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Left ventricular noncompaction

MedGen UID:
450531
Concept ID:
C1960469
Disease or Syndrome
Synonyms: Left ventricular hypertrabeculation; left ventricular hypertrabeculation; left ventricular non-compaction cardiomyopathy; left ventricular non-compaction syndrome; left ventricular noncompaction; left ventricular noncompaction (disease); Lv non-compaction syndrome; LVNC; spongy myocardium; Spongy myocardium
Modes of inheritance:
Autosomal recessive inheritance
MedGen UID:
141025
Concept ID:
C0441748
Intellectual Product
Source: Orphanet
A mode of inheritance that is observed for traits related to a gene encoded on one of the autosomes (i.e., the human chromosomes 1-22) in which a trait manifests in individuals with two pathogenic alleles, either homozygotes (two copies of the same mutant allele) or compound heterozygotes (whereby each copy of a gene has a distinct mutant allele).
Autosomal dominant inheritance
MedGen UID:
141047
Concept ID:
C0443147
Intellectual Product
Source: Orphanet
A mode of inheritance that is observed for traits related to a gene encoded on one of the autosomes (i.e., the human chromosomes 1-22) in which a trait manifests in heterozygotes. In the context of medical genetics, an autosomal dominant disorder is caused when a single copy of the mutant allele is present. Males and females are affected equally, and can both transmit the disorder with a risk of 50% for each child of inheriting the mutant allele.
Mitochondrial inheritance
MedGen UID:
165802
Concept ID:
C0887941
Genetic Function
Source: Orphanet
A mode of inheritance that is observed for traits related to a gene encoded on the mitochondrial genome. Because the mitochondrial genome is essentially always maternally inherited, a mitochondrial condition can only be transmitted by females, although the condition can affect both sexes. The proportion of mutant mitochondria can vary (heteroplasmy).
X-linked recessive inheritance
MedGen UID:
375779
Concept ID:
C1845977
Finding
Source: Orphanet
A mode of inheritance that is observed for recessive traits related to a gene encoded on the X chromosome. In the context of medical genetics, X-linked recessive disorders manifest in males (who have one copy of the X chromosome and are thus hemizygotes), but generally not in female heterozygotes who have one mutant and one normal allele.
 
HPO: HP:0030682
Monarch Initiative: MONDO:0018901
OMIM® Phenotypic series: PS604169
Orphanet: ORPHA54260

Definition

Left ventricular noncompaction is a heart (cardiac) muscle disorder that occurs when the lower left chamber of the heart (left ventricle), which helps the heart pump blood, does not develop correctly. Instead of the muscle being smooth and firm, the cardiac muscle in the left ventricle is thick and appears spongy. The abnormal cardiac muscle is weak and has an impaired ability to pump blood because it either cannot completely contract or it cannot completely relax. For the heart to pump blood normally, cardiac muscle must contract and relax fully.

Some individuals with left ventricular noncompaction experience no symptoms at all; others have heart problems that can include sudden cardiac death. Additional signs and symptoms include abnormal blood clots, irregular heart rhythm (arrhythmia), a sensation of fluttering or pounding in the chest (palpitations), extreme fatigue during exercise (exercise intolerance), shortness of breath (dyspnea), fainting (syncope), swelling of the legs (lymphedema), and trouble laying down flat. Some affected individuals have features of other heart defects. Left ventricular noncompaction can be diagnosed at any age, from birth to late adulthood. Approximately two-thirds of individuals with left ventricular noncompaction develop heart failure. [from MedlinePlus Genetics]

Term Hierarchy

CClinical test,  RResearch test,  OOMIM,  GGeneReviews,  VClinVar  
  • CROGVLeft ventricular noncompaction
Follow this link to review classifications for Left ventricular noncompaction in Orphanet.

