2011)	673/712				672/712
Percival et al. (2002)	26/26	26/26			26/26
Mitra et al. (2014)	17/43				19/43
El-Nafees et al. (2010)	44/53			44/53

Table 68AL 24.5−26.0mm: Within 1.0D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2-LT	T2
SRKT		1.00 (0.02, 52.29)	2.72 (1.19, 6.23)	0.93 (0.55, 1.57)	1.12 (0.82, 1.52)	0.87 (0.47, 1.59)	-	1.11 (0.59, 2.10)
AvgHofferQSRKT	1.58 (0.03, 769.90)		-	-	1.00 (0.02, 52.29)	-	-	-
BarrettUniversalII	3.03 (1.46, 7.12)	1.96 (0.00, 130.80)		0.33 (0.15, 0.76)	0.35 (0.15, 0.80)	0.32 (0.14, 0.72)	-	0.41 (0.18, 0.94)
Haigis	1.07 (0.67, 1.73)	0.67 (0.00, 42.56)	0.35 (0.15, 0.75)		0.95 (0.53, 1.71)	0.81 (0.46, 1.42)	0.09 (0.00, 1.83)	1.22 (0.66, 2.29)
HofferQ	1.11 (0.82, 1.51)	0.71 (0.00, 43.61)	0.37 (0.16, 0.76)	1.04 (0.64, 1.71)		0.85 (0.48, 1.49)	0.45 (0.07, 2.76)	1.17 (0.62, 2.20)
Holladay2	0.88 (0.53, 1.46)	0.55 (0.00, 34.21)	0.29 (0.12, 0.61)	0.82 (0.48, 1.42)	0.79 (0.48, 1.32)		1.00 (0.22, 4.56)	1.28 (0.69, 2.38)
Holladay2-LT	0.51 (0.14, 2.12)	0.32 (0.00, 24.96)	0.17 (0.04, 0.77)	0.48 (0.13, 1.94)	0.46 (0.13, 1.87)	0.59 (0.16, 2.35)		-
T2	1.21 (0.70, 2.18)	0.77 (0.00, 48.51)	0.40 (0.16, 0.90)	1.14 (0.63, 2.14)	1.09 (0.63, 1.99)	1.39 (0.76, 2.60)	2.37 (0.55, 9.43)

Figure 41AL 24.5–26.0mm: Within 1.0D - fixed effects model – relative effect of all options versus common comparator

Table 69AL 24.5−26.0mm: Within 1.0D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.000	5 (3, 8)
AvgHofferQSRKT	0.386	2 (1, 8)
BarrettUniversalII	0.598	1 (1, 2)
Haigis	0.001	5 (2, 7)
HofferQ	0.001	4 (2, 7)
Holladay2	0.000	6 (3, 8)
Holladay2-LT	0.007	8 (2, 8)
T2	0.007	3 (2, 7)

Figure 42AL 24.5–26.0mm: Within 1.0D - fixed effects model – rank probability histograms

Table 70AL 24.5−26.0mm: Within 1.0D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
20.9 (compared to 21 datapoints)	99.813	86.224	13.589	113.402

Table 71AL 24.5−26.0mm: Within 1.0D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 43AL 24.5–26.0mm: Within 2.0D - fixed effects model – evidence network

Table 72AL 24.5−26.0mm: Within 2.0D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
Kane, J. et al. (2016)	371/372	372/372	370/372	370/372	371/372	371/372

Table 73AL 24.5−26.0mm: Within 2.0D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
SRKT		3.01 (0.12, 74.08)	0.50 (0.05, 5.52)	0.50 (0.05, 5.52)	1.00 (0.06, 16.05)	1.00 (0.06, 16.05)
BarrettUniversalII	5.33 (0.18, 2510.00)		0.20 (0.01, 4.16)	0.20 (0.01, 4.16)	0.33 (0.01, 8.19)	0.33 (0.01, 8.19)
Haigis	0.56 (0.04, 4.75)	0.11 (0.00, 2.01)		1.00 (0.14, 7.14)	2.01 (0.18, 22.21)	2.01 (0.18, 22.21)
HofferQ	0.56 (0.04, 4.76)	0.11 (0.00, 1.99)	1.01 (0.14, 7.20)		2.01 (0.18, 22.21)	2.01 (0.18, 22.21)
Holladay2	1.04 (0.07, 15.34)	0.19 (0.00, 5.79)	1.83 (0.22, 24.22)	1.83 (0.22, 25.09)		1.00 (0.06, 16.05)
T2	1.03 (0.07, 15.35)	0.20 (0.00, 5.62)	1.83 (0.21, 24.40)	1.82 (0.21, 24.37)	1.00 (0.07, 14.99)

Figure 44AL 24.5–26.0mm: Within 2.0D - fixed effects model – relative effect of all options versus common comparator

Table 74AL 24.5−26.0mm: Within 2.0D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.097	3 (1, 6)
BarrettUniversalII	0.651	1 (1, 5)
Haigis	0.021	5 (2, 6)
HofferQ	0.021	5 (2, 6)
Holladay2	0.104	3 (1, 6)
T2	0.106	3 (1, 6)

Figure 45AL 24.5–26.0mm: Within 2.0D - fixed effects model – rank probability histograms

Table 75AL 24.5−26.0mm: Within 2.0D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
6.666 (compared to 6 datapoints)	20.791	15.387	5.404	26.195

Table 76AL 24.5−26.0mm: Within 2.0D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

H.3.2.5. Full dataset: Axial length subgroup – Greater than 26.00mm

Figure 46AL >26.0mm: Mean absolute error - fixed effects model – evidence network

Table 77AL >26.0mm: Mean absolute error - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	LadasSuperFormula	Olsen_standalone	T2
Cooke & (2016)	0.40 (0.45)	0.30 (0.38)	0.28 (0.37)	0.43 (0.45)		0.39 (0.41)	0.41 (0.43)	0.35 (0.40)	0.29 (0.35)	0.32 (0.40)
Bang et al. (2011)	0.62 (0.77)		0.52 (0.63)	1.02 (0.88)	0.81 (0.81)

Table 78AL >26.0mm: Mean absolute error - fixed effects model – relative effectiveness of all pairwise combinations (MD and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	LadasSuperFormula	Olsen_standalone	T2
SRKT		−0.10 (−0.25, 0.06)	−0.11 (−0.25, 0.02)	0.11 (−0.04, 0.26)	0.19 (−0.11, 0.49)	−0.01 (−0.17, 0.15)	0.01 (−0.16, 0.17)	−0.05 (−0.21, 0.11)	−0.11 (−0.26, 0.04)	−0.08 (−0.24, 0.08)
BarrettUniversalII	−0.07 (−0.22, 0.08)		−0.02 (−0.16, 0.12)	0.13 (−0.03, 0.28)	-	0.09 (−0.06, 0.24)	0.10 (−0.05, 0.26)	0.05 (−0.10, 0.19)	−0.01 (−0.15, 0.12)	0.02 (−0.13, 0.16)
Haigis	−0.11 (−0.25, 0.02)	−0.04 (−0.18, 0.09)		0.23 (0.09, 0.36)	0.29 (0.01, 0.57)	0.11 (−0.04, 0.26)	0.13 (−0.02, 0.28)	0.07 (−0.08, 0.21)	0.01 (−0.13, 0.15)	0.04 (−0.11, 0.18)
HofferQ	0.11 (−0.04, 0.26)	0.18 (0.03, 0.33)	0.22 (0.09, 0.36)		−0.21 (−0.53, 0.11)	−0.04 (−0.20, 0.12)	−0.02 (−0.19, 0.14)	−0.08 (−0.24, 0.08)	−0.14 (−0.29, 0.01)	−0.11 (−0.27, 0.05)
Holladay2	0.12 (−0.15, 0.38)	0.19 (−0.09, 0.46)	0.23 (−0.02, 0.48)	0.01 (−0.26, 0.27)		-	-	-	-	-
Holladay2_NoPreSurgRef	0.02 (−0.14, 0.17)	0.09 (−0.06, 0.24)	0.13 (−0.01, 0.27)	−0.09 (−0.25, 0.06)	−0.10 (−0.38, 0.18)		0.02 (−0.14, 0.17)	−0.04 (−0.19, 0.11)	−0.10 (−0.24, 0.04)	−0.07 (−0.22, 0.08)
Holladay2_PreSurgRef	0.03 (−0.13, 0.19)	0.10 (−0.05, 0.26)	0.15 (0.00, 0.29)	−0.08 (−0.24, 0.08)	−0.08 (−0.36, 0.20)	0.02 (−0.14, 0.17)		−0.06 (−0.22, 0.10)	−0.12 (−0.26, 0.03)	−0.09 (−0.24, 0.07)
LadasSuperFormula	−0.02 (−0.18, 0.13)	0.05 (−0.10, 0.19)	0.09 (−0.05, 0.23)	−0.14 (−0.29, 0.02)	−0.14 (−0.42, 0.14)	−0.04 (−0.19, 0.11)	−0.06 (−0.21, 0.10)		−0.06 (−0.20, 0.08)	−0.03 (−0.18, 0.12)
Olsen_standalone	−0.08 (−0.23, 0.06)	−0.01 (−0.15, 0.13)	0.03 (−0.10, 0.16)	−0.19 (−0.34, −0.05)	−0.20 (−0.47, 0.07)	−0.10 (−0.24, 0.04)	−0.12 (−0.26, 0.03)	−0.06 (−0.20, 0.09)		0.03 (−0.11, 0.17)
T2	−0.05 (−0.21, 0.10)	0.02 (−0.13, 0.16)	0.06 (−0.08, 0.20)	−0.17 (−0.32, −0.01)	−0.17 (−0.45, 0.11)	−0.07 (−0.22, 0.08)	−0.09 (−0.25, 0.07)	−0.03 (−0.18, 0.12)	0.03 (−0.11, 0.17)

Figure 47AL >26.0mm: Mean absolute error - fixed effects model – relative effect of all options versus common comparator

Table 79AL >26.0mm: Mean absolute error - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.012	6 (2, 9)
BarrettUniversalII	0.153	3 (1, 8)
Haigis	0.450	2 (1, 5)
HofferQ	0.000	9 (6, 10)
Holladay2	0.025	9 (1, 10)
Holladay2_NoPreSurgRef	0.008	7 (2, 10)
Holladay2_PreSurgRef	0.004	7 (3, 10)
LadasSuperFormula	0.038	5 (1, 9)
Olsen_standalone	0.204	3 (1, 7)
T2	0.105	4 (1, 8)

Figure 48AL >26.0mm: Mean absolute error - fixed effects model – rank probability histograms

Table 80AL >26.0mm: Mean absolute error - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
16.31 (compared to 13 datapoints)	−30.087	−41.112	11.025	−19.062

Table 81AL >26.0mm: Mean absolute error - fixed effects model – notes

Continuous (normal; identity link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 49AL >26.0mm: Within 0.25D - fixed effects model – evidence network

Table 82AL >26.0mm: Within 0.25D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
Kane, J. et al. (2016)	30/77	26/77	28/77	26/77	25/77	24/77
Aristodemou et al. (2011)	21/47			18/47
Aristodemou et al. (2011)	111/271			96/271
Aristodemou et al. (2011)	5/17			2/17

Table 83AL >26.0mm: Within 0.25D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
SRKT		0.80 (0.41, 1.54)	0.90 (0.47, 1.72)	0.77 (0.58, 1.02)	0.75 (0.39, 1.46)	0.71 (0.36, 1.38)
BarrettUniversalII	0.78 (0.43, 1.41)		1.12 (0.58, 2.17)	1.00 (0.51, 1.95)	0.94 (0.48, 1.85)	0.89 (0.45, 1.74)
Haigis	0.88 (0.48, 1.57)	1.12 (0.58, 2.21)		0.89 (0.46, 1.73)	0.84 (0.43, 1.64)	0.79 (0.41, 1.55)
HofferQ	0.77 (0.58, 1.02)	0.98 (0.55, 1.80)	0.88 (0.49, 1.61)		0.94 (0.48, 1.85)	0.89 (0.45, 1.74)
Holladay2	0.74 (0.40, 1.32)	0.94 (0.48, 1.84)	0.84 (0.43, 1.63)	0.96 (0.52, 1.71)		0.94 (0.48, 1.86)
T2	0.69 (0.38, 1.25)	0.88 (0.45, 1.74)	0.79 (0.40, 1.55)	0.90 (0.49, 1.63)	0.94 (0.48, 1.85)

Figure 50AL >26.0mm: Within 0.25D - fixed effects model – relative effect of all options versus common comparator

Table 84AL >26.0mm: Within 0.25D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.490	2 (1, 4)
BarrettUniversalII	0.119	4 (1, 6)
Haigis	0.247	3 (1, 6)
HofferQ	0.011	4 (2, 6)
Holladay2	0.079	4 (1, 6)
T2	0.053	5 (1, 6)

Figure 51AL >26.0mm: Within 0.25D - fixed effects model – rank probability histograms

Table 85AL >26.0mm: Within 0.25D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
10.05 (compared to 12 datapoints)	64.405	55.388	9.017	73.422

Table 86AL >26.0mm: Within 0.25D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 52AL >26.0mm: Within 0.5D - fixed effects model – evidence network

Table 87AL >26.0mm: Within 0.5D - fixed effects model – input data

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	LadasSuperFormula	Olsen_standalone	T2
Cooke & (2016)	41/54		41/54	44/54	34/54		37/54	37/54	41/54	45/54	44/54
Kane, J. et al. (2016)	48/77		48/77	44/77	41/77	44/77					49/77
Bang et al. (2011)	27/53			30/53	18/53	22/53
Aristodemou et al. (2011)	37/47				33/47
Aristodemou et al. (2011)	197/271				167/271
Aristodemou et al. (2011)	10/17				3/17
Percival et al. (2002)	16/20	15/20			12/20

Table 88AL >26.0mm: Within 0.5D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	LadasSuperFormula	Olsen_standalone	T2
SRKT		0.75 (0.17, 3.33)	1.00 (0.59, 1.69)	1.05 (0.68, 1.62)	0.57 (0.44, 0.73)	0.75 (0.46, 1.23)	0.69 (0.30, 1.61)	0.69 (0.30, 1.61)	1.00 (0.41, 2.42)	1.59 (0.61, 4.10)	1.16 (0.68, 1.98)
AvgHofferQSRKT	0.98 (0.29, 3.72)		-	-	0.50 (0.13, 1.93)	-	-	-	-	-	-
BarrettUniversalII	0.97 (0.61, 1.54)	0.98 (0.25, 3.65)		0.96 (0.57, 1.63)	0.63 (0.38, 1.04)	0.81 (0.42, 1.54)	0.69 (0.30, 1.61)	0.69 (0.30, 1.61)	1.00 (0.41, 2.42)	1.59 (0.61, 4.10)	1.16 (0.68, 1.98)
Haigis	1.03 (0.69, 1.53)	1.05 (0.26, 3.74)	1.07 (0.64, 1.74)		0.56 (0.36, 0.86)	0.78 (0.48, 1.27)	0.49 (0.20, 1.21)	0.49 (0.20, 1.21)	0.72 (0.28, 1.81)	1.14 (0.42, 3.06)	1.21 (0.70, 2.07)
HofferQ	0.56 (0.43, 0.72)	0.57 (0.15, 1.95)	0.58 (0.37, 0.91)	0.54 (0.37, 0.80)		1.25 (0.76, 2.05)	1.28 (0.58, 2.84)	1.28 (0.58, 2.84)	1.86 (0.81, 4.27)	2.94 (1.19, 7.26)	1.85 (1.10, 3.10)
Holladay2	0.75 (0.49, 1.17)	0.76 (0.19, 2.79)	0.77 (0.45, 1.32)	0.73 (0.45, 1.17)	1.34 (0.87, 2.08)		-	-	-	-	1.31 (0.69, 2.51)
Holladay2_NoPreSurgRef	0.63 (0.33, 1.27)	0.65 (0.15, 2.62)	0.65 (0.32, 1.37)	0.61 (0.30, 1.27)	1.13 (0.58, 2.26)	0.84 (0.40, 1.82)		1.00 (0.44, 2.25)	1.45 (0.62, 3.38)	2.30 (0.92, 5.75)	2.02 (0.83, 4.95)
Holladay2_PreSurgRef	0.63 (0.33, 1.28)	0.64 (0.15, 2.63)	0.65 (0.32, 1.38)	0.61 (0.31, 1.27)	1.13 (0.58, 2.26)	0.84 (0.40, 1.82)	1.00 (0.44, 2.29)		1.45 (0.62, 3.38)	2.30 (0.92, 5.75)	2.02 (0.83, 4.95)
LadasSuperFormula	0.93 (0.46, 1.97)	0.95 (0.21, 3.93)	0.96 (0.45, 2.12)	0.90 (0.44, 1.95)	1.65 (0.82, 3.48)	1.23 (0.57, 2.80)	1.46 (0.62, 3.52)	1.46 (0.63, 3.50)		1.59 (0.61, 4.10)	1.40 (0.55, 3.53)
Olsen_standalone	1.50 (0.69, 3.52)	1.53 (0.32, 6.72)	1.54 (0.68, 3.79)	1.45 (0.65, 3.49)	2.66 (1.23, 6.27)	1.99 (0.86, 4.99)	2.37 (0.94, 6.21)	2.36 (0.95, 6.21)	1.62 (0.62, 4.35)		0.88 (0.33, 2.37)
T2	1.13 (0.71, 1.81)	1.14 (0.28, 4.25)	1.16 (0.68, 1.99)	1.09 (0.66, 1.81)	2.01 (1.26, 3.22)	1.50 (0.87, 2.58)	1.78 (0.85, 3.66)	1.78 (0.84, 3.65)	1.22 (0.55, 2.58)	0.75 (0.31, 1.72)

Figure 53AL >26.0mm: Within 0.5D - fixed effects model – relative effect of all options versus common comparator

Table 89AL >26.0mm: Within 0.5D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.017	5 (2, 8)
AvgHofferQSRKT	0.231	5 (1, 11)
BarrettUniversalII	0.029	5 (1, 9)
Haigis	0.035	4 (1, 8)
HofferQ	0.000	10 (8, 11)
Holladay2	0.002	8 (3, 11)
Holladay2_NoPreSurgRef	0.005	9 (3, 11)
Holladay2_PreSurgRef	0.004	9 (3, 11)
LadasSuperFormula	0.069	6 (1, 11)
Olsen_standalone	0.508	1 (1, 8)
T2	0.100	3 (1, 8)

Figure 54AL >26.0mm: Within 0.5D - fixed effects model – rank probability histograms

Table 90AL >26.0mm: Within 0.5D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
24.45 (compared to 28 datapoints)	143.413	126.316	17.097	160.51

Table 91AL >26.0mm: Within 0.5D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 55AL >26.0mm: Within 1.0D - random effects model – evidence network

Table 92AL >26.0mm: Within 1.0D - random effects model – input data

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	LadasSuperFormula	Olsen_standalone	T2
Cooke & (2016)	53/54		53/54	53/54	52/54		53/54	53/54	52/54	53/54	53/54
Kane, J. et al. (2016)	71/77		71/77	68/77	64/77	68/77					67/77
Bang et al. (2011)	35/53			39/53	32/53	33/53
Aristodemou et al. (2011)	44/47				43/47
Aristodemou et al. (2011)	253/271				239/271
Aristodemou et al. (2011)	14/17				12/17
Petermeier et al. (2009)	50/50			32/50	50/50
Percival et al. (2002)	19/20	17/20			17/20
Mitra et al. (2014)	17/43				19/43
El-Nafees et al. (2010)	44/53			44/53

Table 93AL >26.0mm: Within 1.0D - random effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	AvgHofferQSRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	Holladay2_NoPreSurgRef	Holladay2_PreSurgRef	LadasSuperFormula	Olsen_standalone	T2
SRKT		0.30 (0.03, 3.15)	1.00 (0.34, 2.96)	0.71 (0.28, 1.78)	0.65 (0.45, 0.92)	0.77 (0.40, 1.46)	1.00 (0.06, 16.41)	1.00 (0.06, 16.41)	0.49 (0.04, 5.58)	1.00 (0.06, 16.41)	0.61 (0.22, 1.65)
AvgHofferQSRKT	0.46 (0.04, 5.92)		-	-	1.00	-	-	-	-	-	-
BarrettUniversalII	1.05 (0.19, 6.08)	2.28 (0.12, 47.00)		0.68 (0.25, 1.86)	0.43 (0.17, 1.10)	0.64 (0.22, 1.89)	1.00 (0.06, 16.41)	1.00 (0.06, 16.41)	0.49 (0.04, 5.58)	1.00 (0.06, 16.41)	0.61 (0.22, 1.65)
Haigis	0.48 (0.16, 1.36)	1.04 (0.07, 15.16)	0.46 (0.07, 2.53)		1.07 (0.30, 3.81)	0.74 (0.39, 1.38)	1.00 (0.06, 16.41)	1.00 (0.06, 16.41)	0.49 (0.04, 5.58)	1.00 (0.06, 16.41)	0.90 (0.36, 2.23)
HofferQ	0.65 (0.27, 1.49)	1.40 (0.11, 17.29)	0.62 (0.11, 3.36)	1.35 (0.46, 4.25)		1.25 (0.69, 2.27)	2.04 (0.18, 23.17)	2.04 (0.18, 23.17)	1.00 (0.14, 7.37)	2.04 (0.18, 23.17)	1.43 (0.62, 3.30)
Holladay2	0.63 (0.15, 2.59)	1.35 (0.08, 23.34)	0.59 (0.08, 4.24)	1.31 (0.30, 6.02)	0.97 (0.23, 4.04)		-	-	-	-	0.89 (0.34, 2.32)
Holladay2_NoPreSurgRef	1.07 (0.07, 41.13)	2.48 (0.06, 174.90)	1.03 (0.05, 46.32)	2.24 (0.14, 88.12)	1.64 (0.11, 63.46)	1.75 (0.09, 77.21)		1.00 (0.06, 16.41)	0.49 (0.04, 5.58)	1.00 (0.06, 16.41)	1.00 (0.06, 16.41)
Holladay2_PreSurgRef	1.08 (0.07, 46.67)	2.46 (0.06, 215.20)	1.03 (0.05, 49.49)	2.22 (0.14, 104.20)	1.66 (0.11, 72.32)	1.73 (0.09, 89.57)	1.01 (0.01, 77.45)		0.49 (0.04, 5.58)	1.00 (0.06, 16.41)	1.00 (0.06, 16.41)
LadasSuperFormula	0.42 (0.03, 5.61)	0.91 (0.03, 32.60)	0.40 (0.03, 6.94)	0.87 (0.07, 12.61)	0.64 (0.06, 9.08)	0.68 (0.04, 11.28)	0.38 (0.01, 10.65)	0.38 (0.01, 11.08)		2.04 (0.18, 23.17)	2.04 (0.18, 23.17)
Olsen_standalone	1.10 (0.07, 45.60)	2.43 (0.06, 207.10)	1.05 (0.05, 49.59)	2.28 (0.14, 97.44)	1.71 (0.10, 69.48)	1.79 (0.09, 83.45)	1.01 (0.02, 70.36)	0.98 (0.01, 70.90)	2.64 (0.09, 158.90)		1.00 (0.06, 16.41)
T2	0.68 (0.13, 3.61)	1.48 (0.08, 30.72)	0.64 (0.09, 4.94)	1.41 (0.28, 8.25)	1.05 (0.21, 5.74)	1.10 (0.17, 7.52)	0.63 (0.01, 12.17)	0.63 (0.01, 12.54)	1.62 (0.10, 23.86)	0.62 (0.01, 12.23)

Figure 56AL >26.0mm: Within 1.0D - random effects model – relative effect of all options versus common comparator

Table 94AL >26.0mm: Within 1.0D - random effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.045	4 (1, 8)
AvgHofferQSRKT	0.066	8 (1, 11)
BarrettUniversalII	0.102	4 (1, 10)
Haigis	0.002	8 (3, 11)
HofferQ	0.004	7 (3, 10)
Holladay2	0.022	7 (2, 11)
Holladay2_NoPreSurgRef	0.227	4 (1, 11)
Holladay2_PreSurgRef	0.229	4 (1, 11)
LadasSuperFormula	0.042	9 (1, 11)
Olsen_standalone	0.226	4 (1, 11)
T2	0.035	6 (1, 11)

Figure 57AL >26.0mm: Within 1.0D - random effects model – rank probability histograms

Table 95AL >26.0mm: Within 1.0D - random effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
35.1 (compared to 35 datapoints)	147.479	118.139	29.34	176.819	0.974 (95%CI: 0.506, 1.724)

Table 96AL >26.0mm: Within 1.0D - random effects model – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations

Figure 58AL >26.0mm: Within 2.0D - fixed effects model – evidence network

Table 97AL >26.0mm: Within 2.0D - fixed effects model – input data

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
Kane, J. et al. (2016)	75/77	77/77	76/77	76/77	75/77	77/77
Bang et al. (2011)	51/53		52/53	42/53	50/53

Table 98AL >26.0mm: Within 2.0D - fixed effects model – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT	BarrettUniversalII	Haigis	HofferQ	Holladay2	T2
SRKT		5.13 (0.24, 108.68)	2.03 (0.37, 11.30)	0.31 (0.10, 0.97)	0.79 (0.21, 3.03)	5.13 (0.24, 108.68)
BarrettUniversalII	5.53 (0.33, 2725.00)		0.33 (0.01, 8.20)	0.33 (0.01, 8.20)	0.19 (0.01, 4.13)	1.00 (0.02, 51.04)
Haigis	1.93 (0.39, 12.36)	0.36 (0.00, 7.38)		0.15 (0.03, 0.68)	0.39 (0.07, 2.05)	3.04 (0.12, 75.77)
HofferQ	0.31 (0.09, 0.90)	0.06 (0.00, 0.76)	0.16 (0.03, 0.58)		2.61 (0.89, 7.67)	3.04 (0.12, 75.77)
Holladay2	0.79 (0.20, 3.02)	0.14 (0.00, 2.21)	0.41 (0.07, 1.85)	2.55 (0.92, 8.15)		5.13 (0.24, 108.68)
T2	5.32 (0.34, 2364.00)	0.98 (0.00, 635.90)	2.75 (0.13, 1348.00)	17.49 (1.34, 7933.00)	6.84 (0.44, 3162.00)

Figure 59AL >26.0mm: Within 2.0D - fixed effects model – relative effect of all options versus common comparator

Table 99AL >26.0mm: Within 2.0D - fixed effects model – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT	0.014	4 (2, 5)
BarrettUniversalII	0.445	2 (1, 5)
Haigis	0.096	3 (1, 5)
HofferQ	0.000	6 (5, 6)
Holladay2	0.005	5 (2, 6)
T2	0.440	2 (1, 5)

Figure 60AL >26.0mm: Within 2.0D - fixed effects model – rank probability histograms

Table 100AL >26.0mm: Within 2.0D - fixed effects model – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
13.49 (compared to 10 datapoints)	38.132	31.797	6.335	44.466

Table 101AL >26.0mm: Within 2.0D - fixed effects model – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations

H.3.3. Intraocular lens formulas: Network meta-analyses results: Eyes with a history of myopic LASIK/LASEK/PRK

H.3.3.1. Model fit statistics for all outcomes

Table 102Model fit statistics used to select fixed or random effect models for all comparisons and outcomes

Studies	Outcome	Model	Total model DIC	Total model DIC (FE – RE)	Total residual deviance	No. of data-points	Between-study SD (95% CrI)	Preferred model
Full dataset: historical and no historical data methods
2 (Fam, Savini)	Mean absolute error	FE	9.833		38.54	27	-	RE
2 (Fam, Savini)	Mean absolute error	RE	0.2		27.1	27	0.81 (0.24, 1.89)	RE
5 (Fam, Huang, Kim, Savini, Xu)	Prediction error	FE	62.1	46.7	79.7	31	-	RE
5 (Fam, Huang, Kim, Savini, Xu)	Prediction error	RE	15.3	46.7	31	31	1.42 (0.72, 1.97)	RE
5 (Fam, Huang, Kim, Saiki, Xu)	Within 0.5D	FE	144.0	0.7	29.8	26	-	RE
5 (Fam, Huang, Kim, Saiki, Xu)	Within 0.5D	RE	143.3	0.7	27.4	26	0.96 (0.07, 1.93)	RE
5 (Fam, Huang, Kim, Saiki, Xu)	Within 1.0D	FE	151.7	5.8	34.7	26	-	RE
5 (Fam, Huang, Kim, Saiki, Xu)	Within 1.0D	RE	145.9	5.8	27.0	26	1.21 (0.29, 1.95)	RE
1 *(Kim – pairwise comparison)*	Within 1.5D	FE	-	-	-	-	-	FE
1 (Fam)	Within 2.0D	FE	29.4	-	6.4	6	-	FE
1 *(Kim – pairwise comparison)*	Within 2.0D	FE	-	-	-	-	-	FE
No historical data methods only
4 (Huang, Kim, Saiki, Xu)	Within 0.5D	FE	78.7	1.1	17.5	14	-	RE
4 (Huang, Kim, Saiki, Xu)	Within 0.5D	RE	77.6	1.1	14.9	14	0.94 (0.07, 1.93)	RE
4 (Huang, Kim, Saiki, Xu)	Within 1.0D	FE	86.0	6.1	22.4	14	-	RE
4 (Huang, Kim, Saiki, Xu)	Within 1.0D	RE	79.9	6.1	14.5	14	1.20 (0.30, 1.95)	RE
Historical data methods only
2 (Fam, Savini)	Mean absolute error	FE	9.8	9.7	32.5	21	-	RE
2 (Fam, Savini)	Mean absolute error	RE	0.13	9.7	21.0	21	0.82 (0.24, 1.89)	RE
2 (Fam, Saiki) – NB: network connector (SRKT DK) uses historical data in Fam but no historical data in Saiki	Within 0.5D	FE	60.0	-	11.4	11	-	FE
2 (Fam, Saiki) – NB: network connector (SRKT DK) uses historical data in Fam but no historical data in Saiki	Within 1.0D	FE	60.5	-	11.3	11	-	FE
1 (Fam)	Within 2.0D	FE	29.4	-	6.4	6	-	FE

H.3.3.2. Full dataset: historical and no historical methods

$Figure 61. Myopic corneal refractive surgery: Mean absolute error – evidence network.$

Figure 61Myopic corneal refractive surgery: Mean absolute error – evidence network

Table 103Myopic corneal refractive surgery: Mean absolute error – input data

	Clinical history	Camellin-Calossi	HofferQ DK	Holladay2 DK	Shammas-PL	SRKT Clinical history	SRKT Diehl	SRKT DK	SRKT DK Awwad	SRKT DK Savini	SRKT DK Seitz/Speicher	SRKT DK Seitz/Speicher/Savini	SRKT DK Shammas	SRKT Feiz-Mannis	SRKT Feiz-Mannis nomogram	SRKT Ladas-Stark	SRKT Latkany	SRKT Masket	SRKT SK Ferrara	SRKT SK Rosa
Savini et al. (2010)	1.62 (1.25)	1.41 (0.76)			0.93 (0.48)		1.33 (1.03)	1.00 (0.57)	1.79 (1.13)	0.62 (0.52)	0.56 (0.45)	0.53 (0.46)	1.60 (0.98)	1.87 (1.44)	2.04 (1.48)	2.18 (1.52)	1.08 (0.86)	0.76 (0.49)	3.64 (1.45)	1.94 (1.01)
Fam & (2008)			0.75 (0.52)	0.75 (0.62)		1.32 (0.73)		0.76 (0.60)						0.93 (0.83)		0.80 (0.63)

Table 104Myopic corneal refractive surgery: Mean absolute error – relative effectiveness of all pairwise combinations (MD and 95% credible interval)

	Clinical history	Camellin-Calossi	HofferQ DK	Holladay2 DK	Shammas-PL	SRKT Clinical history	SRKT Diehl	SRKT DK	SRKT DK Awwad	SRKT DK Savini	SRKT DK Seitz/Speicher	SRKT DK Seitz/Speicher/Savini	SRKT DK Shammas	SRKT Feiz-Mannis	SRKT Feiz-Mannis nomogram	SRKT Ladas-Stark	SRKT Latkany	SRKT Masket	SRKT SK Ferrara	SRKT SK Rosa
Clinical history		−0.21 (−0.75, 0.33)	-	-	−0.69 (−1.19, −0.19)	-	−0.29 (−0.89, 0.31)	−0.62 (−1.13, −0.11)	0.17 (−0.45, 0.79)	−1.00 (−1.50, −0.50)	−1.06 (−1.55, −0.57)	−1.09 (−1.58, −0.60)	−0.02 (−0.61, 0.57)	0.25 (−0.46, 0.96)	0.42 (−0.30, 1.14)	0.56 (−0.17, 1.29)	−0.54 (−1.10, 0.02)	−0.86 (−1.36, −0.36)	2.02 (1.31, 2.73)	0.32 (−0.28, 0.92)
Camellin-Calossi	−0.20 (−5.27, 4.82)		-	-	−0.48 (−0.81, −0.15)	-	−0.08 (−0.55, 0.39)	−0.41 (−0.76, −0.06)	0.38 (−0.12, 0.88)	−0.79 (−1.13, −0.45)	−0.85 (−1.18, −0.52)	−0.88 (−1.21, −0.55)	0.19 (−0.27, 0.65)	0.46 (−0.14, 1.06)	0.63 (0.01, 1.25)	0.77 (0.14, 1.40)	−0.33 (−0.76, 0.10)	−0.65 (−0.98, −0.32)	2.23 (1.62, 2.84)	0.53 (0.06, 1.00)
HofferQ DK	−0.06 (−5.75, 6.04)	0.14 (−5.72, 6.24)		0.00 (−0.26, 0.26)	-	0.57 (0.28, 0.86)	-	0.01 (−0.25, 0.27)	-	-	-	-	-	0.18 (−0.14, 0.50)	-	0.05 (−0.21, 0.31)	-	-	-	-
Holladay2 DK	−0.07 (−5.66, 5.96)	0.13 (−5.52, 6.08)	0.00 (−5.08, 5.04)		-	0.57 (0.26, 0.88)	-	0.01 (−0.27, 0.29)	-	-	-	-	-	0.18 (−0.15, 0.51)	-	0.05 (−0.23, 0.33)	-	-	-	-
Shammas-PL	−0.69 (−5.55, 4.63)	−0.48 (−5.36, 4.81)	−0.62 (−6.50, 5.44)	−0.62 (−6.57, 5.45)		-	0.40 (−0.02, 0.82)	0.07 (−0.21, 0.35)	0.86 (0.41, 1.31)	−0.31 (−0.57, −0.05)	−0.37 (−0.61, −0.13)	−0.40 (−0.65, −0.15)	0.67 (0.27, 1.07)	0.94 (0.38, 1.50)	1.11 (0.53, 1.69)	1.25 (0.66, 1.84)	0.15 (−0.21, 0.51)	−0.17 (−0.42, 0.08)	2.71 (2.14, 3.28)	1.01 (0.60, 1.42)
SRKT Clinical history	0.49 (−5.24, 6.52)	0.69 (−5.09, 6.67)	0.56 (−4.64, 5.56)	0.57 (−4.59, 5.72)	1.18 (−4.75, 7.02)		-	−0.56 (−0.86, −0.26)	-	-	-	-	-	−0.39 (−0.75, −0.03)	-	−0.52 (−0.83, −0.21)	-	-	-	-
SRKT Diehl	−0.28 (−5.11, 4.98)	−0.08 (−5.10, 5.04)	−0.22 (−6.08, 5.43)	−0.21 (−6.11, 5.52)	0.41 (−4.81, 5.39)	−0.79 (−6.63, 4.93)		−0.33 (−0.77, 0.11)	0.46 (−0.11, 1.03)	−0.71 (−1.14, −0.28)	−0.77 (−1.19, −0.35)	−0.80 (−1.22, −0.38)	0.27 (−0.26, 0.80)	0.54 (−0.12, 1.20)	0.71 (0.04, 1.38)	0.85 (0.17, 1.53)	−0.25 (−0.75, 0.25)	−0.57 (−0.99, −0.15)	2.31 (1.65, 2.97)	0.61 (0.08, 1.14)
SRKT DK	−0.34 (−4.78, 4.35)	−0.13 (−4.75, 4.46)	−0.27 (−4.96, 4.26)	−0.26 (−4.94, 4.28)	0.35 (−4.45, 4.87)	−0.84 (−5.45, 3.67)	−0.06 (−4.72, 4.51)		0.79 (0.32, 1.26)	−0.38 (−0.67, −0.09)	−0.44 (−0.71, −0.17)	−0.47 (−0.74, −0.20)	0.60 (0.18, 1.02)	0.48 (−0.20, 1.16)	1.04 (0.45, 1.63)	0.58 (−0.54, 1.69)	0.08 (−0.30, 0.46)	−0.24 (−0.52, 0.04)	2.64 (2.06, 3.22)	0.94 (0.51, 1.37)
SRKT DK Awwad	0.16 (−4.64, 5.51)	0.37 (−4.53, 5.70)	0.23 (−5.66, 6.36)	0.23 (−5.65, 6.23)	0.85 (−4.26, 6.06)	−0.34 (−6.03, 5.68)	0.45 (−4.63, 5.68)	0.50 (−4.03, 5.37)		−1.17 (−1.63, −0.71)	−1.23 (−1.68, −0.78)	−1.26 (−1.71, −0.81)	−0.19 (−0.74, 0.36)	0.08 (−0.60, 0.76)	0.25 (−0.44, 0.94)	0.39 (−0.31, 1.09)	−0.71 (−1.24, −0.18)	−1.03 (−1.49, −0.57)	1.85 (1.17, 2.53)	0.15 (−0.41, 0.71)
SRKT DK Savini	−1.01 (−5.76, 4.24)	−0.79 (−5.77, 4.31)	−0.93 (−6.95, 4.98)	−0.93 (−6.75, 4.98)	−0.31 (−5.57, 4.78)	−1.51 (−7.46, 4.35)	−0.72 (−5.93, 4.37)	−0.66 (−5.29, 4.06)	−1.17 (−6.33, 3.91)		−0.06 (−0.31, 0.19)	−0.09 (−0.35, 0.17)	0.98 (0.57, 1.39)	1.25 (0.68, 1.82)	1.42 (0.84, 2.00)	1.56 (0.96, 2.16)	0.46 (0.09, 0.83)	0.14 (−0.12, 0.40)	3.02 (2.45, 3.59)	1.32 (0.90, 1.74)
SRKT DK Seitz/Speicher	−1.07 (−6.07, 4.11)	−0.86 (−5.94, 4.32)	−0.99 (−6.94, 4.78)	−0.99 (−6.95, 4.83)	−0.37 (−5.54, 4.71)	−1.56 (−7.36, 4.29)	−0.78 (−5.86, 4.31)	−0.72 (−5.41, 3.94)	−1.22 (−6.50, 3.77)	−0.06 (−5.23, 5.07)		−0.03 (−0.27, 0.21)	1.04 (0.64, 1.44)	1.31 (0.75, 1.87)	1.48 (0.91, 2.05)	1.62 (1.03, 2.21)	0.52 (0.16, 0.88)	0.20 (−0.05, 0.45)	3.08 (2.52, 3.64)	1.38 (0.97, 1.79)
SRKT DK Seitz/Speicher/Savini	−1.09 (−5.98, 4.07)	−0.88 (−5.81, 4.25)	−1.01 (−6.86, 4.76)	−1.02 (−6.86, 4.77)	−0.40 (−5.64, 4.62)	−1.58 (−7.32, 4.29)	−0.81 (−5.89, 4.32)	−0.74 (−5.33, 3.95)	−1.25 (−6.41, 3.64)	−0.08 (−5.09, 5.02)	−0.02 (−4.99, 5.09)		1.07 (0.67, 1.47)	1.34 (0.78, 1.90)	1.51 (0.94, 2.08)	1.65 (1.06, 2.24)	0.55 (0.19, 0.91)	0.23 (−0.02, 0.48)	3.11 (2.55, 3.67)	1.41 (1.00, 1.82)
SRKT DK Shammas	−0.02 (−4.87, 5.06)	0.18 (−4.81, 5.29)	0.05 (−5.84, 5.89)	0.05 (−5.80, 5.73)	0.66 (−4.41, 5.53)	−0.52 (−6.31, 5.21)	0.26 (−4.80, 5.28)	0.32 (−4.19, 4.86)	−0.18 (−5.41, 4.62)	0.97 (−4.14, 5.94)	1.05 (−4.10, 6.06)	1.07 (−4.03, 6.04)		0.27 (−0.38, 0.92)	0.44 (−0.22, 1.10)	0.58 (−0.09, 1.25)	−0.52 (−1.00, −0.04)	−0.84 (−1.25, −0.43)	2.04 (1.39, 2.69)	0.34 (−0.18, 0.86)
SRKT Feiz-Mannis	0.15 (−4.37, 5.01)	0.37 (−4.18, 5.07)	0.23 (−4.41, 4.92)	0.25 (−4.42, 4.84)	0.86 (−3.89, 5.49)	−0.33 (−4.88, 4.30)	0.46 (−4.12, 5.00)	0.50 (−3.03, 4.17)	0.00 (−4.84, 4.52)	1.16 (−3.53, 5.86)	1.23 (−3.40, 5.81)	1.26 (−3.32, 5.86)	0.19 (−4.39, 4.81)		0.17 (−0.59, 0.93)	−0.05 (−0.38, 0.27)	−0.79 (−1.41, −0.17)	−1.11 (−1.67, −0.55)	1.77 (1.01, 2.53)	0.07 (−0.58, 0.72)
SRKT Feiz-Mannis nomogram	0.42 (−4.33, 5.70)	0.63 (−4.36, 5.80)	0.49 (−5.33, 6.26)	0.49 (−5.33, 6.27)	1.11 (−4.03, 6.21)	−0.09 (−5.86, 5.73)	0.71 (−4.41, 5.78)	0.76 (−3.74, 5.37)	0.26 (−4.95, 5.27)	1.42 (−3.73, 6.61)	1.49 (−3.51, 6.52)	1.51 (−3.51, 6.53)	0.44 (−4.67, 5.70)	0.25 (−4.34, 4.97)		0.14 (−0.65, 0.93)	−0.96 (−1.59, −0.33)	−1.28 (−1.86, −0.70)	1.60 (0.83, 2.37)	−0.10 (−0.76, 0.56)
SRKT Ladas-Stark	0.22 (−4.17, 5.10)	0.42 (−4.00, 5.17)	0.28 (−4.35, 4.96)	0.28 (−4.22, 4.92)	0.91 (−3.77, 5.64)	−0.29 (−4.81, 4.42)	0.50 (−4.14, 5.12)	0.56 (−3.01, 4.22)	0.05 (−4.68, 4.62)	1.22 (−3.35, 6.03)	1.28 (−3.20, 5.94)	1.30 (−3.29, 5.90)	0.23 (−4.35, 4.91)	0.05 (−3.43, 3.61)	−0.20 (−4.80, 4.46)		−1.10 (−1.75, −0.45)	−1.42 (−2.01, −0.83)	1.46 (0.68, 2.24)	−0.24 (−0.92, 0.44)
SRKT Latkany	−0.54 (−5.45, 4.70)	−0.33 (−5.39, 4.96)	−0.48 (−6.28, 5.38)	−0.47 (−6.36, 5.33)	0.15 (−5.04, 5.26)	−1.05 (−6.79, 4.90)	−0.26 (−5.31, 4.84)	−0.20 (−4.78, 4.50)	−0.71 (−5.95, 4.30)	0.46 (−4.64, 5.58)	0.52 (−4.45, 5.72)	0.55 (−4.36, 5.59)	−0.52 (−5.56, 4.62)	−0.70 (−5.33, 3.98)	−0.96 (−6.06, 4.03)	−0.76 (−5.48, 3.98)		−0.32 (−0.69, 0.05)	2.56 (1.94, 3.18)	0.86 (0.37, 1.35)
SRKT Masket	−0.85 (−5.63, 4.47)	−0.64 (−5.63, 4.64)	−0.79 (−6.55, 5.18)	−0.78 (−6.73, 5.25)	−0.17 (−5.32, 5.06)	−1.35 (−7.20, 4.68)	−0.57 (−5.48, 4.63)	−0.51 (−4.99, 4.31)	−1.01 (−6.22, 4.22)	0.15 (−4.70, 5.27)	0.21 (−4.79, 5.33)	0.25 (−4.75, 5.35)	−0.83 (−5.79, 4.36)	−1.02 (−5.63, 3.79)	−1.27 (−6.28, 3.94)	−1.06 (−5.65, 3.67)	−0.32 (−5.36, 4.90)		2.88 (2.31, 3.45)	1.18 (0.76, 1.60)
SRKT SK Ferrara	2.01 (−2.79, 7.30)	2.21 (−2.73, 7.42)	2.08 (−3.74, 7.90)	2.09 (−3.64, 7.93)	2.71 (−2.43, 7.68)	1.51 (−4.14, 7.46)	2.30 (−2.82, 7.50)	2.35 (−2.19, 7.18)	1.86 (−3.29, 6.81)	3.01 (−1.95, 8.27)	3.07 (−1.90, 8.20)	3.10 (−1.84, 8.09)	2.03 (−2.83, 7.19)	1.85 (−2.62, 6.53)	1.59 (−3.48, 6.71)	1.80 (−2.85, 6.53)	2.55 (−2.38, 7.80)	2.86 (−2.16, 7.84)		−1.70 (−2.35, −1.05)
SRKT SK Rosa	0.32 (−4.47, 5.49)	0.53 (−4.42, 5.75)	0.40 (−5.53, 6.31)	0.40 (−5.49, 6.19)	1.01 (−4.04, 6.02)	−0.17 (−5.93, 5.83)	0.61 (−4.44, 5.66)	0.67 (−3.90, 5.44)	0.16 (−5.09, 5.32)	1.32 (−3.66, 6.33)	1.39 (−3.69, 6.51)	1.41 (−3.58, 6.56)	0.34 (−4.64, 5.47)	0.16 (−4.43, 4.86)	−0.09 (−5.13, 5.03)	0.11 (−4.50, 4.68)	0.86 (−4.16, 5.96)	1.18 (−4.00, 6.21)	−1.69 (−6.78, 3.31)

$Figure 62. Myopic corneal refractive surgery: Mean absolute error – relative effect of all options versus common comparator.$

Figure 62Myopic corneal refractive surgery: Mean absolute error – relative effect of all options versus common comparator

Table 105Myopic corneal refractive surgery: Mean absolute error – rankings for each comparator

	Probability best	Median rank (95%CI)
Clinical history	0.019	12 (2, 19)
Camellin-Calossi	0.024	10 (2, 19)
HofferQ DK	0.035	11 (1, 20)
Holladay2 DK	0.035	11 (1, 20)
Shammas-PL	0.067	6 (1, 18)
SRKT Clinical history	0.017	16 (2, 20)
SRKT Diehl	0.030	9 (1, 19)
SRKT DK	0.011	9 (2, 17)
SRKT DK Awwad	0.014	13 (2, 20)
SRKT DK Savini	0.157	4 (1, 18)
SRKT DK Seitz/Speicher	0.186	4 (1, 17)
SRKT DK Seitz/Speicher/Savini	0.200	4 (1, 17)
SRKT DK Shammas	0.018	12 (2, 19)
SRKT Feiz-Mannis	0.004	13 (4, 19)
SRKT Feiz-Mannis nomogram	0.010	15 (3, 20)
SRKT Ladas-Stark	0.004	14 (4, 19)
SRKT Latkany	0.051	7 (1, 19)
SRKT Masket	0.106	5 (1, 18)
SRKT SK Ferrara	0.002	20 (7, 20)
SRKT SK Rosa	0.012	15 (2, 20)

$Figure 63. Myopic corneal refractive surgery: Mean absolute error – rank probability histograms.$

Figure 63Myopic corneal refractive surgery: Mean absolute error – rank probability histograms

Table 106Myopic corneal refractive surgery: Mean absolute error – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
23.18 (compared to 23 datapoints)	−23.582	−46.65	23.068	−0.513	1.053 (95%CI: 0.250, 7.282)

Table 107Myopic corneal refractive surgery: Mean absolute error – notes

Continuous (normal; identity link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=10)
50000 burn-ins; 10000 recorded iterations

$Figure 64. Myopic corneal refractive surgery: prediction error – evidence network.$

Figure 64Myopic corneal refractive surgery: prediction error – evidence network

Table 108Myopic corneal refractive surgery: prediction error – input data

	Clinical history	Camellin-Calossi	Haigis-L	HofferQ DK	HofferQ K	HofferQ TNP	Holladay2 DK	Shammas-PL	SRKT Clinical history	SRKT Diehl	SRKT DK	SRKT DK Awwad	SRKT DK Savini	SRKT DK Seitz/Speicher	SRKT DK Seitz/Speicher/Savini	SRKT DK Shammas	SRKT Feiz-Mannis	SRKT Feiz-Mannis nomogram	SRKT K	SRKT Ladas-Stark	SRKT Latkany	SRKT Masket	SRKT SK Ferrara	SRKT SK Rosa	SRKT TNP
Xu et al. (2014)					1.58 (1.20)	−2.30 (1.25)													1.64 (0.93)						−1.79 (1.11)
Huang et al. (2013)			0.14 (0.83)					0.24 (0.82)
Kim et al. (2013)			0.03 (1.06)																1.68 (1.34)
Savini et al. (2010)	1.08 (1.75)	1.37 (0.83)						0.50 (0.94)		0.83 (1.48)	−0.88 (0.75)	1.73 (1.23)	0.21 (0.79)	0.05 (0.73)	0.09 (0.70)	1.60 (0.98)	1.37 (1.94)	2.00 (1.53)		1.83 (1.95)	0.80 (1.13)	−0.27 (0.88)	3.64 (1.45)	1.90 (1.10)
Fam & (2008)				0.19 (0.90)			−0.04 (0.98)		1.15 (0.99)		−0.19 (0.95)						−0.51 (1.15)			−0.01 (1.02)

Table 109Myopic corneal refractive surgery: prediction error – relative effectiveness of all pairwise combinations (MD and 95% credible interval)

	Clinical history	Camellin-Calossi	Haigis-L	HofferQ DK	HofferQ K	HofferQ TNP	Holladay2 DK	Shammas-PL	SRKT Clinical history	SRKT Diehl	SRKT DK	SRKT DK Awwad	SRKT DK Savini	SRKT DK Seitz/Speicher	SRKT DK Seitz/Speicher/Savini	SRKT DK Shammas	SRKT Feiz-Mannis	SRKT Feiz-Mannis nomogram	SRKT K	SRKT Ladas-Stark	SRKT Latkany	SRKT Masket	SRKT SK Ferrara	SRKT SK Rosa	SRKT TNP
Clinical history		0.29 (−0.43, 1.01)	-	-	-	-	-	−0.58 (−1.32, 0.16)	-	−0.25 (−1.10, 0.60)	−1.96 (−2.67, −1.25)	0.65 (−0.14, 1.44)	−0.87 (−1.58, −0.16)	−1.03 (−1.73, −0.33)	−0.99 (−1.69, −0.29)	0.52 (−0.22, 1.26)	0.29 (−0.68, 1.26)	0.92 (0.06, 1.78)	-	0.75 (−0.22, 1.72)	−0.28 (−1.05, 0.49)	−1.35 (−2.08, −0.62)	2.56 (1.72, 3.40)	0.82 (0.05, 1.59)	-
Camellin-Calossi	0.30 (−2.67, 3.28)		-	-	-	-	-	−0.87 (−1.33, −0.41)	-	−0.54 (−1.17, 0.09)	−2.25 (−2.66, −1.84)	0.36 (−0.19, 0.91)	−1.16 (−1.58, −0.74)	−1.32 (−1.73, −0.91)	−1.28 (−1.68, −0.88)	0.23 (−0.25, 0.71)	0.00 (−0.78, 0.78)	0.63 (−0.01, 1.27)	-	0.46 (−0.32, 1.24)	−0.57 (−1.09, −0.05)	−1.64 (−2.09, −1.19)	2.27 (1.65, 2.89)	0.53 (0.02, 1.04)	-
Haigis-L	−0.66 (−4.85, 3.58)	−0.94 (−5.14, 3.22)		-	-	-	-	0.10 (−0.24, 0.44)	-	-	-	-	-	-	-	-	-	-	1.65 (1.16, 2.14)	-	-	-	-	-	-
HofferQ DK	0.06 (−3.35, 3.57)	−0.24 (−3.64, 3.25)	0.71 (−3.80, 5.18)		-	-	−0.23 (−0.66, 0.20)	-	0.96 (0.53, 1.39)	-	−0.38 (−0.80, 0.04)	-	-	-	-	-	−0.70 (−1.17, −0.23)	-	-	−0.20 (−0.64, 0.24)	-	-	-	-	-
HofferQ K	0.95 (−5.07, 6.96)	0.65 (−5.28, 6.55)	1.59 (−2.61, 5.80)	0.87 (−5.31, 7.03)		−3.88 (−4.44, −3.32)	-	-	-	-	-	-	-	-	-	-	-	-	0.06 (−0.43, 0.55)	-	-	-	-	-	−3.37 (−3.90, −2.84)
HofferQ TNP	−2.93 (−8.90, 3.01)	−3.24 (−9.18, 2.68)	−2.29 (−6.49, 1.92)	−3.01 (−9.14, 3.14)	−3.88 (−6.82, −0.93)		-	-	-	-	-	-	-	-	-	-	-	-	3.94 (3.44, 4.44)	-	-	-	-	-	0.51 (−0.03, 1.05)
Holladay2 DK	−0.16 (−3.60, 3.33)	−0.45 (−3.84, 3.05)	0.50 (−4.03, 5.02)	−0.21 (−3.15, 2.76)	−1.12 (−7.27, 5.15)	2.79 (−3.37, 8.96)		-	1.19 (0.74, 1.64)	-	−0.15 (−0.59, 0.29)	-	-	-	-	-	−0.47 (−0.96, 0.02)	-	-	0.03 (−0.43, 0.49)	-	-	-	-	-
Shammas-PL	−0.56 (−3.54, 2.49)	−0.86 (−3.82, 2.11)	0.08 (−2.88, 3.02)	−0.63 (−4.01, 2.77)	−1.51 (−6.65, 3.68)	2.36 (−2.79, 7.54)	−0.41 (−3.83, 3.01)		-	0.33 (−0.32, 0.98)	−1.38 (−1.83, −0.93)	1.23 (0.66, 1.80)	−0.29 (−0.74, 0.16)	−0.45 (−0.89, −0.01)	−0.41 (−0.84, 0.02)	1.10 (0.60, 1.60)	0.87 (0.07, 1.67)	1.50 (0.83, 2.17)	-	1.33 (0.53, 2.13)	0.30 (−0.24, 0.84)	−0.77 (−1.25, −0.29)	3.14 (2.50, 3.78)	1.40 (0.86, 1.94)	-
SRKT Clinical history	1.03 (−2.38, 4.57)	0.74 (−2.63, 4.18)	1.68 (−2.86, 6.23)	0.97 (−1.94, 3.88)	0.10 (−6.02, 6.33)	3.96 (−2.18, 10.18)	1.19 (−1.77, 4.13)	1.60 (−1.81, 5.02)		-	−1.34 (−1.78, −0.90)	-	-	-	-	-	−1.66 (−2.15, −1.17)	-	-	−1.16 (−1.62, −0.70)	-	-	-	-	-
SRKT Diehl	−0.24 (−3.26, 2.79)	−0.54 (−3.53, 2.45)	0.41 (−3.77, 4.64)	−0.32 (−3.78, 3.12)	−1.18 (−7.09, 4.82)	2.67 (−3.21, 8.67)	−0.10 (−3.56, 3.30)	0.33 (−2.69, 3.26)	−1.27 (−4.76, 2.10)		−1.71 (−2.32, −1.10)	0.90 (0.19, 1.61)	−0.62 (−1.24, 0.00)	−0.78 (−1.39, −0.17)	−0.74 (−1.35, −0.13)	0.77 (0.11, 1.43)	0.54 (−0.36, 1.44)	1.17 (0.38, 1.96)	-	1.00 (0.09, 1.91)	−0.03 (−0.72, 0.66)	−1.10 (−1.74, −0.46)	2.81 (2.04, 3.58)	1.07 (0.39, 1.75)	-
SRKT DK	−1.13 (−3.84, 1.61)	−1.43 (−4.14, 1.31)	−0.47 (−4.53, 3.52)	−1.19 (−3.91, 1.49)	−2.06 (−7.87, 3.85)	1.80 (−4.00, 7.71)	−0.98 (−3.69, 1.67)	−0.56 (−3.28, 2.12)	−2.16 (−4.87, 0.52)	−0.89 (−3.61, 1.84)		2.61 (2.08, 3.14)	1.09 (0.69, 1.49)	0.93 (0.54, 1.32)	0.97 (0.59, 1.35)	2.48 (2.02, 2.94)	0.95 (−1.57, 3.46)	2.88 (2.25, 3.51)	-	1.42 (−1.05, 3.90)	1.68 (1.18, 2.18)	0.61 (0.18, 1.04)	4.52 (3.92, 5.12)	2.78 (2.29, 3.27)	-
SRKT DK Awwad	0.66 (−2.35, 3.71)	0.36 (−2.63, 3.36)	1.30 (−2.90, 5.50)	0.59 (−2.87, 4.04)	−0.29 (−6.28, 5.70)	3.56 (−2.36, 9.53)	0.81 (−2.63, 4.22)	1.24 (−1.76, 4.18)	−0.39 (−3.85, 3.08)	0.90 (−2.12, 3.90)	1.79 (−0.93, 4.50)		−1.52 (−2.06, −0.98)	−1.68 (−2.21, −1.15)	−1.64 (−2.16, −1.12)	−0.13 (−0.71, 0.45)	−0.36 (−1.21, 0.49)	0.27 (−0.46, 1.00)	-	0.10 (−0.75, 0.95)	−0.93 (−1.55, −0.31)	−2.00 (−2.56, −1.44)	1.91 (1.21, 2.61)	0.17 (−0.44, 0.78)	-
SRKT DK Savini	−0.85 (−3.87, 2.19)	−1.16 (−4.14, 1.79)	−0.21 (−4.46, 3.98)	−0.93 (−4.39, 2.47)	−1.81 (−7.78, 4.14)	2.06 (−3.86, 8.10)	−0.70 (−4.20, 2.68)	−0.29 (−3.28, 2.65)	−1.89 (−5.35, 1.49)	−0.62 (−3.63, 2.39)	0.26 (−2.46, 2.94)	−1.51 (−4.48, 1.49)		−0.16 (−0.56, 0.24)	−0.12 (−0.51, 0.27)	1.39 (0.92, 1.86)	1.16 (0.38, 1.94)	1.79 (1.15, 2.43)	-	1.62 (0.84, 2.40)	0.59 (0.08, 1.10)	−0.48 (−0.92, −0.04)	3.43 (2.82, 4.04)	1.69 (1.19, 2.19)	-
SRKT DK Seitz/Speicher	−1.02 (−4.00, 1.97)	−1.32 (−4.31, 1.64)	−0.38 (−4.59, 3.81)	−1.08 (−4.56, 2.28)	−1.97 (−7.93, 4.00)	1.92 (−4.05, 7.89)	−0.87 (−4.36, 2.51)	−0.46 (−3.43, 2.47)	−2.05 (−5.51, 1.27)	−0.77 (−3.76, 2.20)	0.11 (−2.63, 2.76)	−1.68 (−4.67, 1.28)	−0.15 (−3.08, 2.80)		0.04 (−0.33, 0.41)	1.55 (1.10, 2.00)	1.32 (0.55, 2.09)	1.95 (1.32, 2.58)	-	1.78 (1.01, 2.55)	0.75 (0.25, 1.25)	−0.32 (−0.74, 0.10)	3.59 (2.99, 4.19)	1.85 (1.36, 2.34)	-
SRKT DK Seitz/Speicher/Savini	−0.99 (−3.98, 2.02)	−1.28 (−4.26, 1.70)	−0.35 (−4.53, 3.84)	−1.04 (−4.57, 2.36)	−1.93 (−7.83, 4.04)	1.95 (−3.99, 7.96)	−0.83 (−4.28, 2.53)	−0.42 (−3.38, 2.54)	−2.01 (−5.47, 1.39)	−0.74 (−3.73, 2.24)	0.14 (−2.60, 2.84)	−1.64 (−4.67, 1.32)	−0.12 (−3.08, 2.85)	0.04 (−2.91, 3.02)		1.51 (1.06, 1.96)	1.28 (0.52, 2.04)	1.91 (1.29, 2.53)	-	1.74 (0.97, 2.51)	0.71 (0.22, 1.20)	−0.36 (−0.78, 0.06)	3.55 (2.95, 4.15)	1.81 (1.33, 2.29)	-
SRKT DK Shammas	0.53 (−2.44, 3.54)	0.22 (−2.71, 3.18)	1.16 (−3.01, 5.37)	0.46 (−3.04, 3.81)	−0.44 (−6.39, 5.58)	3.43 (−2.46, 9.42)	0.68 (−2.79, 4.08)	1.08 (−1.87, 4.05)	−0.51 (−3.98, 2.89)	0.77 (−2.20, 3.73)	1.66 (−1.05, 4.37)	−0.13 (−3.13, 2.83)	1.39 (−1.54, 4.33)	1.55 (−1.39, 4.50)	1.50 (−1.48, 4.51)		−0.23 (−1.04, 0.58)	0.40 (−0.27, 1.07)	-	0.23 (−0.58, 1.04)	−0.80 (−1.35, −0.25)	−1.87 (−2.36, −1.38)	2.04 (1.39, 2.69)	0.30 (−0.25, 0.85)	-
SRKT Feiz-Mannis	−0.20 (−2.89, 2.58)	−0.49 (−3.20, 2.25)	0.47 (−3.62, 4.48)	−0.25 (−2.97, 2.42)	−1.14 (−6.93, 4.77)	2.74 (−3.06, 8.65)	−0.04 (−2.75, 2.65)	0.37 (−2.36, 3.10)	−1.22 (−3.96, 1.45)	0.06 (−2.68, 2.82)	0.93 (−1.16, 3.05)	−0.85 (−3.58, 1.90)	0.67 (−2.04, 3.43)	0.83 (−1.87, 3.60)	0.80 (−1.92, 3.51)	−0.71 (−3.42, 2.02)		0.63 (−0.29, 1.55)	-	0.49 (0.05, 0.94)	−0.57 (−1.40, 0.26)	−1.64 (−2.43, −0.85)	2.27 (1.37, 3.17)	0.53 (−0.30, 1.36)	-
SRKT Feiz-Mannis nomogram	0.93 (−2.11, 3.98)	0.64 (−2.37, 3.63)	1.59 (−2.66, 5.82)	0.87 (−2.58, 4.27)	−0.01 (−6.01, 5.96)	3.86 (−2.11, 9.87)	1.10 (−2.45, 4.49)	1.51 (−1.52, 4.49)	−0.09 (−3.57, 3.35)	1.18 (−1.84, 4.22)	2.08 (−0.65, 4.80)	0.28 (−2.77, 3.28)	1.80 (−1.19, 4.81)	1.96 (−1.01, 4.94)	1.92 (−1.04, 4.90)	0.42 (−2.58, 3.41)	1.13 (−1.66, 3.87)		-	−0.17 (−1.09, 0.75)	−1.20 (−1.90, −0.50)	−2.27 (−2.92, −1.62)	1.64 (0.86, 2.42)	−0.10 (−0.80, 0.60)	-
SRKT K	1.00 (−4.17, 6.16)	0.71 (−4.40, 5.83)	1.65 (−1.29, 4.59)	0.93 (−4.43, 6.35)	0.06 (−2.87, 3.01)	3.94 (0.95, 6.94)	1.13 (−4.30, 6.54)	1.59 (−2.59, 5.75)	−0.03 (−5.41, 5.42)	1.25 (−3.89, 6.40)	2.14 (−2.89, 7.10)	0.33 (−4.73, 5.52)	1.87 (−3.27, 7.06)	2.03 (−3.12, 7.17)	1.99 (−3.15, 7.08)	0.49 (−4.72, 5.65)	1.19 (−3.79, 6.22)	0.08 (−5.15, 5.21)		-	-	-	-	-	−3.43 (−3.90, −2.96)
SRKT Ladas-Stark	0.28 (−2.47, 3.08)	−0.02 (−2.72, 2.76)	0.92 (−3.09, 4.96)	0.23 (−2.51, 2.94)	−0.67 (−6.47, 5.18)	3.20 (−2.56, 9.13)	0.44 (−2.28, 3.14)	0.86 (−1.86, 3.58)	−0.76 (−3.46, 1.94)	0.53 (−2.23, 3.29)	1.42 (−0.70, 3.51)	−0.37 (−3.15, 2.38)	1.13 (−1.57, 3.90)	1.30 (−1.39, 4.07)	1.27 (−1.41, 4.04)	−0.23 (−2.95, 2.51)	0.47 (−1.67, 2.61)	−0.66 (−3.39, 2.15)	−0.71 (−5.72, 4.26)		−1.03 (−1.86, −0.20)	−2.10 (−2.89, −1.31)	1.81 (0.91, 2.71)	0.07 (−0.76, 0.90)	-
SRKT Latkany	−0.26 (−3.27, 2.69)	−0.57 (−3.51, 2.40)	0.38 (−3.88, 4.57)	−0.34 (−3.72, 3.05)	−1.21 (−7.16, 4.82)	2.66 (−3.28, 8.69)	−0.12 (−3.55, 3.25)	0.31 (−2.66, 3.28)	−1.31 (−4.72, 2.07)	−0.03 (−3.01, 2.96)	0.87 (−1.85, 3.54)	−0.93 (−3.91, 2.05)	0.59 (−2.39, 3.57)	0.75 (−2.17, 3.72)	0.73 (−2.23, 3.67)	−0.78 (−3.74, 2.16)	−0.08 (−2.83, 2.63)	−1.21 (−4.19, 1.74)	−1.27 (−6.37, 3.91)	−0.54 (−3.31, 2.14)		−1.07 (−1.60, −0.54)	2.84 (2.16, 3.52)	1.10 (0.52, 1.68)	-
SRKT Masket	−1.35 (−4.33, 1.66)	−1.64 (−4.59, 1.27)	−0.71 (−4.88, 3.49)	−1.41 (−4.87, 2.01)	−2.29 (−8.23, 3.68)	1.58 (−4.37, 7.59)	−1.20 (−4.63, 2.14)	−0.77 (−3.79, 2.12)	−2.37 (−5.82, 1.02)	−1.09 (−4.05, 1.86)	−0.22 (−2.94, 2.47)	−2.00 (−5.03, 0.98)	−0.48 (−3.47, 2.48)	−0.33 (−3.26, 2.65)	−0.36 (−3.32, 2.58)	−1.87 (−4.84, 1.08)	−1.16 (−3.88, 1.53)	−2.28 (−5.29, 0.65)	−2.35 (−7.42, 2.75)	−1.63 (−4.38, 1.06)	−1.08 (−4.01, 1.84)		3.91 (3.28, 4.54)	2.17 (1.65, 2.69)	-
SRKT SK Ferrara	2.56 (−0.48, 5.57)	2.27 (−0.74, 5.29)	3.20 (−1.05, 7.41)	2.49 (−0.99, 5.92)	1.61 (−4.35, 7.61)	5.49 (−0.50, 11.47)	2.71 (−0.78, 6.13)	3.13 (0.08, 6.12)	1.52 (−2.02, 5.01)	2.80 (−0.20, 5.87)	3.69 (0.92, 6.42)	1.91 (−1.14, 4.93)	3.43 (0.46, 6.42)	3.59 (0.57, 6.62)	3.55 (0.50, 6.52)	2.04 (−0.95, 5.04)	2.76 (−0.02, 5.46)	1.62 (−1.39, 4.65)	1.56 (−3.64, 6.71)	2.28 (−0.56, 5.04)	2.83 (−0.17, 5.80)	3.91 (0.93, 6.89)		−1.74 (−2.41, −1.07)	-
SRKT SK Rosa	0.82 (−2.17, 3.82)	0.53 (−2.43, 3.48)	1.46 (−2.68, 5.67)	0.77 (−2.71, 4.16)	−0.12 (−5.99, 5.79)	3.76 (−2.19, 9.77)	0.98 (−2.51, 4.39)	1.39 (−1.59, 4.35)	−0.22 (−3.65, 3.22)	1.07 (−1.92, 4.08)	1.96 (−0.78, 4.65)	0.16 (−2.83, 3.20)	1.68 (−1.28, 4.66)	1.84 (−1.12, 4.87)	1.82 (−1.14, 4.78)	0.30 (−2.66, 3.27)	1.02 (−1.72, 3.75)	−0.11 (−3.07, 2.91)	−0.17 (−5.26, 4.97)	0.54 (−2.22, 3.29)	1.09 (−1.89, 4.09)	2.18 (−0.78, 5.13)	−1.74 (−4.71, 1.27)		-
SRKT TNP	−2.43 (−8.33, 3.58)	−2.73 (−8.57, 3.24)	−1.78 (−5.94, 2.38)	−2.51 (−8.63, 3.68)	−3.37 (−6.34, −0.37)	0.49 (−2.50, 3.50)	−2.30 (−8.45, 3.81)	−1.87 (−6.94, 3.31)	−3.45 (−9.62, 2.67)	−2.20 (−8.18, 3.74)	−1.28 (−7.14, 4.48)	−3.10 (−9.01, 2.83)	−1.56 (−7.54, 4.42)	−1.40 (−7.32, 4.50)	−1.43 (−7.37, 4.45)	−2.94 (−8.88, 2.98)	−2.25 (−8.09, 3.59)	−3.36 (−9.26, 2.55)	−3.44 (−6.38, −0.45)	−2.71 (−8.52, 3.09)	−2.15 (−8.04, 3.79)	−1.09 (−6.95, 4.84)	−4.98 (−10.99, 1.03)	−3.25 (−9.16, 2.62)

$Figure 65. Myopic corneal refractive surgery: prediction error – relative effect of all options versus common comparator.$

Figure 65Myopic corneal refractive surgery: prediction error – relative effect of all options versus common comparator

Table 110Myopic corneal refractive surgery: prediction error – rankings for each comparator

	Probability best	Median rank (95%CI)
Clinical history	0.009	14 (3, 24)
Camellin-Calossi	0.004	16 (4, 24)
Haigis-L	0.014	9 (2, 23)
HofferQ DK	0.013	14 (2, 24)
HofferQ K	0.001	20 (3, 25)
HofferQ TNP	0.423	2 (1, 22)
Holladay2 DK	0.018	13 (2, 24)
Shammas-PL	0.007	10 (3, 21)
SRKT Clinical history	0.002	20 (5, 25)
SRKT Diehl	0.013	12 (2, 23)
SRKT DK	0.039	7 (1, 17)
SRKT DK Awwad	0.002	18 (5, 25)
SRKT DK Savini	0.038	8 (1, 21)
SRKT DK Seitz/Speicher	0.048	7 (1, 20)
SRKT DK Seitz/Speicher/Savini	0.046	7 (1, 20)
SRKT DK Shammas	0.002	17 (5, 24)
SRKT Feiz-Mannis	0.003	13 (4, 22)
SRKT Feiz-Mannis nomogram	0.001	20 (6, 25)
SRKT K	0.000	20 (4, 25)
SRKT Ladas-Stark	0.001	16 (5, 23)
SRKT Latkany	0.012	12 (2, 23)
SRKT Masket	0.084	6 (1, 19)
SRKT SK Ferrara	0.000	24 (15, 25)
SRKT SK Rosa	0.001	19 (6, 25)
SRKT TNP	0.218	2 (1, 22)

$Figure 66. Myopic corneal refractive surgery: prediction error – rank probability histograms.$

Figure 66Myopic corneal refractive surgery: prediction error – rank probability histograms

Table 111Myopic corneal refractive surgery: prediction error – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
31 (compared to 31 datapoints)	−15.563	−46.424	30.86	15.297	1.416 (95%CI: 0.720, 1.966)

Table 112Myopic corneal refractive surgery: prediction error – notes

Continuous (normal; identity link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

$Figure 67. Myopic corneal refractive surgery: within 0.5D – evidence network.$

Figure 67Myopic corneal refractive surgery: within 0.5D – evidence network

Table 113Myopic corneal refractive surgery: within 0.5D – input data

	SRKT Clinical history	BESSt	Camellin-Calossi	Double-K	Feiz-Mannis	Haigis-L	HofferQ DK	HofferQ K	HofferQ TNP	Holladay2 DK	Masket	Modified Masket	Shammas-PL	SRKT A-P	SRKT C-P	SRKT DK	SRKT Feiz-Mannis	SRKT K	SRKT Ladas-Stark	SRKT TNP
Xu et al. (2014)								6/37	3/37									4/37		3/37
Huang et al. (2013)						21/46							21/46
Kim et al. (2013)						30/47												5/47
Saiki et al. (2013)		3/28	9/19	4/12	1/12	6/25					4/12	5/12	7/28	13/28	12/25	5/28				5/28
Fam & (2008)	5/37						13/37			17/37						19/37	15/37		17/37

Table 114Myopic corneal refractive surgery: within 0.5D – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT Clinical history	BESSt	Camellin-Calossi	Double-K	Feiz-Mannis	Haigis-L	HofferQ DK	HofferQ K	HofferQ TNP	Holladay2 DK	Masket	Modified Masket	Shammas-PL	SRKT A-P	SRKT C-P	SRKT DK	SRKT Feiz-Mannis	SRKT K	SRKT Ladas-Stark	SRKT TNP
SRKT Clinical history		-	-	-	-	-	3.47 (1.09, 11.05)	-	-	5.44 (1.73, 17.06)	-	-	-	-	-	6.76 (2.16, 21.16)	4.36 (1.38, 13.76)	-	5.44 (1.73, 17.06)	-
BESSt	3.88 (0.08, 180.60)		7.50 (1.68, 33.56)	4.17 (0.76, 22.71)	0.76 (0.07, 8.12)	2.63 (0.58, 11.90)	-	-	-	-	4.17 (0.76, 22.71)	5.95 (1.13, 31.26)	2.78 (0.64, 12.10)	7.22 (1.76, 29.56)	7.69 (1.84, 32.20)	1.81 (0.39, 8.44)	-	-	-	1.81 (0.39, 8.44)
CamellinCalossi	32.89 (0.76, 1490.00)	8.63 (0.54, 149.10)		0.56 (0.12, 2.49)	0.10 (0.01, 0.95)	0.35 (0.10, 1.27)	-	-	-	-	0.56 (0.12, 2.49)	0.79 (0.18, 3.41)	0.37 (0.11, 1.28)	0.96 (0.30, 3.09)	1.03 (0.31, 3.39)	0.24 (0.06, 0.91)	-	-	-	0.24 (0.06, 0.91)
Double-K	17.55 (0.36, 820.50)	4.53 (0.25, 90.35)	0.53 (0.03, 8.48)		0.18 (0.02, 1.95)	0.63 (0.14, 2.86)	-	-	-	-	1.00 (0.18, 5.46)	1.43 (0.27, 7.52)	0.67 (0.15, 2.91)	1.73 (0.42, 7.11)	1.85 (0.44, 7.74)	0.43 (0.09, 2.03)	-	-	-	0.43 (0.09, 2.03)
Feiz-Mannis	2.20 (0.02, 145.80)	0.59 (0.01, 15.97)	0.07 (0.00, 1.64)	0.13 (0.00, 3.46)		3.47 (0.37, 32.74)	-	-	-	-	5.50 (0.51, 59.01)	7.86 (0.75, 82.13)	3.67 (0.40, 33.71)	9.53 (1.08, 84.14)	10.15 (1.13, 90.94)	2.39 (0.25, 23.01)	-	-	-	2.39 (0.25, 23.01)
Haigis-L	15.45 (0.44, 630.20)	4.00 (0.33, 61.03)	0.47 (0.04, 5.51)	0.88 (0.07, 11.93)	6.75 (0.37, 328.20)		-	-	-	-	1.58 (0.35, 7.17)	2.26 (0.52, 9.83)	1.02 (0.51, 2.02)	2.74 (0.84, 8.94)	2.92 (0.87, 9.78)	0.69 (0.18, 2.61)	-	0.07 (0.02, 0.20)	-	0.69 (0.18, 2.61)
HofferQ DK	3.68 (0.26, 50.80)	0.97 (0.02, 44.53)	0.11 (0.00, 4.34)	0.22 (0.00, 10.12)	1.68 (0.03, 184.60)	0.24 (0.01, 7.79)		-	-	1.57 (0.62, 4.00)	-	-	-	-	-	1.95 (0.77, 4.96)	1.26 (0.49, 3.23)	-	1.57 (0.62, 4.00)	-
HofferQ K	6.00 (0.08, 518.00)	1.56 (0.05, 63.77)	0.18 (0.01, 6.20)	0.34 (0.01, 13.15)	2.78 (0.06, 261.40)	0.39 (0.02, 7.74)	1.60 (0.02, 125.70)		0.46 (0.10, 1.98)	-	-	-	-	-	-	-	-	0.63 (0.16, 2.43)	-	0.46 (0.10, 1.98)
HofferQ TNP	2.53 (0.03, 198.90)	0.66 (0.02, 27.58)	0.08 (0.00, 2.82)	0.14 (0.00, 6.06)	1.15 (0.02, 119.30)	0.16 (0.01, 3.52)	0.67 (0.01, 57.33)	0.42 (0.03, 6.24)		-	-	-	-	-	-	-	-	1.37 (0.29, 6.61)	-	1.00 (0.19, 5.31)
Holladay2 DK	5.83 (0.42, 82.42)	1.56 (0.04, 72.66)	0.18 (0.00, 6.71)	0.34 (0.01, 15.19)	2.71 (0.04, 294.60)	0.38 (0.01, 12.49)	1.58 (0.13, 20.93)	0.99 (0.01, 69.46)	2.34 (0.03, 182.90)		-	-	-	-	-	1.24 (0.50, 3.09)	0.80 (0.32, 2.02)	-	1.00 (0.40, 2.50)	-
Masket	17.47 (0.38, 814.40)	4.51 (0.26, 87.62)	0.52 (0.03, 8.83)	0.99 (0.06, 18.32)	7.79 (0.31, 467.40)	1.12 (0.08, 13.95)	4.64 (0.11, 208.30)	2.88 (0.08, 95.93)	6.88 (0.17, 270.30)	2.94 (0.07, 128.20)		1.43 (0.27, 7.52)	0.67 (0.15, 2.91)	1.73 (0.42, 7.11)	1.85 (0.44, 7.74)	0.43 (0.09, 2.03)	-	-	-	0.43 (0.09, 2.03)
Modified Masket	25.83 (0.58, 1224.00)	6.73 (0.37, 128.50)	0.78 (0.05, 12.25)	1.47 (0.09, 26.82)	11.47 (0.46, 681.20)	1.67 (0.13, 20.40)	6.85 (0.17, 301.80)	4.29 (0.12, 134.10)	10.23 (0.27, 362.90)	4.31 (0.11, 201.20)	1.49 (0.08, 25.81)		0.47 (0.11, 1.95)	1.21 (0.31, 4.76)	1.29 (0.32, 5.19)	0.30 (0.07, 1.37)	-	-	-	0.30 (0.07, 1.37)
Shammas-PL	13.19 (0.36, 515.30)	3.45 (0.26, 50.02)	0.40 (0.03, 4.76)	0.76 (0.06, 10.23)	5.86 (0.31, 286.60)	0.86 (0.14, 4.99)	3.56 (0.10, 133.40)	2.20 (0.09, 52.58)	5.28 (0.18, 150.60)	2.24 (0.07, 83.46)	0.76 (0.06, 10.92)	0.51 (0.04, 7.03)		2.60 (0.84, 8.07)	2.77 (0.87, 8.84)	0.65 (0.18, 2.37)	-	-	-	0.65 (0.18, 2.37)
SRKT A-P	32.41 (0.79, 1340.00)	8.36 (0.54, 141.30)	0.96 (0.07, 13.33)	1.84 (0.12, 30.37)	14.38 (0.66, 757.50)	2.08 (0.19, 22.65)	8.58 (0.22, 341.20)	5.34 (0.16, 159.30)	12.68 (0.37, 466.30)	5.39 (0.14, 214.50)	1.84 (0.12, 30.10)	1.24 (0.08, 19.41)	2.39 (0.21, 26.76)		1.07 (0.36, 3.14)	0.25 (0.07, 0.85)	-	-	-	0.25 (0.07, 0.85)
SRKT C-P	34.02 (0.83, 1408.00)	8.83 (0.58, 145.40)	1.03 (0.08, 14.14)	1.95 (0.13, 30.74)	15.09 (0.68, 831.20)	2.21 (0.19, 23.11)	9.07 (0.24, 373.40)	5.70 (0.18, 163.20)	13.73 (0.38, 458.20)	5.69 (0.16, 230.60)	1.97 (0.13, 30.91)	1.32 (0.09, 19.92)	2.55 (0.23, 29.17)	1.06 (0.08, 14.37)		0.24 (0.07, 0.82)	-	-	-	0.24 (0.07, 0.82)
SRKT DK	7.35 (0.53, 104.30)	1.94 (0.12, 35.33)	0.23 (0.01, 3.24)	0.42 (0.03, 7.05)	3.31 (0.14, 190.00)	0.48 (0.04, 5.34)	1.97 (0.16, 26.69)	1.23 (0.04, 37.44)	2.94 (0.08, 104.20)	1.25 (0.10, 16.39)	0.43 (0.03, 6.89)	0.29 (0.02, 4.42)	0.56 (0.04, 6.64)	0.23 (0.02, 3.10)	0.22 (0.02, 2.97)		0.65 (0.26, 1.62)	-	0.81 (0.32, 2.01)	1.00 (0.25, 3.93)
SRKT FeizMannis	4.67 (0.34, 67.63)	1.22 (0.03, 56.19)	0.14 (0.00, 5.68)	0.27 (0.01, 11.82)	2.11 (0.04, 236.80)	0.30 (0.01, 10.31)	1.27 (0.10, 16.86)	0.79 (0.01, 54.08)	1.86 (0.02, 151.40)	0.80 (0.06, 10.32)	0.27 (0.01, 11.89)	0.18 (0.00, 7.91)	0.35 (0.01, 12.94)	0.15 (0.00, 5.68)	0.14 (0.00, 5.32)	0.63 (0.05, 8.18)		-	1.25 (0.50, 3.13)	-
SRKT K	2.04 (0.04, 124.20)	0.53 (0.03, 14.55)	0.06 (0.00, 1.34)	0.12 (0.01, 2.90)	0.94 (0.03, 66.34)	0.13 (0.02, 1.27)	0.54 (0.01, 34.83)	0.34 (0.03, 5.01)	0.81 (0.06, 14.05)	0.34 (0.01, 20.26)	0.12 (0.01, 2.82)	0.08 (0.00, 1.86)	0.15 (0.01, 2.31)	0.06 (0.00, 1.34)	0.06 (0.00, 1.32)	0.27 (0.02, 6.20)	0.43 (0.01, 25.76)		-	0.73 (0.15, 3.50)
SRKT Ladas-Stark	5.86 (0.42, 84.94)	1.57 (0.03, 69.48)	0.18 (0.00, 6.77)	0.34 (0.01, 14.92)	2.68 (0.05, 284.60)	0.39 (0.01, 12.06)	1.59 (0.13, 20.83)	0.98 (0.01, 65.53)	2.35 (0.03, 186.80)	1.00 (0.08, 12.46)	0.34 (0.01, 14.34)	0.23 (0.01, 9.70)	0.45 (0.01, 15.39)	0.19 (0.00, 6.86)	0.17 (0.00, 6.28)	0.80 (0.06, 9.94)	1.26 (0.10, 15.77)	2.97 (0.05, 124.20)		-
SRKT TNP	4.50 (0.11, 187.50)	1.17 (0.08, 19.22)	0.14 (0.01, 1.87)	0.26 (0.02, 3.98)	2.01 (0.09, 107.30)	0.29 (0.04, 2.33)	1.21 (0.03, 49.20)	0.76 (0.05, 9.75)	1.77 (0.11, 28.02)	0.76 (0.02, 30.60)	0.26 (0.02, 3.90)	0.17 (0.01, 2.59)	0.34 (0.03, 3.39)	0.14 (0.01, 1.76)	0.13 (0.01, 1.74)	0.61 (0.04, 8.43)	0.96 (0.03, 38.36)	2.19 (0.22, 18.56)	0.75 (0.02, 29.15)

$Figure 68. Myopic corneal refractive surgery: within 0.5D – relative effect of all options versus common comparator.$

Figure 68Myopic corneal refractive surgery: within 0.5D – relative effect of all options versus common comparator

Table 115Myopic corneal refractive surgery: within 0.5D rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT Clinical history	0.001	19 (8, 20)
BESSt	0.002	14 (5, 20)
Camellin-Calossi	0.199	3 (1, 14)
Double-K	0.069	6 (1, 17)
Feiz-Mannis	0.002	16 (5, 20)
Haigis-L	0.017	7 (2, 15)
HofferQ DK	0.011	14 (3, 20)
HofferQ K	0.028	12 (1, 19)
HofferQ TNP	0.008	16 (3, 20)
Holladay2 DK	0.024	12 (2, 19)
Masket	0.070	6 (1, 17)
Modified Masket	0.142	5 (1, 15)
Shammas-PL	0.013	8 (2, 16)
SRKT A-P	0.171	4 (1, 13)
SRKT C-P	0.199	3 (1, 13)
SRKT DK	0.002	11 (4, 17)
SRKT Feiz-Mannis	0.018	13 (2, 19)
SRKT K	0.001	17 (7, 20)
SRKT Ladas-Stark	0.024	12 (2, 19)
SRKT TNP	0.001	13 (5, 19)

$Figure 69. Myopic corneal refractive surgery: within 0.5D – rank probability histograms.$

Figure 69Myopic corneal refractive surgery: within 0.5D – rank probability histograms

Table 116Myopic corneal refractive surgery: within 0.5D – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
27.42 (compared to 26 datapoints)	117.472	91.607	25.865	143.337	0.955 (95%CI: 0.065, 1.925)

Table 117Myopic corneal refractive surgery: within 0.5D – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

$Figure 70. Myopic corneal refractive surgery: within 1.0D – evidence network.$

Figure 70Myopic corneal refractive surgery: within 1.0D – evidence network

Table 118Myopic corneal refractive surgery: within 1.0D – input data

	SRKT Clinical history	BESSt	Camellin-Calossi	Double-K	Feiz-Mannis	Haigis-L	HofferQ DK	HofferQ K	HofferQ TNP	Holladay2 DK	Masket	Modified Masket	Shammas-PL	SRKT A-P	SRKT C-P	SRKT DK	SRKT Feiz-Mannis	SRKT K	SRKT Ladas-Stark	SRKT TNP
Xu et al. (2014)								14/37	3/37									8/37		5/37
Huang et al. (2013)						36/46							39/46
Kim et al. (2013)						38/47												16/47
Saiki et al. (2013)		12/28	14/19	8/12	6/12	13/25					10/12	9/12	20/28	21/28	17/25	14/28				17/28
Fam & (2008)	11/37						28/37			30/37						25/37	23/37		23/37

Table 119Myopic corneal refractive surgery: within 1.0D – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT Clinical history	BESSt	Camellin-Calossi	Double-K	Feiz-Mannis	Haigis-L	HofferQ DK	HofferQ K	HofferQ TNP	Holladay2 DK	Masket	Modified Masket	Shammas-PL	SRKT A-P	SRKT C-P	SRKT DK	SRKT Feiz-Mannis	SRKT K	SRKT Ladas-Stark	SRKT TNP
SRKT Clinical history		-	-	-	-	-	7.35 (2.63, 20.60)	-	-	10.13 (3.43, 29.93)	-	-	-	-	-	4.92 (1.84, 13.19)	3.88 (1.47, 10.23)	-	3.88 (1.47, 10.23)	-
BESSt	3.81 (0.06, 227.60)		3.73 (1.05, 13.24)	2.67 (0.65, 10.97)	1.33 (0.34, 5.18)	1.44 (0.49, 4.27)	-	-	-	-	6.67 (1.23, 36.23)	4.00 (0.89, 18.03)	3.33 (1.10, 10.12)	4.00 (1.28, 12.46)	2.83 (0.92, 8.73)	1.33 (0.47, 3.82)	-	-	-	2.06 (0.71, 5.98)
Camellin-Calossi	15.54 (0.26, 888.10)	4.05 (0.21, 78.19)		0.71 (0.15, 3.45)	0.36 (0.08, 1.64)	0.39 (0.11, 1.40)	-	-	-	-	1.79 (0.29, 11.13)	1.07 (0.20, 5.63)	0.89 (0.24, 3.31)	1.07 (0.28, 4.06)	0.76 (0.20, 2.85)	0.36 (0.10, 1.26)	-	-	-	0.55 (0.15, 1.97)
Double-K	10.98 (0.17, 731.40)	2.87 (0.15, 59.91)	0.70 (0.03, 15.96)		0.50 (0.10, 2.60)	0.54 (0.13, 2.27)	-	-	-	-	2.50 (0.36, 17.32)	1.50 (0.25, 8.84)	1.25 (0.29, 5.35)	1.50 (0.34, 6.55)	1.06 (0.25, 4.60)	0.50 (0.12, 2.05)	-	-	-	0.77 (0.19, 3.20)
Feiz-Mannis	5.22 (0.08, 311.00)	1.37 (0.07, 27.48)	0.34 (0.02, 7.02)	0.48 (0.02, 10.31)		1.08 (0.27, 4.29)	-	-	-	-	5.00 (0.75, 33.21)	3.00 (0.53, 16.90)	2.50 (0.62, 10.11)	3.00 (0.73, 12.39)	2.13 (0.52, 8.70)	1.00 (0.26, 3.87)	-	-	-	1.55 (0.40, 6.03)
Haigis-L	9.30 (0.19, 449.10)	2.43 (0.18, 33.65)	0.60 (0.04, 8.86)	0.85 (0.05, 12.83)	1.79 (0.12, 26.69)		-	-	-	-	4.62 (0.84, 25.49)	2.77 (0.60, 12.71)	1.87 (0.86, 4.06)	2.77 (0.87, 8.84)	1.96 (0.62, 6.19)	0.92 (0.31, 2.72)	-	0.12 (0.05, 0.31)	-	1.43 (0.48, 4.25)
HofferQ DK	7.79 (0.44, 134.90)	2.06 (0.03, 120.40)	0.51 (0.01, 30.84)	0.71 (0.01, 45.22)	1.50 (0.02, 99.39)	0.84 (0.02, 42.06)		-	-	1.38 (0.45, 4.20)	-	-	-	-	-	0.67 (0.24, 1.85)	0.53 (0.19, 1.44)	-	0.53 (0.19, 1.44)	-
HofferQ K	11.10 (0.11, 1221.00)	2.94 (0.08, 119.80)	0.73 (0.02, 30.60)	1.02 (0.02, 42.35)	2.15 (0.05, 94.42)	1.20 (0.05, 27.15)	1.44 (0.01, 159.70)		0.14 (0.04, 0.56)	-	-	-	-	-	-	-	-	0.45 (0.16, 1.27)	-	0.26 (0.08, 0.81)
HofferQ TNP	1.41 (0.01, 169.20)	0.36 (0.01, 17.53)	0.09 (0.00, 4.53)	0.13 (0.00, 6.43)	0.27 (0.01, 13.24)	0.15 (0.01, 4.11)	0.18 (0.00, 21.37)	0.13 (0.01, 2.40)		-	-	-	-	-	-	-	-	3.13 (0.76, 12.89)	-	1.77 (0.39, 8.02)
Holladay2 DK	10.95 (0.63, 198.80)	2.91 (0.05, 163.90)	0.70 (0.01, 43.02)	1.00 (0.01, 66.08)	2.09 (0.03, 126.40)	1.18 (0.02, 56.26)	1.41 (0.08, 24.39)	0.98 (0.01, 101.70)	7.78 (0.06, 909.80)		-	-	-	-	-	0.49 (0.17, 1.42)	0.38 (0.13, 1.10)	-	0.38 (0.13, 1.10)	-
Masket	32.02 (0.46, 2442.00)	8.29 (0.35, 219.80)	2.03 (0.08, 61.95)	2.90 (0.11, 84.96)	6.01 (0.23, 186.40)	3.37 (0.19, 75.67)	4.05 (0.06, 306.10)	2.82 (0.06, 150.30)	22.62 (0.40, 1487.00)	2.95 (0.04, 216.80)		0.60 (0.08, 4.45)	0.50 (0.09, 2.81)	0.60 (0.11, 3.43)	0.43 (0.07, 2.41)	0.20 (0.04, 1.08)	-	-	-	0.31 (0.06, 1.69)
Modified Masket	17.37 (0.27, 1161.00)	4.50 (0.22, 100.40)	1.12 (0.05, 27.63)	1.59 (0.06, 40.92)	3.31 (0.15, 87.14)	1.85 (0.11, 34.73)	2.21 (0.03, 143.70)	1.56 (0.03, 76.63)	12.41 (0.23, 690.50)	1.57 (0.02, 106.70)	0.55 (0.02, 15.91)		0.83 (0.18, 3.90)	1.00 (0.21, 4.77)	0.71 (0.15, 3.35)	0.33 (0.07, 1.50)	-	-	-	0.52 (0.11, 2.33)
Shammas-PL	13.84 (0.28, 686.00)	3.59 (0.25, 53.09)	0.89 (0.05, 14.03)	1.26 (0.07, 21.07)	2.63 (0.16, 44.96)	1.47 (0.20, 11.10)	1.76 (0.03, 85.45)	1.24 (0.04, 37.72)	9.73 (0.28, 351.80)	1.27 (0.03, 61.34)	0.44 (0.02, 8.57)	0.80 (0.04, 13.41)		1.20 (0.37, 3.92)	0.85 (0.26, 2.75)	0.40 (0.13, 1.21)	-	-	-	0.62 (0.20, 1.89)
SRKT A-P	16.35 (0.28, 935.50)	4.26 (0.24, 78.67)	1.06 (0.05, 20.89)	1.51 (0.07, 29.39)	3.10 (0.16, 65.42)	1.74 (0.13, 24.64)	2.08 (0.04, 119.80)	1.46 (0.04, 56.51)	11.52 (0.26, 512.40)	1.49 (0.03, 86.26)	0.52 (0.02, 11.81)	0.95 (0.04, 19.81)	1.18 (0.08, 17.37)		0.71 (0.21, 2.35)	0.33 (0.11, 1.03)	-	-	-	0.52 (0.16, 1.62)
SRKT C-P	11.16 (0.20, 666.50)	2.99 (0.16, 52.55)	0.73 (0.04, 14.10)	1.03 (0.05, 21.10)	2.18 (0.11, 44.03)	1.23 (0.09, 16.46)	1.45 (0.02, 83.72)	1.02 (0.03, 39.19)	8.14 (0.17, 371.30)	1.03 (0.02, 57.93)	0.36 (0.01, 8.30)	0.66 (0.03, 13.48)	0.82 (0.05, 12.32)	0.70 (0.04, 12.77)		0.47 (0.15, 1.44)	-	-	-	0.73 (0.23, 2.26)
SRKT DK	5.13 (0.30, 90.12)	1.35 (0.08, 23.55)	0.33 (0.02, 6.31)	0.47 (0.02, 9.54)	0.99 (0.05, 19.41)	0.55 (0.04, 7.31)	0.66 (0.04, 11.39)	0.46 (0.01, 17.53)	3.68 (0.08, 168.00)	0.47 (0.03, 8.18)	0.16 (0.01, 3.82)	0.30 (0.01, 5.98)	0.37 (0.03, 5.39)	0.31 (0.02, 5.78)	0.46 (0.03, 7.87)		0.79 (0.30, 2.05)	-	0.79 (0.30, 2.05)	1.55 (0.54, 4.46)
SRKT Feiz-Mannis	4.01 (0.23, 68.91)	1.06 (0.02, 61.32)	0.26 (0.00, 15.85)	0.37 (0.01, 23.36)	0.78 (0.01, 46.62)	0.43 (0.01, 20.86)	0.52 (0.03, 8.69)	0.36 (0.00, 35.39)	2.88 (0.02, 332.60)	0.37 (0.02, 6.33)	0.13 (0.00, 8.85)	0.23 (0.00, 15.16)	0.29 (0.01, 14.21)	0.25 (0.00, 14.64)	0.36 (0.01, 19.83)	0.78 (0.05, 12.83)		-	1.00 (0.39, 2.56)	-
SRKT K	2.80 (0.04, 216.40)	0.74 (0.03, 19.53)	0.18 (0.01, 4.91)	0.26 (0.01, 7.12)	0.54 (0.02, 14.87)	0.30 (0.03, 3.14)	0.36 (0.01, 28.41)	0.25 (0.02, 3.79)	2.02 (0.11, 38.82)	0.26 (0.00, 20.06)	0.09 (0.00, 2.91)	0.16 (0.01, 4.87)	0.20 (0.01, 3.39)	0.17 (0.01, 4.29)	0.25 (0.01, 6.02)	0.54 (0.02, 12.99)	0.70 (0.01, 53.95)		-	0.57 (0.17, 1.93)
SRKT Ladas-Stark	4.06 (0.24, 70.52)	1.07 (0.02, 62.02)	0.26 (0.00, 15.31)	0.37 (0.01, 22.91)	0.77 (0.01, 48.40)	0.44 (0.01, 21.22)	0.52 (0.03, 8.77)	0.36 (0.00, 35.32)	2.91 (0.03, 336.20)	0.37 (0.02, 6.26)	0.13 (0.00, 8.54)	0.23 (0.00, 14.58)	0.29 (0.01, 14.89)	0.25 (0.00, 14.05)	0.36 (0.01, 20.29)	0.79 (0.05, 13.65)	1.00 (0.06, 16.65)	1.45 (0.02, 96.99)		-
SRKT TNP	4.85 (0.09, 239.20)	1.27 (0.08, 19.62)	0.31 (0.02, 5.20)	0.44 (0.02, 7.52)	0.92 (0.05, 16.07)	0.52 (0.05, 4.81)	0.62 (0.01, 32.52)	0.44 (0.03, 6.58)	3.46 (0.18, 61.45)	0.44 (0.01, 22.90)	0.15 (0.01, 3.15)	0.28 (0.01, 5.18)	0.35 (0.03, 4.09)	0.30 (0.02, 4.59)	0.43 (0.03, 6.30)	0.93 (0.06, 13.63)	1.22 (0.02, 60.79)	1.72 (0.16, 16.40)	1.20 (0.02, 58.13)

$Figure 71. Myopic corneal refractive surgery: within 1.0D – relative effect of all options versus common comparator.$

Figure 71Myopic corneal refractive surgery: within 1.0D – relative effect of all options versus common comparator

Table 120Myopic corneal refractive surgery: within 1.0D – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT Clinical history	0.001	19 (6, 20)
BESSt	0.003	14 (4, 20)
Camellin-Calossi	0.080	6 (1, 18)
Double-K	0.053	8 (1, 19)
Feiz-Mannis	0.010	13 (2, 20)
Haigis-L	0.008	9 (2, 17)
HofferQ DK	0.052	10 (1, 19)
HofferQ K	0.091	8 (1, 19)
HofferQ TNP	0.004	18 (4, 20)
Holladay2 DK	0.095	8 (1, 19)
Masket	0.290	3 (1, 16)
Modified Masket	0.119	6 (1, 18)
Shammas-PL	0.038	7 (1, 17)
SRKT A-P	0.080	6 (1, 17)
SRKT C-P	0.039	8 (1, 18)
SRKT DK	0.001	13 (4, 18)
SRKT Feiz-Mannis	0.016	14 (2, 20)
SRKT K	0.002	16 (4, 20)
SRKT Ladas-Stark	0.015	14 (2, 20)
SRKT TNP	0.002	13 (4, 19)

$Figure 72. Myopic corneal refractive surgery: within 1.0D – rank probability histograms.$

Figure 72Myopic corneal refractive surgery: within 1.0D – rank probability histograms

Table 121Myopic corneal refractive surgery: within 1.0D – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
27.01 (compared to 26 datapoints)	119.699	93.504	26.195	145.894	1.213 (95%CI: 0.294, 1.954)

Table 122Myopic corneal refractive surgery: within 1.0D – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

Pairwise Comparisons: Proportion Within 1.5 Dioptres and 2.0 Dioptres

$Figure 73. Myopic corneal refractive surgery: within 2.0D – evidence network.$

Figure 73Myopic corneal refractive surgery: within 2.0D – evidence network

Table 123Myopic corneal refractive surgery: within 2.0D – input data

	SRKT Clinical history	HofferQ DK	Holladay2 DK	SRKT DK	SRKT Feiz-Mannis	SRKT Ladas-Stark
Fam & (2008)	33/37	35/37	34/37	35/37	32/37	35/37

Table 124Myopic corneal refractive surgery: within 2.0D – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT Clinical history	HofferQ DK	Holladay2 DK	SRKT DK	SRKT Feiz-Mannis	SRKT Ladas-Stark
SRKT Clinical history		2.12 (0.36, 12.36)	1.37 (0.29, 6.61)	2.12 (0.36, 12.36)	0.78 (0.19, 3.15)	2.12 (0.36, 12.36)
HofferQ DK	2.32 (0.39, 19.84)		0.65 (0.10, 4.12)	1.00 (0.13, 7.50)	0.37 (0.07, 2.02)	1.00 (0.13, 7.50)
Holladay2 DK	1.42 (0.27, 8.24)	0.61 (0.07, 4.32)		1.54 (0.24, 9.82)	0.56 (0.12, 2.56)	1.54 (0.24, 9.82)
SRKT DK	2.33 (0.39, 19.87)	1.00 (0.10, 9.99)	1.63 (0.23, 15.74)		0.37 (0.07, 2.02)	1.00 (0.13, 7.50)
SRKT Feiz-Mannis	0.76 (0.17, 3.29)	0.33 (0.04, 1.74)	0.53 (0.10, 2.50)	0.33 (0.04, 1.81)		2.73 (0.50, 15.09)
SRKT Ladas-Stark	2.30 (0.39, 19.99)	0.99 (0.10, 9.99)	1.62 (0.23, 14.79)	0.99 (0.10, 10.03)	3.02 (0.56, 26.29)

$Figure 74. Myopic corneal refractive surgery: within 2.0D – relative effect of all options versus common comparator.$

Figure 74Myopic corneal refractive surgery: within 2.0D – relative effect of all options versus common comparator

Table 125Myopic corneal refractive surgery: within 2.0D – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT Clinical history	0.029	5 (1, 6)
HofferQ DK	0.292	2 (1, 6)
Holladay2 DK	0.093	4 (1, 6)
SRKT DK	0.294	2 (1, 6)
SRKT Feiz-Mannis	0.008	6 (2, 6)
SRKT Ladas-Stark	0.284	2 (1, 6)

$Figure 75. Myopic corneal refractive surgery: within 2.0D – rank probability histograms.$

Figure 75Myopic corneal refractive surgery: within 2.0D – rank probability histograms

Table 126Myopic corneal refractive surgery: within 2.0D – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
6.394 (compared to 6 datapoints)	23.465	17.567	5.898	29.364

Table 127Myopic corneal refractive surgery: within 2.0D – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

H.3.3.3. Sensitivity analyses: no historical data methods only

Figure 76Myopic CRS No historical data methods: within 0.5D – evidence network

Table 128Myopic CRS No historical data methods: within 0.5D – input data

	SRKT K	BESSt	Haigis-L	HofferQ K	HofferQ TNP	Shammas-PL	SRKT A-P	SRKT C-P	SRKT TNP
Xu et al. (2014)	4/37			6/37	3/37				3/37
Huang et al. (2013)			21/46			21/46
Kim et al. (2013)	5/47		30/47
Saiki et al. (2013)		3/28	6/25			7/28	13/28	12/25	5/28

Table 129Myopic CRS No historical data methods: within 0.5D – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT K	BESSt	Haigis-L	HofferQ K	HofferQ TNP	Shammas-PL	SRKT A-P	SRKT C-P	SRKT TNP
SRKT K		-	14.82 (4.93, 44.61)	1.60 (0.41, 6.20)	0.73 (0.15, 3.50)	-	-	-	0.73 (0.15, 3.50)
BESSt	1.91 (0.08, 36.38)		2.63 (0.58, 11.90)	-	-	2.78 (0.64, 12.10)	7.22 (1.76, 29.56)	7.69 (1.84, 32.20)	1.81 (0.39, 8.44)
Haigis-L	7.71 (0.83, 59.26)	3.99 (0.33, 55.38)		-	-	1.02 (0.51, 2.02)	2.74 (0.84, 8.94)	2.92 (0.87, 9.78)	0.69 (0.18, 2.61)
HofferQ K	2.94 (0.20, 38.58)	1.54 (0.05, 61.70)	0.38 (0.02, 8.18)		0.46 (0.10, 1.98)	-	-	-	0.46 (0.10, 1.98)
HofferQ TNP	1.25 (0.07, 17.11)	0.66 (0.02, 24.84)	0.16 (0.01, 3.45)	0.42 (0.02, 6.30)		-	-	-	1.00 (0.19, 5.31)
Shammas-PL	6.54 (0.44, 72.95)	3.38 (0.27, 48.07)	0.86 (0.14, 4.80)	2.21 (0.08, 50.70)	5.22 (0.21, 135.60)		2.60 (0.84, 8.07)	2.77 (0.87, 8.84)	0.65 (0.18, 2.37)
SRKT A-P	15.89 (0.76, 273.70)	8.16 (0.55, 144.60)	2.06 (0.19, 21.26)	5.34 (0.16, 156.30)	12.65 (0.36, 447.50)	2.43 (0.22, 26.60)		1.07 (0.36, 3.14)	0.25 (0.07, 0.85)
SRKT C-P	16.96 (0.78, 285.30)	8.84 (0.60, 153.10)	2.23 (0.20, 24.06)	5.74 (0.17, 166.20)	13.68 (0.40, 460.80)	2.58 (0.23, 29.24)	1.08 (0.08, 14.84)		0.24 (0.07, 0.82)
SRKT TNP	2.20 (0.21, 18.06)	1.16 (0.08, 19.14)	0.29 (0.04, 2.33)	0.75 (0.05, 9.28)	1.78 (0.12, 27.68)	0.34 (0.04, 3.41)	0.14 (0.01, 1.77)	0.13 (0.01, 1.72)

Figure 77Myopic CRS No historical data methods: within 0.5D – relative effect of all options versus common comparator

Table 130Myopic CRS No historical data methods: within 0.5D – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT K	0.002	8 (4, 9)
BESSt	0.008	7 (2, 9)
Haigis-L	0.061	3 (1, 7)
HofferQ K	0.057	6 (1, 9)
HofferQ TNP	0.015	8 (2, 9)
Shammas-PL	0.043	4 (1, 8)
SRKT A-P	0.379	2 (1, 7)
SRKT C-P	0.430	2 (1, 7)
SRKT TNP	0.004	6 (3, 9)

Figure 78Myopic CRS No historical data methods: within 0.5D – rank probability histograms

Table 131Myopic CRS No historical data methods: within 0.5D – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
14.86 (compared to 14 datapoints)	64.031	50.43	13.601	77.632	0.942 (95%CI: 0.066, 1.925)

Table 132Myopic CRS No historical data methods: within 0.5D – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

Figure 79Myopic CRS No historical data methods: within 1.0D – evidence network

Table 133Myopic CRS No historical data methods: within 1.0D – input data

	SRKT K	BESSt	Haigis-L	HofferQ K	HofferQ TNP	Shammas-PL	SRKT A-P	SRKT C-P	SRKT TNP
Xu et al. (2014)	8/37			14/37	3/37				5/37
Huang et al. (2013)			36/46			39/46
Kim et al. (2013)	16/47		38/47
Saiki et al. (2013)		12/28	13/25			20/28	21/28	17/25	17/28

Table 134Myopic CRS No historical data methods: within 1.0D – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT K	BESSt	Haigis-L	HofferQ K	HofferQ TNP	Shammas-PL	SRKT A-P	SRKT C-P	SRKT TNP
SRKT K		-	8.18 (3.18, 21.03)	2.21 (0.79, 6.16)	0.32 (0.08, 1.32)	-	-	-	0.57 (0.17, 1.93)
BESSt	1.36 (0.06, 29.93)		1.44 (0.49, 4.27)	-	-	3.33 (1.10, 10.12)	4.00 (1.28, 12.46)	2.83 (0.92, 8.73)	2.06 (0.71, 5.98)
Haigis-L	3.30 (0.32, 30.30)	2.40 (0.18, 32.35)		-	-	1.87 (0.86, 4.06)	2.77 (0.87, 8.84)	1.96 (0.62, 6.19)	1.43 (0.48, 4.25)
HofferQ K	3.93 (0.26, 60.17)	2.89 (0.07, 114.80)	1.20 (0.06, 28.92)		0.14 (0.04, 0.56)	-	-	-	0.26 (0.08, 0.81)
HofferQ TNP	0.50 (0.03, 8.27)	0.37 (0.01, 16.64)	0.15 (0.01, 4.08)	0.13 (0.01, 2.49)		-	-	-	1.77 (0.39, 8.02)
Shammas-PL	4.89 (0.29, 73.62)	3.59 (0.25, 51.59)	1.49 (0.20, 10.83)	1.23 (0.04, 37.75)	9.68 (0.28, 348.20)		1.20 (0.37, 3.92)	0.85 (0.26, 2.75)	0.62 (0.20, 1.89)
SRKT A-P	5.77 (0.23, 130.60)	4.24 (0.24, 76.73)	1.76 (0.13, 23.75)	1.46 (0.04, 56.18)	11.34 (0.26, 561.10)	1.19 (0.08, 16.70)		0.71 (0.21, 2.35)	0.52 (0.16, 1.62)
SRKT C-P	4.00 (0.16, 91.84)	2.94 (0.16, 53.66)	1.22 (0.09, 16.85)	1.00 (0.02, 39.47)	7.88 (0.18, 378.80)	0.82 (0.05, 12.06)	0.69 (0.04, 12.78)		0.73 (0.23, 2.26)
SRKT TNP	1.72 (0.16, 16.54)	1.27 (0.08, 19.13)	0.52 (0.06, 4.77)	0.43 (0.03, 6.28)	3.37 (0.19, 61.78)	0.35 (0.03, 4.05)	0.30 (0.02, 4.49)	0.43 (0.03, 6.83)

Figure 80Myopic CRS No historical data methods: within 1.0D – relative effect of all options versus common comparator

Table 135Myopic CRS No historical data methods: within 1.0D – rankings for each comparator

	Probability best	Median rank (95% CI)
SRKT K	0.008	7 (2, 9)
BESSt	0.022	7 (2, 9)
Haigis-L	0.053	4 (1, 8)
HofferQ K	0.233	4 (1, 8)
HofferQ TNP	0.010	9 (2, 9)
Shammas-PL	0.190	3 (1, 8)
SRKT A-P	0.303	2 (1, 8)
SRKT C-P	0.169	4 (1, 9)
SRKT TNP	0.012	6 (2, 9)

Figure 81Myopic CRS No historical data methods: within 1.0D – rank probability histograms

Table 136Myopic CRS No historical data methods: within 1.0D – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
14.54 (compared to 14 datapoints)	66.007	52.117	13.89	79.897	1.204 (95%CI: 0.298, 1.951)

Table 137Myopic CRS No historical data methods: within 1.0D – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

H.3.3.4. Sensitivity analysis: historical data methods only

Figure 82Myopic CRS Historical data methods: mean absolute error – evidence network

Table 138Myopic CRS Historical data methods: mean absolute error – input data

	Clinical history	HofferQ DK	Holladay2 DK	SRKT Clinical history	SRKT Diehl	SRKT DK	SRKT DK Awwad	SRKT DK Savini	SRKT DK Seitz/Speicher	SRKT DK Seitz/Speicher/Savini	SRKT DK Shammas	SRKT Feiz-Mannis	SRKT Feiz-Mannis nomogram	SRKT Ladas-Stark	SRKT Latkany	SRKT Masket	SRKT SK Ferrara	SRKT SK Rosa
Savini et al. (2010)	1.62 (1.25)				1.33 (1.03)	1.00 (0.57)	1.79 (1.13)	0.62 (0.52)	0.56 (0.45)	0.53 (0.46)	1.60 (0.98)	1.87 (1.44)	2.04 (1.48)	2.18 (1.52)	1.08 (0.86)	0.76 (0.49)	3.64 (1.45)	1.94 (1.01)
Fam & (2008)		0.75 (0.52)	0.75 (0.62)	1.32 (0.73)		0.76 (0.60)						0.93 (0.83)		0.80 (0.63)

Table 139Myopic CRS Historical data methods: mean absolute error – relative effectiveness of all pairwise combinations (MD and 95% credible interval)

	Clinical history	HofferQ DK	Holladay2 DK	SRKT Clinical history	SRKT Diehl	SRKT DK	SRKT DK Awwad	SRKT DK Savini	SRKT DK Seitz/Speicher	SRKT DK Seitz/Speicher/Savini	SRKT DK Shammas	SRKT Feiz-Mannis	SRKT Feiz-Mannis nomogram	SRKT Ladas-Stark	SRKT Latkany	SRKT Masket	SRKT SK Ferrara	SRKT SK Rosa
Clinical history		-	-	-	−0.29 (−0.89, 0.31)	−0.62 (−1.13, −0.11)	0.17 (−0.45, 0.79)	−1.00 (−1.50, −0.50)	−1.06 (−1.55, −0.57)	−1.09 (−1.58, −0.60)	−0.02 (−0.61, 0.57)	0.25 (−0.46, 0.96)	0.42 (−0.30, 1.14)	0.56 (−0.17, 1.29)	−0.54 (−1.10, 0.02)	−0.86 (−1.36, −0.36)	2.02 (1.31, 2.73)	0.32 (−0.28, 0.92)
HofferQ DK	−0.07 (−2.66, 2.54)		0.00 (−0.26, 0.26)	0.57 (0.28, 0.86)	-	0.01 (−0.25, 0.27)	-	-	-	-	-	0.18 (−0.14, 0.50)	-	0.05 (−0.21, 0.31)	-	-	-	-
Holladay2 DK	−0.08 (−2.63, 2.50)	0.00 (−2.16, 2.16)		0.57 (0.26, 0.88)	-	0.01 (−0.27, 0.29)	-	-	-	-	-	0.18 (−0.15, 0.51)	-	0.05 (−0.23, 0.33)	-	-	-	-
SRKT Clinical history	0.50 (−2.04, 3.08)	0.57 (−1.59, 2.72)	0.57 (−1.63, 2.74)		-	−0.56 (−0.86, −0.26)	-	-	-	-	-	−0.39 (−0.75, −0.03)	-	−0.52 (−0.83, −0.21)	-	-	-	-
SRKT Diehl	−0.30 (−2.52, 1.93)	−0.22 (−2.80, 2.29)	−0.22 (−2.77, 2.27)	−0.79 (−3.38, 1.74)		−0.33 (−0.77, 0.11)	0.46 (−0.11, 1.03)	−0.71 (−1.14, −0.28)	−0.77 (−1.19, −0.35)	−0.80 (−1.22, −0.38)	0.27 (−0.26, 0.80)	0.54 (−0.12, 1.20)	0.71 (0.04, 1.38)	0.85 (0.17, 1.53)	−0.25 (−0.75, 0.25)	−0.57 (−0.99, −0.15)	2.31 (1.65, 2.97)	0.61 (0.08, 1.14)
SRKT DK	−0.35 (−2.38, 1.74)	−0.27 (−2.26, 1.69)	−0.27 (−2.22, 1.68)	−0.84 (−2.84, 1.14)	−0.05 (−2.08, 2.02)		0.79 (0.32, 1.26)	−0.38 (−0.67, −0.09)	−0.44 (−0.71, −0.17)	−0.47 (−0.74, −0.20)	0.60 (0.18, 1.02)	0.48 (−0.20, 1.16)	1.04 (0.45, 1.63)	0.58 (−0.54, 1.69)	0.08 (−0.30, 0.46)	−0.24 (−0.52, 0.04)	2.64 (2.06, 3.22)	0.94 (0.51, 1.37)
SRKT DK Awwad	0.16 (−2.08, 2.37)	0.24 (−2.40, 2.74)	0.24 (−2.29, 2.75)	−0.34 (−2.92, 2.19)	0.45 (−1.80, 2.68)	0.51 (−1.57, 2.47)		−1.17 (−1.63, −0.71)	−1.23 (−1.68, −0.78)	−1.26 (−1.71, −0.81)	−0.19 (−0.74, 0.36)	0.08 (−0.60, 0.76)	0.25 (−0.44, 0.94)	0.39 (−0.31, 1.09)	−0.71 (−1.24, −0.18)	−1.03 (−1.49, −0.57)	1.85 (1.17, 2.53)	0.15 (−0.41, 0.71)
SRKT DK Savini	−1.00 (−3.26, 1.18)	−0.93 (−3.48, 1.53)	−0.92 (−3.44, 1.56)	−1.50 (−4.07, 0.97)	−0.71 (−2.90, 1.49)	−0.66 (−2.70, 1.34)	−1.17 (−3.33, 1.05)		−0.06 (−0.31, 0.19)	−0.09 (−0.35, 0.17)	0.98 (0.57, 1.39)	1.25 (0.68, 1.82)	1.42 (0.84, 2.00)	1.56 (0.96, 2.16)	0.46 (0.09, 0.83)	0.14 (−0.12, 0.40)	3.02 (2.45, 3.59)	1.32 (0.90, 1.74)
SRKT DK Seitz/Speicher	−1.07 (−3.31, 1.13)	−0.99 (−3.57, 1.51)	−0.98 (−3.56, 1.47)	−1.57 (−4.14, 0.94)	−0.77 (−2.97, 1.44)	−0.72 (−2.79, 1.25)	−1.23 (−3.44, 0.99)	−0.06 (−2.27, 2.15)		−0.03 (−0.27, 0.21)	1.04 (0.64, 1.44)	1.31 (0.75, 1.87)	1.48 (0.91, 2.05)	1.62 (1.03, 2.21)	0.52 (0.16, 0.88)	0.20 (−0.05, 0.45)	3.08 (2.52, 3.64)	1.38 (0.97, 1.79)
SRKT DK Seitz/Speicher/Savini	−1.10 (−3.32, 1.12)	−1.02 (−3.59, 1.46)	−1.02 (−3.56, 1.49)	−1.59 (−4.16, 0.92)	−0.80 (−3.03, 1.41)	−0.75 (−2.77, 1.23)	−1.26 (−3.44, 0.96)	−0.09 (−2.29, 2.10)	−0.03 (−2.24, 2.19)		1.07 (0.67, 1.47)	1.34 (0.78, 1.90)	1.51 (0.94, 2.08)	1.65 (1.06, 2.24)	0.55 (0.19, 0.91)	0.23 (−0.02, 0.48)	3.11 (2.55, 3.67)	1.41 (1.00, 1.82)
SRKT DK Shammas	−0.03 (−2.26, 2.22)	0.05 (−2.57, 2.55)	0.05 (−2.51, 2.56)	−0.52 (−3.16, 2.01)	0.26 (−1.94, 2.45)	0.32 (−1.74, 2.33)	−0.19 (−2.44, 2.08)	0.97 (−1.25, 3.22)	1.04 (−1.18, 3.25)	1.07 (−1.14, 3.29)		0.27 (−0.38, 0.92)	0.44 (−0.22, 1.10)	0.58 (−0.09, 1.25)	−0.52 (−1.00, −0.04)	−0.84 (−1.25, −0.43)	2.04 (1.39, 2.69)	0.34 (−0.18, 0.86)
SRKT Feiz-Mannis	0.17 (−1.88, 2.25)	0.24 (−1.79, 2.24)	0.24 (−1.76, 2.21)	−0.34 (−2.37, 1.66)	0.46 (−1.57, 2.55)	0.51 (−1.02, 2.10)	0.00 (−2.01, 2.11)	1.17 (−0.81, 3.24)	1.24 (−0.77, 3.30)	1.26 (−0.74, 3.32)	0.20 (−1.81, 2.24)		0.17 (−0.59, 0.93)	−0.05 (−0.38, 0.27)	−0.79 (−1.41, −0.17)	−1.11 (−1.67, −0.55)	1.77 (1.01, 2.53)	0.07 (−0.58, 0.72)
SRKT Feiz-Mannis nomogram	0.41 (−1.85, 2.68)	0.49 (−2.16, 3.01)	0.49 (−2.12, 3.02)	−0.09 (−2.72, 2.46)	0.71 (−1.55, 2.93)	0.76 (−1.32, 2.78)	0.25 (−1.98, 2.51)	1.42 (−0.78, 3.64)	1.48 (−0.73, 3.72)	1.51 (−0.72, 3.77)	0.44 (−1.83, 2.73)	0.25 (−1.84, 2.31)		0.14 (−0.65, 0.93)	−0.96 (−1.59, −0.33)	−1.28 (−1.86, −0.70)	1.60 (0.83, 2.37)	−0.10 (−0.76, 0.56)
SRKT Ladas-Stark	0.20 (−1.77, 2.31)	0.27 (−1.70, 2.30)	0.28 (−1.63, 2.28)	−0.29 (−2.28, 1.73)	0.50 (−1.47, 2.59)	0.55 (−0.98, 2.12)	0.05 (−1.91, 2.15)	1.21 (−0.73, 3.30)	1.27 (−0.68, 3.41)	1.30 (−0.66, 3.42)	0.23 (−1.75, 2.35)	0.04 (−1.49, 1.65)	−0.20 (−2.23, 1.91)		−1.10 (−1.75, −0.45)	−1.42 (−2.01, −0.83)	1.46 (0.68, 2.24)	−0.24 (−0.92, 0.44)
SRKT Latkany	−0.55 (−2.77, 1.63)	−0.47 (−3.02, 2.01)	−0.47 (−3.02, 2.03)	−1.05 (−3.60, 1.46)	−0.25 (−2.47, 1.94)	−0.20 (−2.26, 1.80)	−0.70 (−2.92, 1.54)	0.46 (−1.71, 2.65)	0.53 (−1.67, 2.71)	0.56 (−1.62, 2.76)	−0.51 (−2.71, 1.69)	−0.71 (−2.74, 1.30)	−0.96 (−3.18, 1.25)	−0.75 (−2.82, 1.21)		−0.32 (−0.69, 0.05)	2.56 (1.94, 3.18)	0.86 (0.37, 1.35)
SRKT Masket	−0.87 (−3.06, 1.34)	−0.79 (−3.34, 1.71)	−0.78 (−3.36, 1.71)	−1.36 (−3.93, 1.13)	−0.57 (−2.78, 1.61)	−0.52 (−2.56, 1.44)	−1.03 (−3.22, 1.20)	0.14 (−2.03, 2.29)	0.20 (−1.97, 2.40)	0.23 (−1.95, 2.43)	−0.84 (−3.03, 1.33)	−1.03 (−3.08, 0.94)	−1.28 (−3.52, 0.97)	−1.07 (−3.15, 0.87)	−0.32 (−2.50, 1.83)		2.88 (2.31, 3.45)	1.18 (0.76, 1.60)
SRKT SK Ferrara	2.01 (−0.24, 4.26)	2.08 (−0.53, 4.62)	2.09 (−0.49, 4.66)	1.52 (−1.09, 4.09)	2.31 (0.09, 4.55)	2.36 (0.29, 4.42)	1.86 (−0.36, 4.13)	3.02 (0.85, 5.24)	3.08 (0.88, 5.31)	3.11 (0.92, 5.36)	2.04 (−0.20, 4.28)	1.85 (−0.26, 3.93)	1.61 (−0.66, 3.86)	1.80 (−0.33, 3.83)	2.55 (0.35, 4.80)	2.87 (0.71, 5.11)		−1.70 (−2.35, −1.05)
SRKT SK Rosa	0.31 (−1.94, 2.54)	0.39 (−2.21, 2.92)	0.39 (−2.20, 2.89)	−0.18 (−2.73, 2.34)	0.61 (−1.56, 2.83)	0.66 (−1.41, 2.69)	0.15 (−2.02, 2.38)	1.32 (−0.86, 3.51)	1.39 (−0.81, 3.56)	1.41 (−0.79, 3.63)	0.35 (−1.84, 2.57)	0.16 (−1.92, 2.17)	−0.10 (−2.35, 2.14)	0.12 (−2.00, 2.07)	0.86 (−1.34, 3.06)	1.18 (−1.01, 3.40)	−1.69 (−3.96, 0.53)

Figure 83Myopic CRS Historical data methods: mean absolute error – relative effect of all options versus common comparator

Table 140Myopic CRS Historical data methods: mean absolute error – rankings for each comparator

	Probability best	Median rank (95% CI)
Clinical history	0.013	11 (2, 17)
HofferQ DK	0.027	10 (1, 17)
Holladay2 DK	0.027	10 (1, 17)
SRKT Clinical history	0.008	15 (3, 18)
SRKT Diehl	0.027	8 (1, 17)
SRKT DK	0.011	7 (2, 15)
SRKT DK Awwad	0.007	12 (3, 17)
SRKT DK Savini	0.191	3 (1, 14)
SRKT DK Seitz/Speicher	0.231	3 (1, 13)
SRKT DK Seitz/Speicher/Savini	0.257	3 (1, 13)
SRKT DK Shammas	0.013	10 (2, 17)
SRKT Feiz-Mannis	0.002	12 (4, 17)
SRKT Feiz-Mannis nomogram	0.005	14 (4, 18)
SRKT Ladas-Stark	0.001	12 (5, 17)
SRKT Latkany	0.050	6 (1, 16)
SRKT Masket	0.125	4 (1, 14)
SRKT SK Ferrara	0.000	18 (12, 18)
SRKT SK Rosa	0.005	13 (3, 17)

Figure 84Myopic CRS Historical data methods: mean absolute error – rank probability histograms

Table 141Myopic CRS Historical data methods: mean absolute error – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
21.08 (compared to 21 datapoints)	−20.673	−41.582	20.909	0.237	0.816 (95% CI: 0.246, 1.896)

Table 142Myopic CRS Historical data methods: mean absolute error – notes

Continuous (normal; identity link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

Figure 85Myopic CRS Historical data methods: within 0.5D – evidence network

Table 143Myopic CRS Historical data methods: within 0.5D – input data

	SRKT Clinical history	Double-K	Feiz-Mannis	HofferQ DK	Holladay2 DK	Masket	Modified Masket	SRKT DK	SRKT Feiz-Mannis	SRKT Ladas-Stark
Saiki et al. (2013)		4/12	1/12			4/12	5/12	5/28
Fam & (2008)	5/37			13/37	17/37			19/37	15/37	17/37

Table 144Myopic CRS Historical data methods: within 0.5D – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT Clinical history	Double-K	Feiz-Mannis	HofferQ DK	Holladay2 DK	Masket	Modified Masket	SRKT DK	SRKT Feiz-Mannis	SRKT Ladas-Stark
SRKT Clinical history		-	-	3.47 (1.09, 11.05)	5.44 (1.73, 17.06)	-	-	6.76 (2.16, 21.16)	4.36 (1.38, 13.76)	5.44 (1.73, 17.06)
Double-K	17.01 (2.37, 129.10)		0.18 (0.02, 1.95)	-	-	1.00 (0.18, 5.46)	1.43 (0.27, 7.52)	0.43 (0.09, 2.03)	-	-
Feiz-Mannis	2.25 (0.06, 27.09)	0.14 (0.00, 1.31)		-	-	5.50 (0.51, 59.01)	7.86 (0.75, 82.13)	2.39 (0.25, 23.01)	-	-
HofferQ DK	3.64 (1.18, 13.11)	0.22 (0.03, 1.40)	1.63 (0.15, 54.84)		1.57 (0.62, 4.00)	-	-	1.95 (0.77, 4.96)	1.26 (0.49, 3.23)	1.57 (0.62, 4.00)
Holladay2 DK	5.79 (1.90, 20.76)	0.35 (0.05, 2.21)	2.59 (0.24, 86.40)	1.59 (0.62, 4.16)		-	-	1.24 (0.50, 3.09)	0.80 (0.32, 2.02)	1.00 (0.40, 2.50)
Masket	17.16 (2.30, 133.70)	1.01 (0.17, 5.95)	7.55 (0.74, 251.90)	4.69 (0.70, 31.09)	2.93 (0.43, 19.25)		1.43 (0.27, 7.52)	0.43 (0.09, 2.03)	-	-
Modified Masket	24.98 (3.69, 185.20)	1.47 (0.27, 8.50)	11.05 (1.18, 359.00)	6.82 (1.10, 44.26)	4.31 (0.70, 27.60)	1.47 (0.26, 8.61)		0.30 (0.07, 1.37)	-	-
SRKT DK	7.18 (2.39, 25.50)	0.43 (0.09, 2.14)	3.19 (0.38, 96.87)	1.97 (0.78, 5.25)	1.24 (0.50, 3.19)	0.43 (0.09, 2.21)	0.29 (0.06, 1.39)		0.65 (0.26, 1.62)	0.81 (0.32, 2.01)
SRKT Feiz-Mannis	4.61 (1.50, 16.22)	0.28 (0.04, 1.75)	2.04 (0.19, 70.47)	1.26 (0.49, 3.31)	0.80 (0.31, 2.03)	0.27 (0.04, 1.80)	0.18 (0.03, 1.16)	0.64 (0.25, 1.62)		1.25 (0.50, 3.13)
SRKT Ladas-Stark	5.77 (1.90, 20.17)	0.35 (0.05, 2.18)	2.59 (0.24, 86.28)	1.59 (0.62, 4.11)	1.00 (0.40, 2.51)	0.34 (0.05, 2.27)	0.23 (0.04, 1.45)	0.80 (0.32, 2.02)	1.25 (0.50, 3.17)

Figure 86Myopic CRS Historical data methods: within 0.5D – relative effect of all options versus common comparator

Table 145Myopic CRS Historical data methods: within 0.5D – rankings for each comparator

	Probability best	Median rank (95% CI)
SRKT Clinical history	0.000	10 (9, 10)
Double-K	0.230	2 (1, 8)
Feiz-Mannis	0.003	9 (3, 10)
HofferQ DK	0.001	8 (4, 9)
Holladay2 DK	0.011	6 (2, 9)
Masket	0.234	2 (1, 8)
Modified Masket	0.503	1 (1, 6)
SRKT DK	0.005	4 (2, 8)
SRKT Feiz-Mannis	0.003	7 (3, 9)
SRKT Ladas-Stark	0.010	6 (2, 9)

Figure 87Myopic CRS Historical data methods: within 0.5D – rank probability histograms

Table 146Myopic CRS Historical data methods: within 0.5D – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
11.44 (compared to 11 datapoints)	48.9	37.768	11.132	60.032

Table 147Myopic CRS Historical data methods: within 0.5D – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

Figure 88Myopic CRS Historical data methods: within 1.0D – evidence network

Table 148Myopic CRS Historical data methods: within 1.0D – input data

	SRKT Clinical history	Double-K	Feiz-Mannis	HofferQ DK	Holladay2 DK	Masket	Modified Masket	SRKT DK	SRKT Feiz-Mannis	SRKT Ladas-Stark
Saiki et al. (2013)		8/12	6/12			10/12	9/12	14/28
Fam & (2008)	11/37			28/37	30/37			25/37	23/37	23/37

Table 149Myopic CRS Historical data methods: within 1.0D – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT Clinical history	Double-K	Feiz-Mannis	HofferQ DK	Holladay2 DK	Masket	Modified Masket	SRKT DK	SRKT Feiz-Mannis	SRKT Ladas-Stark
SRKT Clinical history		-	-	7.35 (2.63, 20.60)	10.13 (3.43, 29.93)	-	-	4.92 (1.84, 13.19)	3.88 (1.47, 10.23)	3.88 (1.47, 10.23)
Double-K	10.80 (1.92, 69.43)		0.50 (0.10, 2.60)	-	-	2.50 (0.36, 17.32)	1.50 (0.25, 8.84)	0.50 (0.12, 2.05)	-	-
Feiz-Mannis	5.20 (0.93, 28.97)	0.48 (0.08, 2.57)		-	-	5.00 (0.75, 33.21)	3.00 (0.53, 16.90)	1.00 (0.26, 3.87)	-	-
HofferQ DK	7.76 (2.82, 23.22)	0.72 (0.11, 4.27)	1.51 (0.27, 8.84)		1.38 (0.45, 4.20)	-	-	0.67 (0.24, 1.85)	0.53 (0.19, 1.44)	0.53 (0.19, 1.44)
Holladay2 DK	10.94 (3.78, 34.76)	1.02 (0.15, 6.16)	2.14 (0.36, 12.56)	1.41 (0.45, 4.37)		-	-	0.49 (0.17, 1.42)	0.38 (0.13, 1.10)	0.38 (0.13, 1.10)
Masket	30.55 (4.54, 309.80)	2.80 (0.40, 27.85)	5.91 (0.92, 57.06)	3.89 (0.56, 40.10)	2.77 (0.38, 29.29)		0.60 (0.08, 4.45)	0.20 (0.04, 1.08)	-	-
Modified Masket	16.88 (2.84, 124.70)	1.56 (0.25, 11.03)	3.27 (0.58, 22.60)	2.19 (0.34, 15.67)	1.55 (0.24, 11.70)	0.55 (0.06, 4.51)		0.33 (0.07, 1.50)	-	-
SRKT DK	5.12 (1.93, 14.38)	0.48 (0.10, 1.98)	1.00 (0.25, 4.05)	0.66 (0.23, 1.83)	0.47 (0.15, 1.37)	0.17 (0.02, 0.86)	0.31 (0.05, 1.31)		0.79 (0.30, 2.05)	0.79 (0.30, 2.05)
SRKT Feiz-Mannis	4.02 (1.53, 11.17)	0.37 (0.06, 2.07)	0.78 (0.14, 4.30)	0.52 (0.18, 1.41)	0.37 (0.12, 1.05)	0.13 (0.01, 0.89)	0.24 (0.03, 1.38)	0.79 (0.30, 2.05)		1.00 (0.39, 2.56)
SRKT Ladas-Stark	4.02 (1.54, 11.05)	0.38 (0.06, 2.06)	0.78 (0.14, 4.32)	0.52 (0.18, 1.42)	0.37 (0.12, 1.04)	0.13 (0.01, 0.89)	0.24 (0.03, 1.39)	0.78 (0.29, 2.08)	1.00 (0.39, 2.58)

Figure 89Myopic CRS Historical data methods: within 1.0D – relative effect of all options versus common comparator

Table 150Myopic CRS Historical data methods: within 1.0D – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT Clinical history	0.000	10 (9, 10)
Double-K	0.076	4 (1, 9)
Feiz-Mannis	0.007	7 (2, 10)
HofferQ DK	0.021	5 (2, 8)
Holladay2 DK	0.078	4 (1, 7)
Masket	0.592	1 (1, 5)
Modified Masket	0.225	2 (1, 8)
SRKT DK	0.000	7 (4, 9)
SRKT Feiz-Mannis	0.000	8 (4, 9)
SRKT Ladas-Stark	0.000	8 (4, 9)

Figure 90Myopic CRS Historical data methods: within 1.0D – rank probability histograms

Table 151Myopic CRS Historical data methods: within 1.0D – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
11.31 (compared to 11 datapoints)	49.357	38.204	11.152	60.509

Table 152Myopic CRS Historical data methods: within 1.0D – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

Figure 91Myopic CRS Historical data methods: within 2.0D – evidence network

Table 153Myopic CRS Historical data methods: within 2.0D – input data

	SRKT Clinical history	HofferQ DK	Holladay2 DK	SRKT DK	SRKT Feiz-Mannis	SRKT Ladas-Stark
Fam & (2008)	33/37	35/37	34/37	35/37	32/37	35/37

Table 154Myopic CRS Historical data methods: within 2.0D – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	SRKT Clinical history	HofferQ DK	Holladay2 DK	SRKT DK	SRKT Feiz-Mannis	SRKT Ladas-Stark
SRKT Clinical history		2.12 (0.36, 12.36)	1.37 (0.29, 6.61)	2.12 (0.36, 12.36)	0.78 (0.19, 3.15)	2.12 (0.36, 12.36)
HofferQ DK	2.32 (0.39, 19.84)		0.65 (0.10, 4.12)	1.00 (0.13, 7.50)	0.37 (0.07, 2.02)	1.00 (0.13, 7.50)
Holladay2 DK	1.42 (0.27, 8.24)	0.61 (0.07, 4.32)		1.54 (0.24, 9.82)	0.56 (0.12, 2.56)	1.54 (0.24, 9.82)
SRKT DK	2.33 (0.39, 19.87)	1.00 (0.10, 9.99)	1.63 (0.23, 15.74)		0.37 (0.07, 2.02)	1.00 (0.13, 7.50)
SRKT Feiz-Mannis	0.76 (0.17, 3.29)	0.33 (0.04, 1.74)	0.53 (0.10, 2.50)	0.33 (0.04, 1.81)		2.73 (0.50, 15.09)
SRKT Ladas-Stark	2.30 (0.39, 19.99)	0.99 (0.10, 9.99)	1.62 (0.23, 14.79)	0.99 (0.10, 10.03)	3.02 (0.56, 26.29)

Figure 92Myopic CRS Historical data methods: within 2.0D – relative effect of all options versus common comparator

Table 155Myopic CRS Historical data methods: within 2.0D – rankings for each comparator

	Probability best	Median rank (95%CI)
SRKT Clinical history	0.029	5 (1, 6)
HofferQ DK	0.292	2 (1, 6)
Holladay2 DK	0.093	4 (1, 6)
SRKT DK	0.294	2 (1, 6)
SRKT Feiz-Mannis	0.008	6 (2, 6)
SRKT Ladas-Stark	0.284	2 (1, 6)

Figure 93Myopic CRS Historical data methods: within 2.0D – rank probability histograms

Table 156Myopic CRS Historical data methods: within 2.0D – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
6.394 (compared to 6 datapoints)	23.465	17.567	5.898	29.364

Table 157Myopic CRS Historical data methods: within 2.0D – notes

Dichotomous synchronic (binomial; logit link); fixed effects
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

H.3.4. Intraocular lens constant optimisation – Network meta-analysis results

H.3.4.1. Model fit statistics for all outcomes

Table 158Model fit statistics used to select fixed or random effect models for all comparisons and outcomes

Studies	Outcome	Model	Total model DIC	Total model DIC (FE – RE)	Total residual deviance	No. of data-points	Between-study SD (95% CrI)	Preferred model
4 (Charalampidou, Day, Lee, Sharma)	Mean absolute error	FE	−21.74	2.116	17.87	14	-	FE
4 (Charalampidou, Day, Lee, Sharma)	Mean absolute error	RE	−23.856	2.116	13.56	14	0.216 (0.028, 1.093)	FE
3 (Aristodemou, Day, Eom)	Within 0.25D	FE	537.2	426.3	446.4	16	-	RE
3 (Aristodemou, Day, Eom)	Within 0.25D	RE	110.9	426.3	15.3	16	1.05 (0.59, 1.87)	RE
6 (Aristodemou, Charalampidou, Day, Eom, Fam, Lee)	Within 0.5D	FE	254.756	112.652	137.4	20	-	RE
6 (Aristodemou, Charalampidou, Day, Eom, Fam, Lee)	Within 0.5D	RE	142.104	112.652	19.72	20	0.900 (0.473, 1.776)	RE
7 (Aristodemou, Charalampidou, Day, Eom, Fam, Lee, Sharma)	Within 1.0D	FE	204.06	54.239	80.73	24	-	RE
7 (Aristodemou, Charalampidou, Day, Eom, Fam, Lee, Sharma)	Within 1.0D	RE	149.821	54.239	22.77	24	0.611 (0.284, 1.489)	RE
*1 (Lee – pairwise comparison)*	Within 1.5D	FE	-	-	-	-	-	FE

H.3.4.2. Full dataset

Figure 94Mean absolute error (RE) – evidence network

Table 159Mean absolute error (RE) – input data

	StandardIOLC	OptimisedLenstar	Pezero	ULIB	ULIBpersonalised
Sharma et al. (2014)	0.56 (0.40)			0.49 (0.50)
Day et al. (2012)	0.47 (0.39)		0.46 (0.39)
Day et al. (2012)	0.84 (0.53)		0.50 (0.37)
Day et al. (2012)	0.89 (0.80)		0.74 (0.58)
Day et al. (2012)	0.88 (0.53)		0.83 (0.61)
Charalampidou et al. (2010)				0.38 (0.31)	0.36 (0.30)
Lee et al. (2015)	0.67 (0.52)	0.55 (0.49)

Table 160Mean absolute error (RE) – relative effectiveness of all pairwise combinations (MD and 95% credible interval)

	StandardIOLC	OptimisedLenstar	Pezero	ULIB	ULIBpersonalised
StandardIOLC		−0.12 (−0.26, 0.02)	−0.13 (−0.33, 0.06)	−0.07 (−0.25, 0.11)	-
OptimisedLenstar	−0.12 (−0.26, 0.02)		-	-	-
Pezero	−0.08 (−0.17, 0.02)	0.05 (−0.12, 0.21)		-	-
ULIB	−0.07 (−0.25, 0.10)	0.05 (−0.17, 0.27)	0.01 (−0.19, 0.20)		−0.02 (−0.08, 0.04)
ULIBpersonalised	−0.09 (−0.27, 0.09)	0.03 (−0.20, 0.26)	−0.01 (−0.22, 0.19)	−0.02 (−0.08, 0.04)

Figure 95Mean absolute error (RE) – relative effect of all options versus common comparator

Table 161Mean absolute error (RE) – rankings for each comparator

	Probability best	Median rank (95%CI)
StandardIOLC	0.001	5 (3, 5)
OptimisedLenstar	0.494	2 (1, 5)
Pezero	0.167	3 (1, 5)
ULIB	0.063	3 (1, 5)
ULIBpersonalised	0.275	2 (1, 5)

Figure 96Mean absolute error (RE) – rank probability histograms

Table 162Mean absolute error (RE) – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC
17.87 (compared to 14 datapoints)	−32.725	−43.709	10.948	−21.740

Table 163Mean absolute error (FE) – notes

Continuous (normal; identity link); fixed effects
50000 burn-ins; 10000 recorded iterations

Figure 97Within 0.25 dioptres (RE) – evidence network

Table 164Within 0.25 dioptres (RE) – input data

	StandardIOLC	OptimisedK	Pezero
Eom et al. (2013)	34/123	38/123
Eom et al. (2013)	49/114	62/114
Day et al. (2012)	4/32		10/32
Day et al. (2012)	33/100		39/100
Day et al. (2012)	2/19		3/19
Day et al. (2012)	2/12		4/12
Aristodemou et al. (2011)	1170/6159		2525/6159
Aristodemou et al. (2011)	585/1949		1735/1949

Table 165Within 0.25 dioptres (RE) – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	StandardIOLC	OptimisedK	Pezero
StandardIOLC		1.37 (0.94, 2.00)	3.36 (1.11, 10.14)
OptimisedK	1.37 (0.25, 7.44)		-
Pezero	3.66 (1.21, 10.00)	2.66 (0.35, 19.12)

Figure 98Within 0.25 dioptres (RE) – relative effect of all options versus common comparator

Table 166Within 0.25 dioptres (RE) – rankings for each comparator

	Probability best	Median rank (95%CI)
StandardIOLC	0.005	3 (2, 3)
OptimisedK	0.147	2 (1, 3)
Pezero	0.848	1 (1, 2)

Figure 99Within 0.25 dioptres (RE) – rank probability histograms

Table 167Within 0.25 dioptres (RE) – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
15.33 (compared to 16 datapoints)	96.113	81.324	14.789	110.903	1.049 (95%CI: 0.585, 1.870)

Table 168Within 0.25 dioptres (RE) – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations (thinned from 500000)

Figure 100Within 0.5 dioptres (RE) – evidence network

Table 169Within 0.5 dioptres (RE) – input data

	StandardIOLC	OptimisedK	OptimisedKAL	OptimisedLenstar	Pezero
Eom et al. (2013)	68/123	78/123
Eom et al. (2013)	84/114	90/114
Day et al. (2012)	10/32				18/32
Day et al. (2012)	62/100				60/100
Day et al. (2012)	8/19				9/19
Day et al. (2012)	4/12				4/12
Aristodemou et al. (2011)	2587/6159				4373/6159
Aristodemou et al. (2011)	1111/1949				1793/1949
Fam & (2009)	43/90		57/90
Lee et al. (2015)	46/100			62/100

Table 170Within 0.5 dioptres (RE) – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	StandardIOLC	OptimisedK	OptimisedKAL	OptimisedLenstar	Pezero
StandardIOLC		1.38 (0.93, 2.04)	1.89 (1.04, 3.43)	1.92 (1.09, 3.37)	2.51 (1.31, 4.81)
OptimisedK	1.37 (0.31, 6.35)		-	-	-
OptimisedKAL	1.91 (0.21, 16.86)	1.38 (0.10, 18.75)		-	-
OptimisedLenstar	1.92 (0.22, 16.46)	1.40 (0.10, 19.34)	1.01 (0.05, 21.58)		-
Pezero	2.49 (0.92, 5.88)	1.81 (0.28, 9.91)	1.30 (0.12, 13.16)	1.30 (0.12, 12.99)

Figure 101Within 0.5 dioptres (RE) – relative effect of all options versus common comparator

Table 171SENSITIVITY ANALYSIS: Within 0.5 dioptres (RE) – rankings for each comparator

	Probability best	Median rank (95%CI)
StandardIOLC	0.001	4 (2, 5)
OptimisedK	0.103	3 (1, 5)
OptimisedKAL	0.282	3 (1, 5)
OptimisedLenstar	0.282	3 (1, 5)
Pezero	0.332	2 (1, 4)

Figure 102SENSITIVITY ANALYSIS: Within 0.5 dioptres (RE) – rank probability histograms

Table 172SENSITIVITY ANALYSIS: Within 0.5 dioptres (RE) – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
19.72 (compared to 20 datapoints)	123.021	103.938	19.083	142.104	0.900 (95%CI: 0.473, 1.776)

Table 173SENSITIVITY ANALYSIS: Within 0.5 dioptres (RE) – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations

Figure 103Within 1.0 dioptre (RE) – evidence network

Table 174Within 1.0 dioptre (RE) – input data

	StandardIOLC	OptimisedK	OptimisedKAL	OptimisedLenstar	Pezero	ULIB	ULIBpersonalised
Sharma et al. (2014)	44/51					44/51
Eom et al. (2013)	106/123	111/123
Eom et al. (2013)	110/114	111/114
Day et al. (2012)	23/32				28/32
Day et al. (2012)	91/100				92/100
Day et al. (2012)	12/19				14/19
Day et al. (2012)	6/12				6/12
Aristodemou et al. (2011)	4989/6159				5851/6159
Aristodemou et al. (2011)	1735/1949				1813/1949
Charalampidou et al. (2010)						205/214	205/214
Fam & (2009)	69/90		81/90
Lee et al. (2015)	76/100			82/100

Table 175Within 1.0 dioptre (RE) – relative effectiveness of all pairwise combinations (RR and 95% credible interval)

	StandardIOLC	OptimisedK	OptimisedKAL	OptimisedLenstar	Pezero	ULIB	ULIBpersonalised
StandardIOLC		1.45 (0.72, 2.92)	2.74 (1.18, 6.37)	1.44 (0.72, 2.86)	2.01 (1.03, 3.91)	1.00 (0.32, 3.09)	-
OptimisedK	1.45 (0.38, 5.49)		-	-	-	-	-
OptimisedKAL	2.86 (0.50, 16.69)	1.96 (0.22, 18.33)		-	-	-	-
OptimisedLenstar	1.45 (0.28, 7.79)	1.01 (0.12, 8.56)	0.51 (0.04, 5.71)		-	-	-
Pezero	2.12 (0.97, 4.17)	1.46 (0.30, 6.42)	0.74 (0.11, 4.55)	1.47 (0.22, 8.37)		-	-
ULIB	1.02 (0.15, 7.02)	0.69 (0.07, 7.62)	0.36 (0.03, 4.93)	0.70 (0.06, 9.19)	0.48 (0.06, 4.03)		1.00 (0.39, 2.57)
ULIBpersonalised	1.03 (0.07, 15.11)	0.71 (0.04, 15.08)	0.37 (0.01, 8.83)	0.72 (0.03, 17.42)	0.49 (0.03, 8.03)	1.02 (0.17, 6.18)

Figure 104Within 1.0 dioptre (RE) – relative effect of all options versus common comparator

Table 176Within 1.0 dioptre (RE) – rankings for each comparator

	Probability best	Median rank (95%CI)
StandardIOLC	0.000	5 (3, 7)
OptimisedK	0.089	4 (1, 7)
OptimisedKAL	0.452	2 (1, 7)
OptimisedLenstar	0.121	4 (1, 7)
Pezero	0.155	3 (1, 6)
ULIB	0.046	5 (1, 7)
ULIBpersonalised	0.137	5 (1, 7)

Figure 105Within 1.0 dioptre (RE) – rank probability histograms

Table 177Within 1.0 dioptre (RE) – model fit statistics

Residual deviance	Dbar	Dhat	pD	DIC	tau
22.77 (compared to 24 datapoints)	128.075	106.33	21.746	149.821	0.611 (95%CI: 0.284, 1.489)

Table 178Within 1.0 dioptre (RE) – notes

Dichotomous synchronic (binomial; logit link); random effects
Prior distribution for between-study heterogeneity: uniform (Min=0; Max=2)
50000 burn-ins; 10000 recorded iterations

PROPORTION WITHIN 1.5D – pairwise comparison

H.3.4.3. Wang 2011 (people with axial lengths >25mm): unconnected to networks

Prediction error

$Proportion of eyes with a hyperopic refractive outcome.$

Proportion of eyes with a hyperopic refractive outcome

H.3.5. Other considerations in biometry: Forest plots of outcomes

H.3.5.1. Second eye prediction refinement

50% adjusted of first eye prediction error vs unadjusted prediction

Mean absolute prediction errors

Cumulative proportion of eyes within various ranges of absolute prediction errors

Mean prediction errors

H.3.5.2. Comparison of results from using 100% adjusted and 50% adjusted first eye prediction error

Mean absolute prediction errors

Cumulative proportion of eyes within various ranges of absolute prediction errors

Mean prediction errors

H.4. Intraocular lens selection

Are different lens design (aspheric vs. spheric, plate vs. loop) effective in improving postoperative vision (refractive outcomes, optical aberrations) in cataract surgery?
Are different lens design (square-edged vs. round-edge, plate vs. loop) and material (hydrophilic acrylic, hydrophobic acrylic, collagen, hydroxyethyl methacrylate-based vs. silicone-based) effective in preventing posterior capsule opacification in cataract surgery?
Are tinted lenses effective in preventing the progression of age-related macular degeneration compared with colourless lenses in cataract surgery?
What is the optimal strategy to facilitate simultaneous distance and near vision following cataract surgery?
What is the optimal strategy to address pre-existing astigmatism in people undergoing cataract surgery?

H.4.1. Lens design

H.4.1.1. PMMA versus silicone

PCO score

Nd:YAG capsulotomy rate

H.4.1.2. PMMA versus hydrophobic acrylic

Nd:YAG capsulotomy rate

H.4.1.3. Hydrophobic acrylic versus silicone

BCDVA (decimal acuity)

PCO score

Nd:YAG capsulotomy rate

Lens decentration (mm)

Lens tilt (degrees)

H.4.1.4. Hydrophobic acrylic versus hydrophilic acrylic

BCDVA (decimal acuity)

Nd:YAG capsulotomy rate

H.4.1.5. Network meta-analyses (lens material)

PCO score (hydrophobic acrylic as reference category)

Pairwise mean differences from NMA

	Silicone	Hydrophobic acrylic	PMMA	Hydrophilic acrylic
Silicone	N/A
Hydrophobic acrylic	0.20 (−0.28, 0.68)	N/A
PMMA	7.99 (3.87, 12.11)	7.79 (3.64, 11.94)	N/A
Hydrophilic acrylic	75.50 (68.90, 82.09)	75.30 (68.71, 81.89)	67.51 (59.94, 75.08)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.1953; I^2 = 94.8%

Network graph

Comparison of direct and indirect evidence

Random effects model:  
                              comparison k prop      nma   direct    indir.     Diff     z  p-value 
 Hydrophilic acrylic:Hydrophobic acrylic 1 0.66 −75.2968 −94.2000  −39.0404 −55.1596 −7.79 < 0.0001 
                Hydrophilic acrylic:PMMA 1 0.25 −67.5094 −17.0000  −84.4988  67.4988  7.59 < 0.0001 
            Hydrophilic acrylic:Silicone 1 0.31 −75.4992 −45.2000  −89.2012  44.0012  6.06 < 0.0001 
                Hydrophobic acrylic:PMMA 0 0.00   7.7875        .    7.7875        .     .        . 
            Hydrophobic acrylic:Silicone 7 1.00  −0.2024  −0.2678   54.1836 −54.4513 −7.74 < 0.0001 
                           PMMA:Silicone 3 0.99  −7.9899  −6.6522 −209.3312 202.6790  7.80 < 0.0001 
 Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

PCO score (without hydrophilic acrylic - hydrophobic acrylic as reference category)

Pairwise mean differences from NMA

	Silicone	Hydrophobic acrylic	PMMA
Silicone	N/A
Hydrophobic acrylic	0.23 (−0.16, 0.62)	N/A
PMMA	6.65 (2.54, 10.77)	6.43 (2.29, 10.56)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.1242; I^2 = 92.9%

Network graph

Comparison of direct and indirect evidence

                   comparison k prop     nma  direct indir. Diff z p-value 
     Hydrophobic acrylic:PMMA 0    0  6.4250       . 6.4250    . .       . 
 Hydrophobic acrylic:Silicone 7    1 −0.2293 −0.2293      .    . .       . 
                PMMA:Silicone 3    1 −6.6544 −6.6544      .    . .       .  
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

Nd:YAG capsulotomy rate (hydrophobic acrylic as reference category)

Pairwise relative risks from NMA

	Silicone	Hydrophobic acrylic	PMMA	Hydrophilic acrylic
Silicone	N/A
Hydrophobic acrylic	1.02 (0.47, 2.23)	N/A
PMMA	2.98 (1.41, 6.32)	2.90 (1.27, 6.63)	N/A
Hydrophilic acrylic	3.33 (1.17, 9.50)	3.24 (1.38, 7.61)	1.12 (0.41, 3.00)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.5280; I^2 = 54.9%

Network graph

Comparison of direct and indirect evidence

Random effects model:  
                              comparison k prop    nma direct indir.    RoR     z  p-value 
 Hydrophilic acrylic:Hydrophobic acrylic 6 0.75 0.3090 0.2394 0.6723 0.3560 −1.02   0.3071 
                Hydrophilic acrylic:PMMA 1 0.47 0.8965 1.5472 0.5507 2.8094  1.02   0.3070 
            Hydrophilic acrylic:Silicone 0 0.00 0.3006      . 0.3006      .     .        . 
                Hydrophobic acrylic:PMMA 2 0.39 2.9013 6.0780 1.8222 3.3356  1.39   0.1645 
            Hydrophobic acrylic:Silicone 8 0.72 0.9727 0.6233 3.1085 0.2005 −1.82   0.0685 
                           PMMA:Silicone 6 0.74 0.3353 0.5477 0.0842 6.5060  2.15   0.0315 
 Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (RR) in network meta-analysis 
 direct     - Estimated treatment effect (RR) derived from direct evidence 
 indir.     - Estimated treatment effect (RR) derived from indirect evidence 
 RoR        - Ratio of Ratios (direct versus indirect) 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.4.1.6. Square-edge versus round-edge

BCDVA (decimal acuity)

PCO score

Nd:YAG capsulotomy rate

H.4.1.7. Loop versus 3-piece

UCDVA (logMAR)

BCDVA (logMAR)

BCDVA (decimal acuity)

PCO score

Nd:YAG capsulotomy rate

Lens decentration (mm)

Lens tilt (degrees)

H.4.1.8. Aspheric versus spheric

UCDVA (logMAR)

BCDVA (logMAR)

BCDVA (decimal acuity)

Contrast sensitivity (Pelli-Robson test)

Spherical aberrations

Higher-order aberrations

Comatic aberrations

PCO score

H.4.2. Tinted vs colourless lenses

H.4.2.1. Post-operative best corrected visual acuity (logMAR)

H.4.2.2. Post-operative best corrected visual acuity (logMAR) – OECD only

H.4.2.3. Overall post-operative colour vision

H.4.2.4. Post-operative colour vision in the blue light spectrum (photopic)

H.4.2.5. Post-operative colour vision in the blue light spectrum (photopic) – OECD only

H.4.2.6. Post-operative colour vision in the blue light spectrum (mesopic)

H.4.2.7. Post-operative colour vision in the blue light spectrum (mesopic) – OECD only

H.4.3. Multifocal vs monofocal intraocular lenses

H.4.3.1. Multifocal versus monofocal

Uncorrected distance visual acuity worse than 6/6

Corrected distance visual acuity worse than 6/6

Uncorrected near visual acuity worse than J3/J4 or equivalent

Mean uncorrected distance visual acuity (logMAR)

Mean corrected distance visual acuity

Mean uncorrected intermediate visual acuity

Mean corrected intermediate visual acuity

Mean uncorrected near visual acuity

Mean corrected near visual acuity

Spectacle dependence (any)

Spectacle dependence (distance or near)

Contrast sensitivity

Visual function

Patient satisfaction

Glare

Halos

H.4.3.2. Multifocal versus monovision

Visual acuity

Spectacle dependence

Contrast sensitivity

H.4.3.3. Refractive vs diffractive multifocal lenses

Uncorrected distance visual acuity

Spectacle dependence

Glare

Halo

H.4.3.4. Bifocal versus trifocal intraocular lenses

Uncorrected visual acuity

Corrected visual acuity

H.4.4. Multifocal vs monofocal intraocular lenses: network meta-analyses (monofocal lenses used as reference category)

H.4.4.1. Uncorrected distance visual acuity

Class-level analysis

Pairwise mean differences from NMA (higher number favour column)

	Monovision	Monofocal	Multifocal
Monovision	N/A
Monofocal	0.01 (−0.09, 0.11)	N/A
Multifocal	0.02 (−0.07, 0.11)	0.01 (−0.03, 0.05)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.0017; I^2 = 74.3%

Network graph

Comparison of direct and indirect evidence

Random effects model:  
            comparison prop     nma direct  indir. Diff z p-value 
  Monofocal:Monovision    0 −0.0126      . −0.0126    . .       . 
  Monofocal:Multifocal    1  0.0074 0.0074       .    . .       . 
 Monovision:Multifocal    1  0.0200 0.0200       .    . .       . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

Subdivided analysis

Pairwise mean differences from NMA (higher numbers favour column)

	Refractive	Monofocal	Monovision	Diffractive
Refractive	N/A
Monofocal	0.01 (−0.03, 0.04)	N/A
Monovision	0.02 (−0.06, 0.10)	0.01 (−0.07, 0.09)	N/A
Diffractive	0.04 (0.01, 0.07)	0.03 (−0.00, 0.07)	0.02 (−0.05, 0.09)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.0010; I^2 = 64.3%

Network graph

Comparison of direct and indirect evidence

Random effects model:  
             comparison prop     nma  direct  indir.    Diff     z  p-value 
  Diffractive:Monofocal 0.68 −0.0311 −0.0190 −0.0567  0.0377  0.98   0.3255 
 Diffractive:Monovision 1.00 −0.0200 −0.0200       .       .     .        . 
 Diffractive:Refractive 0.90 −0.0393 −0.0460  0.0241 −0.0702 −1.50   0.1335 
   Monofocal:Monovision 0.00  0.0111       .  0.0111       .     .        . 
   Monofocal:Refractive 0.78 −0.0082  0.0107 −0.0755  0.0862  2.06   0.0394 
  Monovision:Refractive 0.00 −0.0193       . −0.0193       .     .        . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.4.4.2. Uncorrected near visual acuity

Class-level analysis

Pairwise mean differences from NMA (higher number favour column)

	Multifocal	Monovision	Monofocal
Multifocal	N/A
Monovision	0.04 (−0.36, 0.44)	N/A
Monofocal	0.20 (0.04, 0.37)	0.16 (−0.27, 0.60)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.0416; I^2 = 98.3%

Network graph

Comparison of direct and indirect evidence

Random effects model:  
            comparison k prop     nma  direct  indir. Diff z p-value 
  Monofocal:Monovision 0    0 −0.1631       . −0.1631    . .       . 
  Monofocal:Multifocal 6    1 −0.2031 −0.2031       .    . .       . 
 Monovision:Multifocal 1    1 −0.0400 −0.0400       .    . .       . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

Subdivided analysis

Pairwise mean differences from NMA (higher numbers favour column)

	Diffractive	Monovision	Refractive	Monofocal
Diffractive	N/A
Monovision	0.04 (−0.33, 0.41)	N/A
Refractive	0.18 (−0.07, 0.43)	0.14 (−0.31, 0.59)	N/A
Monofocal	0.30 (0.09, 0.50)	0.26 (−0.17, 0.68)	0.12 (−0.07, 0.30)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.0359; I^2 = 98.1%

Network graph

Comparison of direct and indirect evidence

Random effects model:  
             comparison k prop     nma  direct  indir.    Diff     z  p-value 
  Diffractive:Monofocal 3 0.93  0.2967  0.2958  0.3074 −0.0115 −0.03   0.9776 
 Diffractive:Monovision 1 1.00  0.0400  0.0400       .       .     .        . 
 Diffractive:Refractive 1 0.46  0.1781  0.1376  0.2118 −0.0742 −0.29   0.7741 
   Monofocal:Monovision 0 0.00 −0.2567       . −0.2567       .     .        . 
   Monofocal:Refractive 4 0.95 −0.1186 −0.1075 −0.3348  0.2273  0.52   0.6034 
  Monovision:Refractive 0 0.00  0.1381       .  0.1381       .     .        . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.4.4.3. Spectacle dependence

Class-level analysis

Pairwise relative risks from NMA (higher number favour column)

	Multifocal	Monofocal	Monovision
Multifocal	N/A
Monofocal	1.52 (1.31, 1.76)	N/A
Monovision	2.47 (1.62, 3.78)	1.63 (1.04, 2.53)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.0436; I^2 = 81.0%

Network graph

Comparison of direct and indirect evidence

Random effects model:   
            comparison  k prop    nma direct indir. RoR z p-value  
  Monofocal:Monovision  0    0 1.6253      . 1.6253   . .       .  
  Monofocal:Multifocal 11    1 0.6576 0.6576      .   . .       .  
 Monovision:Multifocal  2    1 0.4046 0.4046      .   . .       .  
Legend:  
 comparison - Treatment comparison  
 prop       - Direct evidence proportion  
 nma        - Estimated treatment effect (RR) in network meta-analysis  
 direct     - Estimated treatment effect (RR) derived from direct evidence  
 indir.     - Estimated treatment effect (RR) derived from indirect evidence  
 RoR        - Ratio of Ratios (direct versus indirect)  
 z          - z-value of test for disagreement (direct versus indirect)  
 p-value    - p-value of test for disagreement (direct versus indirect)

Subdivided analysis

Pairwise mean differences from NMA (higher numbers favour column)

	Diffractive	Refractive	Monofocal	Monovision
Diffractive	N/A
Refractive	1.81 (1.33, 2.47)	N/A
Monofocal	2.18 (1.65, 2.89)	1.21 (0.94, 1.54)	N/A
Monovision	3.16 (1.83, 5.46)	1.75 (1.00, 3.06)	1.45 (0.82, 2.57)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.0970; I^2 = 83.9%

Network graph

Comparison of direct and indirect evidence

Random effects model:  
           comparison k prop    nma direct indir.    RoR     z  p-value 
  Diffractive:Monofocal 5 0.73 2.1829 1.8063 3.6192 0.4991 −2.16   0.0306 
 Diffractive:Monovision 1 0.61 3.1627 2.5830 4.3502 0.5938 −0.91   0.3623 
 Diffractive:Refractive 5 0.42 1.8101 3.2402 1.1804 2.7450  3.16   0.0016 
   Monofocal:Monovision 0 0.00 1.4488      . 1.4488      .     .        . 
   Monofocal:Refractive 6 0.81 0.8292 0.7148 1.5731 0.4544 −2.46   0.0139 
  Monovision:Refractive 1 0.47 0.5723 0.4345 0.7318 0.5937 −0.91   0.3623 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (RR) in network meta-analysis 
 direct     - Estimated treatment effect (RR) derived from direct evidence 
 indir.     - Estimated treatment effect (RR) derived from indirect evidence 
 RoR        - Ratio of Ratios (direct versus indirect) 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.4.4.4. Contrast sensitivity

Class-level analysis

Pairwise relative risks from NMA (higher number favour row)

	Multifocal	Monovision	Monofocal
Multifocal	N/A
Monovision	0.04 (0.00, 0.07)	N/A
Monofocal	0.09 (−0.08, 0.26)	0.05 (−0.12, 0.22)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.0010; I^2 = 23.8%

Network graph

Comparison of direct and indirect evidence

Fixed effect model:  
            comparison prop     nma  direct  indir. Diff z p-value 
  Monofocal:Monovision    0 −0.0520       . −0.0520    . .       . 
  Monofocal:Multifocal    1 −0.0894 −0.0894       .    . .       . 
 Monovision:Multifocal    1 −0.0373 −0.0373       .    . .       . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

Subdivided analysis

Pairwise mean differences from NMA (higher numbers favour row)

	Diffractive	Monovision	Refractive	Monofocal
Diffractive	N/A
Monovision	0.06 (0.02, 0.11)	N/A
Refractive	0.07 (−0.01, 0.15)	0.01 (−0.06, 0.08)	N/A
Monofocal	0.15 (0.04, 0.27)	0.09 (−0.02, 0.20)	0.08 (−0.00, 0.17)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0.0016; I^2 = 2.9%

Network graph

Comparison of direct and indirect evidence

Fixed effect model:   
             comparison prop     nma  direct  indir. Diff z p-value  
  Diffractive:Monofocal    0  0.1524       .  0.1524    . .       .  
 Diffractive:Monovision    1  0.0600  0.0600       .    . .       .  
 Diffractive:Refractive    0  0.0700       .  0.0700    . .       .  
   Monofocal:Monovision    0 −0.0924       . −0.0924    . .       .  
   Monofocal:Refractive    1 −0.0824 −0.0824       .    . .       .  
  Monovision:Refractive    1  0.0100  0.0100       .    . .       .  
Legend:  
 comparison - Treatment comparison  
 prop       - Direct evidence proportion  
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.4.4.5. Glare

Class-level analysis

Pairwise relative risks from NMA (higher number favour column)

	Monofocal	Monovision	Multifocal
Monofocal	N/A
Monovision	0.86 (0.66, 1.12)	N/A
Multifocal	1.21 (1.03, 1.43)	1.41 (1.14, 1.73)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0; I^2 = 0%

Network graph

Comparison of direct and indirect evidence

Fixed effect model:  
            comparison k prop    nma direct indir. RoR z p-value 
  Monofocal:Monovision 0    0 0.8596      . 0.8596   . .       . 
  Monofocal:Multifocal 8    1 1.2103 1.2103      .   . .       . 
 Monovision:Multifocal 1    1 1.4079 1.4079      .   . .       . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (RR) in network meta-analysis 
 direct     - Estimated treatment effect (RR) derived from direct evidence 
 indir.     - Estimated treatment effect (RR) derived from indirect evidence 
 RoR        - Ratio of Ratios (direct versus indirect) 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

Subdivided analysis

Pairwise mean differences from NMA (higher numbers favour row)

	Monovision	Monofocal	Diffractive	Refractive
Monovision	N/A
Monofocal	1.22 (0.93, 1.60)	N/A
Diffractive	1.41 (1.14, 1.73)	1.15 (0.97, 1.37)	N/A
Refractive	1.82 (1.35, 2.43)	1.49 (1.18, 1.88)	1.29 (1.05, 1.59)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0; I^2 = 0%

Network graph

Comparison of direct and indirect evidence

Fixed effect model:  
             comparison k prop    nma direct indir.    RoR     z  p-value 
  Diffractive:Monofocal 3 0.84 0.8670 0.8690 0.8565 1.0146  0.06   0.9520 
 Diffractive:Monovision 1 1.00 0.7103 0.7103      .      .     .        . 
 Diffractive:Refractive 4 0.74 1.2892 1.2878 1.2931 0.9959 −0.02   0.9863 
   Monofocal:Monovision 0 0.00 0.8193      . 0.8193      .     .        . 
   Monofocal:Refractive 5 0.43 1.4870 1.4984 1.4785 1.0134  0.06   0.9556 
  Monovision:Refractive 0 0.00 1.8151      . 1.8151      .     .        . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (RR) in network meta-analysis 
 direct     - Estimated treatment effect (RR) derived from direct evidence 
 indir.     - Estimated treatment effect (RR) derived from indirect evidence 
 RoR        - Ratio of Ratios (direct versus indirect) 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.4.4.6. Halo

Subdivided analysis

Pairwise relative risks from NMA (higher number favour column)

	Monofocal	Diffractive	Refractive
Monofocal	N/A
Diffractive	1.83 (1.50, 2.24)	N/A
Refractive	2.71 (2.05, 3.59)	1.48 (1.21, 1.81)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0; I^2 = 0%

Network graph

Comparison of direct and indirect evidence

Fixed effect model:  
             comparison k prop    nma direct indir.    RoR     z  p-value 
  Diffractive:Monofocal 4 0.97 0.5459 0.5539 0.3372 1.6427  0.82   0.4150 
 Diffractive:Refractive 4 0.97 1.4808 1.4535 2.5310 0.5743 −0.97   0.3338 
   Monofocal:Refractive 4 0.07 2.7125 4.6366 2.6083 1.7777  1.01   0.3108 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (RR) in network meta-analysis 
 direct     - Estimated treatment effect (RR) derived from direct evidence 
 indir.     - Estimated treatment effect (RR) derived from indirect evidence 
 RoR        - Ratio of Ratios (direct versus indirect) 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.4.5. Optimal strategy to address pre-existing astigmatism

Mean Visual Acuity – uncorrected distance (logMAR)

Proportion with visual acuity worse than 20/25 – uncorrected distance

Mean Visual Acuity – corrected distance (logMAR)

$Residual astigmatism (Refractive cylinder dioptres).$

Residual astigmatism (Refractive cylinder dioptres)

Spectacle dependence

Note: Non OECD country studies removed for meta-analysis

H.5. Wrong lens implant errors

What are the procedural causes of wrong lens implant errors?
What strategies should be adopted to reduce the risk of wrong lens implant errors?

There were no meta-analyses conducted for these questions.

H.6. Surgical timing and technique

What is the effectiveness of laser-assisted phacoemulsification cataract surgery compared with standard ultrasound phacoemulsification cataract surgery?
What is the effectiveness of bilateral simultaneous (rapid sequential) cataract surgery compared with unilateral eye surgery?
What is the appropriate timing of second eye surgery, taking into account issues such as refractive power after first eye surgery?

H.6.1. Laser-assisted cataract surgery

H.6.1.1. Intra-operative complications

H.6.1.2. Post-operative complications

H.6.1.3. Visual acuity (logMAR)

H.6.1.4. Duration of procedure (minutes)

H.6.2. Bilateral surgery

H.6.2.1. Bilateral simultaneous versus unilateral cataract surgery

Any intraoperative complication

Any postoperative complication

Any intra- or postoperative complication

Serious postoperative complications

Visual function

H.6.2.2. Second-eye surgery versus no second-eye surgery

Visual acuity (logMAR)

Contrast sensitivity

Visual function

H.7. Anaesthesia

What is the optimal type and administration of anaesthesia for cataract surgery?
What is the effectiveness of sedation as an adjunct to local anaesthesia during cataract surgery?
What is the effectiveness of hyaluronidase as an adjunct to local anaesthesia during cataract surgery?
In what circumstances should general anaesthesia be considered in phacoemulsification cataract surgery?

H.7.1. Type and administration of anaesthesia

H.7.1.1. Pain on application

Warmed (37 degrees) vs room temperature anaesthetic

Topical vs peribulbar anaesthesia

Topical vs sub-Tenon’s

H.7.1.2. Pain during surgery

Topical versus peribulbar

Topical versus retrobulbar

Topical versus topical with intracameral

Topical versus sub-Tenon’s

Peribulbar versus retrobulbar

H.7.1.3. Surgical complications

Topical versus topical with intracameral (adverse surgical event)

Peribulbar vs retrobulbar (conjunctival chemosis)

H.7.2. Network meta-analyses

H.7.2.1. Anaesthetic drug (lidocaine used as reference category)

Pain on application

Pairwise mean differences from NMA

	Benoxinate	Bupivacaine	Lidocaine	Levobupivacaine
Benoxinate	N/A
Bupivacaine	5.00 (3.61, 6.39)	N/A
Lidocaine	19.40 (16.08, 29.72)	14.40 (11.98, 16.82)	N/A
Levobupivacaine	22.90 (17.03, 21.77)	17.90 (11.06, 24.74)	3.50 (−2.89, 9.89)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0; I^2 = 0%

Network graph

Comparison of direct and indirect evidence

Fixed effect model:  
                  comparison prop     nma  direct  indir. Diff z p-value 
      Benoxinate:Bupivacaine    1  5.0000  5.0000       .    . .       . 
  Benoxinate:Levobupivacaine    0 22.9000       . 22.9000    . .       . 
        Benoxinate:Lidocaine    1 19.4000 19.4000       .    . .       . 
 Bupivacaine:Levobupivacaine    0 17.9000       . 17.9000    . .       . 
       Bupivacaine:Lidocaine    1 14.4000 14.4000       .    . .       . 
   Levobupivacaine:Lidocaine    1 −3.5000 −3.5000       .    . .       . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

Pain during surgery

Pairwise mean differences from NMA

	Benoxinate	Bupivacaine	Lidocaine	Levobupivacaine
Benoxinate	N/A
Bupivacaine	−30.00 (−39.53, −20.47)	N/A
Lidocaine	−55.00 (−63.66, −46.34)	−25.00 (−35.40, −14.60)	N/A
Levobupivacaine	−59.00 (−68.71, −49.29)	−29.00 (−40.29, −17.71)	−4.00 (−8.39, 0.39)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 0; I^2 = 0%

Network graph

Comparison of direct and indirect evidence

Fixed effect model:  
                  comparison prop      nma   direct   indir. Diff z p-value 
      Benoxinate:Bupivacaine    1 −30.0000 −30.0000        .    . .       . 
  Benoxinate:Levobupivacaine    0 −59.0000        . −59.0000    . .       . 
        Benoxinate:Lidocaine    1 −55.0000 −55.0000        .    . .       . 
 Bupivacaine:Levobupivacaine    0 −29.0000        . −29.0000    . .       . 
       Bupivacaine:Lidocaine    1 −25.0000 −25.0000        .    . .       . 
   Levobupivacaine:Lidocaine    1   4.0000   4.0000        .    . .       . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.7.2.2. Method of anaesthesia (topical used as reference category)

Pain on application

Pairwise mean differences from NMA

	Topical	sub-Tenon’s	Peribulbar	Retrobulbar
Topical	N/A
sub-Tenon’s	6.15 (−4.81, 17.11)	N/A
Peribulbar	8.86 (−4.57, 17.11)	2.71 (−14.63, 20.04)	N/A
Retrobulbar	49.10 (29.94, 68.26)	42.95 (20.88, 65.02)	40.24 (16.85, 63.64)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 89.5629; I^2 = 96.4%

Network graph

Comparison of direct and indirect evidence

Random effects model:  
              comparison prop      nma   direct   indir. Diff z p-value 
  Peribulbar:Retrobulbar    0  40.2431        .  40.2431    . .       . 
  Peribulbar:sub-Tenon’s    0  −2.7073        .  −2.7073    . .       . 
      Peribulbar:Topical    1  −8.8569  −8.8569        .    . .       . 
 Retrobulbar:sub-Tenon’s    0 −42.9504        . −42.9504    . .       . 
     Retrobulbar:Topical    1 −49.1000 −49.1000        .    . .       . 
     sub-Tenon’s:Topical    1  −6.1496  −6.1496        .    . .       . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

Pain during surgery

Pairwise mean differences from NMA

	Topical	Topical + intracameral	Peribulbar	Retrobulbar	sub-Tenon’s
Topical	N/A
Topical + intracameral	−2.73 (−7.84, 2.39)	N/A
Peribulbar	−6.49 (−10.96, −2.02)	−3.76 (−10.55, 3.03)	N/A
Retrobulbar	−7.50 (−12.28, −2.72)	−4.77 (−11.77, 2.23)	−1.01 (−6.62, 4.61)	N/A
sub-Tenon’s	−12.97 (−21.62, −4.31)	−10.24 (−20.29, −0.19)	−6.48 (−16.21, 3.26)	−5.47 (−15.35, 4.41)	N/A

Quantifying heterogeneity/inconsistency:

tau^2 = 26.0174; I^2 = 82.2%

Network graph

Comparison of direct and indirect evidence

Random effects model:  
                         comparison prop     nma  direct  indir.    Diff     z  p-value 
             Peribulbar:Retrobulbar 0.42 −1.0076 −0.3423 −1.4877  1.1454  0.20   0.8435 
             Peribulbar:sub-Tenon’s 0.00 −6.4774       . −6.4774       .     .        . 
                 Peribulbar:Topical 0.81  6.4896  6.2715  7.4172 −1.1457 −0.20   0.8435 
  Peribulbar:Topical + intracameral 0.00  3.7619       .  3.7619       .     .        . 
            Retrobulbar:sub-Tenon’s 0.00 −5.4699       . −5.4699       .     .        . 
                Retrobulbar:Topical 0.77  7.4972  7.7593  6.6139  1.1454  0.20   0.8435 
 Retrobulbar:Topical + intracameral 0.00  4.7695       .  4.7695       .     .        . 
                sub-Tenon’s:Topical 1.00 12.9671 12.9671       .       .     .        . 
 sub-Tenon’s:Topical + intracameral 0.00 10.2393       . 10.2393       .     .        . 
     Topical:Topical + intracameral 1.00 −2.7277 −2.7277       .       .     .        . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.8. Preventing and managing complications

What is the effectiveness of interventions (for example, prophylactic laser surgery) to prevent retinal detachment in people with myopia undergoing cataract surgery?
What is the effectiveness of capsular tension rings applied during phacoemulsification cataract surgery?
What is the effectiveness of interventions to increase pupil size to improve visual outcomes and reduce complications during phacoemulsification cataract surgery?
What is the effectiveness of postoperative eye shields to prevent complications after cataract extraction?
What is the effectiveness of prophylactic antiseptics (for example, topical iodine) and antibiotics to prevent endophthalmitis after cataract surgery?
What is the effectiveness of prophylactic topical corticosteroids and/or NSAIDs to prevent inflammation and cystoid macular oedema after phacoemulsification cataract surgery?
What is the effectiveness of interventions to reduce the impact of perioperative posterior capsule rupture?
What is the effectiveness of interventions used to manage cystoid macular oedema following cataract surgery?

H.8.1. Capsular tension rings

H.8.1.1. Full population

CDVA (3 months postoperatively)

UDVA (3 months postoperatively)

H.8.1.2. People with pseudoexfoliation

Zonular dehiscence

IOL in the bag successfully

H.8.2. Intervention to prevent cystoid macular oedema

H.8.2.1. Pairwise meta-analyses

NSAIDs plus steroids vs steroids

Poor vision due to CMO

CMO

Inflammation (events)

BCVA [logMAR]

NSAIDs vs steroids

CMO

Inflammation (flare) [photons/ms]

BCVA [logMAR]

NSAIDs plus steroids vs steroids (population with diabetic retinopathy)

CMO

BCVA [logMAR]

Proportion losing 5 or more letters of BCVA

H.8.2.2. Network meta-analyses (steroids used as reference category)

BCVA [logMAR]

Number of studies: k=9

Number of treatments: n=3

Number of pairwise comparisons: m=11

Differences between treatments – mean and 95% confidence interval

	NSAIDs	NSAIDs + steroids	Steroids
NSAIDs		0.0038 [−0.0298, 0.0373]	−0.0044 [−0.0319, 0.0232]
NSAIDs + Steroids	−0.0038 [−0.0373, 0.0298]		−0.0081 [−0.0273, 0.0110]
Steroids	0.0044 [−0.0232, 0.0319]	0.0081 [−0.0110, 0.0273]

Quantifying heterogeneity/inconsistency:

tau^2 = 0.0003; I^2 = 63.2%

Test of heterogeneity/inconsistency:

Q d.f. p-value

21.72 8 0.005

Network graph

Comparison of direct and indirect evidence

Random effects model:  
                  comparison prop     nma  direct  indir.    Diff     z  p-value 
   NSAIDS:NSAIDS + steroids     0 −0.0038 −0.1050 −0.0033 −0.1017 −0.38   0.7029 
             NSAIDS:steroids    1  0.0044  0.0046 −0.1175  0.1220  0.32   0.7456 
 NSAIDS + steroids :steroids    1  0.0081  0.0081       .       .     .        . 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

CMO

Number of studies: k=12

Number of treatments: n=3

Number of pairwise comparisons: m=14

Differences between treatments – mean and 95% confidence interval

	NSAIDs	NSAIDs + steroids	Steroids
NSAIDs		1.0869 [0.5102, 2.3156]	0.2639 [0.1694, 0.4109]
NSAIDs + steroids	0.9200 [0.4319, 1.9600]		0.2428 [0.1310, 0.4500]
Steroids	3.7897 [2.4336, 5.9016]	4.1191 [2.2225, 7.6343]

Quantifying heterogeneity/inconsistency:

tau^2 = 0; I^2 = 0%

Test of heterogeneity/inconsistency:

Q d.f. p-value

4.68 11 0.9455

Network graph

Comparison of direct and indirect evidence

Random effects model:  
                  comparison prop    nma direct  indir.    RoR     z  p-value 
   NSAIDS:NSAIDS + steroids  0.04 0.9200 1.0417  0.9155 1.1378  0.06   0.9490 
             NSAIDS:steroids 1.00 3.7897 3.7776 18.8152 0.2008 −0.32   0.7509 
 NSAIDS + steroids :steroids 1.00 4.1191 4.1019 11.6442 0.3523 −0.21   0.8343 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (RR) in network meta-analysis 
 direct     - Estimated treatment effect (RR) derived from direct evidence 
 indir.     - Estimated treatment effect (RR) derived from indirect evidence 
 RoR        - Ratio of Ratios (direct versus indirect) 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

Inflammation (flare) [photons/ms]

Number of studies: k=5

Number of treatments: n=3

Number of pairwise comparisons: m=7

Differences between treatments – Mean and 95% confidence interval

	NSAIDs	NSAIDs + steroids	Steroids
NSAIDs		2.1419 [−1.1857, 5.4694]	−1.6413 [−3.4897, 0.2070]
NSAIDs + steroids	−2.1419 [−5.4694, 1.1857]		−3.7832 [−7.2631, −0.3033]
Steroids	1.6413 [−0.2070, 3.4897]	3.7832 [0.3033, 7.2631]

Quantifying heterogeneity/inconsistency:

tau^2 = 2.8678; I^2 = 68.5%

Test of heterogeneity/inconsistency:

Q d.f. p-value

12.69 4 0.0129

Network graph

Comparison of direct and indirect evidence

Random effects model:  
                  comparison prop     nma  direct  indir.    Diff     z  p-value 
   NSAIDS:NSAIDS + steroids  0.85 −2.1419 −2.4000 −0.6558 −1.7442 −0.36   0.7152 
             NSAIDS:steroids 1.00  1.6413  1.6413       .       .     .        . 
 NSAIDS + steroids :steroids 0.64  3.7832  3.3000  4.6516 −1.3516 −0.36   0.7152 
Legend: 
 comparison - Treatment comparison 
 prop       - Direct evidence proportion 
 nma        - Estimated treatment effect (MD) in network meta-analysis 
 direct     - Estimated treatment effect (MD) derived from direct evidence 
 indir.     - Estimated treatment effect (MD) derived from indirect evidence 
 Diff       - Difference between direct and indirect treatment estimates 
 z          - z-value of test for disagreement (direct versus indirect) 
 p-value    - p-value of test for disagreement (direct versus indirect)

H.9. Postoperative assessment

What are the early and late complications of cataract surgery?
What should the postoperative assessment include?
Who and in what setting should carry out the postoperative assessment?
What issues should be considered when organising postoperative care?
What is the appropriate time to assess outcomes in the postoperative period?
If the postoperative assessment and care are undertaken outside of the hospital, how should outcomes between surgical units and these providers be effectively communicated?

H.9.1. Details of postoperative assessment

H.9.1.1. Complications

H.9.1.2. CDVA

H.9.1.3. Unscheduled visits

Bookshelf ID: NBK536568

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Cataracts in adults: management. London: National Institute for Health and Care Excellence (NICE); 2017 Oct. (NICE Guideline, No. 77.) Appendix H, Meta-analysis and Network meta-analysis Results.
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Meta-analysis and Network meta-analysis Results - Cataracts in adults: managemen...
Meta-analysis and Network meta-analysis Results - Cataracts in adults: management
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