Conditions with this feature

Dilated cardiomyopathy 1D
MedGen UID:
316943
Concept ID:
C1832243
Disease or Syndrome
Left ventricular noncompaction is a heart (cardiac) muscle disorder that occurs when the lower left chamber of the heart (left ventricle), which helps the heart pump blood, does not develop correctly. Instead of the muscle being smooth and firm, the cardiac muscle in the left ventricle is thick and appears spongy. The abnormal cardiac muscle is weak and has an impaired ability to pump blood because it either cannot completely contract or it cannot completely relax. For the heart to pump blood normally, cardiac muscle must contract and relax fully.\n\nSome individuals with left ventricular noncompaction experience no symptoms at all; others have heart problems that can include sudden cardiac death. Additional signs and symptoms include abnormal blood clots, irregular heart rhythm (arrhythmia), a sensation of fluttering or pounding in the chest (palpitations), extreme fatigue during exercise (exercise intolerance), shortness of breath (dyspnea), fainting (syncope), swelling of the legs (lymphedema), and trouble laying down flat. Some affected individuals have features of other heart defects. Left ventricular noncompaction can be diagnosed at any age, from birth to late adulthood. Approximately two-thirds of individuals with left ventricular noncompaction develop heart failure.
Dilated cardiomyopathy 1C
MedGen UID:
316944
Concept ID:
C1832244
Disease or Syndrome
An autosomal dominant subtype of dilated cardiomyopathy caused by mutation(s) in the LDB3 gene, encoding LIM domain-binding protein 3.
Sick sinus syndrome 2, autosomal dominant
MedGen UID:
320273
Concept ID:
C1834144
Disease or Syndrome
Sick sinus syndrome (also known as sinus node dysfunction) is a group of related heart conditions that can affect how the heart beats. "Sick sinus" refers to the sino-atrial (SA) node, which is an area of specialized cells in the heart that functions as a natural pacemaker. The SA node generates electrical impulses that start each heartbeat. These signals travel from the SA node to the rest of the heart, signaling the heart (cardiac) muscle to contract and pump blood. In people with sick sinus syndrome, the SA node does not function normally. In some cases, it does not produce the right signals to trigger a regular heartbeat. In others, abnormalities disrupt the electrical impulses and prevent them from reaching the rest of the heart.\n\nSick sinus syndrome tends to cause the heartbeat to be too slow (bradycardia), although occasionally the heartbeat is too fast (tachycardia). In some cases, the heartbeat rapidly switches from being too fast to being too slow, a condition known as tachycardia-bradycardia syndrome. Symptoms related to abnormal heartbeats can include dizziness, light-headedness, fainting (syncope), a sensation of fluttering or pounding in the chest (palpitations), and confusion or memory problems. During exercise, many affected individuals experience chest pain, difficulty breathing, or excessive tiredness (fatigue). Once symptoms of sick sinus syndrome appear, they usually worsen with time. However, some people with the condition never experience any related health problems.\n\nSick sinus syndrome occurs most commonly in older adults, although it can be diagnosed in people of any age. The condition increases the risk of several life-threatening problems involving the heart and blood vessels. These include a heart rhythm abnormality called atrial fibrillation, heart failure, cardiac arrest, and stroke.
Dilated cardiomyopathy 1S
MedGen UID:
371831
Concept ID:
C1834481
Disease or Syndrome
Any familial isolated dilated cardiomyopathy in which the cause of the disease is a mutation in the MYH7 gene.
Left ventricular noncompaction 1
MedGen UID:
349005
Concept ID:
C1858725
Disease or Syndrome
Left ventricular noncompaction (LVNC) is characterized by numerous prominent trabeculations and deep intertrabecular recesses in hypertrophied and hypokinetic segments of the left ventricle (Sasse-Klaassen et al., 2004). The mechanistic basis is thought to be an intrauterine arrest of myocardial development with lack of compaction of the loose myocardial meshwork. LVNC may occur in isolation or in association with congenital heart disease. Distinctive morphologic features can be recognized on 2-dimensional echocardiography (Kurosaki et al., 1999). Noncompaction of the ventricular myocardium is sometimes referred to as spongy myocardium. Stollberger et al. (2002) commented that the term 'isolated LVNC,' meaning LVNC without coexisting cardiac abnormalities, is misleading, because additional cardiac abnormalities are found in nearly all patients with LVNC. Genetic Heterogeneity of Left Ventricular Noncompaction A locus for autosomal dominant left ventricular noncompaction has been identified on chromosome 11p15 (LVNC2; 609470). LVNC3 (see 605906) is caused by mutation in the LDB3 gene (605906) on chromosome 10q23. LVNC4 (see 613424) is caused by mutation in the ACTC1 gene (102540) on chromosome 15q14. LVNC5 (see 613426) is caused by mutation in the MYH7 gene (160760) on chromosome 14q12. LVNC6 (see 601494) is caused by mutation in the TNNT2 gene (191045) on chromosome 1q32. LVNC7 (615092) is caused by mutation in the MIB1 gene (608677) on chromosome 18q11. LVNC8 (615373) is caused by mutation in the PRDM16 gene (605557) on chromosome 1p36. LVNC9 (see 611878) is caused by mutation in the TPM1 gene (191010) on chromosome 15q22. LVNC10 (615396) is caused by mutation in the MYBPC3 gene (600958) on chromosome 11p11. LVNC can also occur as part of an X-linked disorder, Barth syndrome (302060), caused by mutation in the TAZ gene (300394) on chromosome Xq28.
Dilated cardiomyopathy 1AA
MedGen UID:
393713
Concept ID:
C2677338
Disease or Syndrome
Any familial isolated dilated cardiomyopathy in which the cause of the disease is a mutation in the ACTN2 gene.
Dilated cardiomyopathy 1R
MedGen UID:
462031
Concept ID:
C3150681
Disease or Syndrome
Any familial isolated dilated cardiomyopathy in which the cause of the disease is a mutation in the ACTC1 gene.
Dilated cardiomyopathy 1GG
MedGen UID:
462248
Concept ID:
C3150898
Disease or Syndrome
Any familial isolated dilated cardiomyopathy in which the cause of the disease is a mutation in the SDHA gene.
Left ventricular noncompaction 7
MedGen UID:
767410
Concept ID:
C3554496
Disease or Syndrome
Some individuals with left ventricular noncompaction experience no symptoms at all; others have heart problems that can include sudden cardiac death. Additional signs and symptoms include abnormal blood clots, irregular heart rhythm (arrhythmia), a sensation of fluttering or pounding in the chest (palpitations), extreme fatigue during exercise (exercise intolerance), shortness of breath (dyspnea), fainting (syncope), swelling of the legs (lymphedema), and trouble laying down flat. Some affected individuals have features of other heart defects. Left ventricular noncompaction can be diagnosed at any age, from birth to late adulthood. Approximately two-thirds of individuals with left ventricular noncompaction develop heart failure.\n\nLeft ventricular noncompaction is a heart (cardiac) muscle disorder that occurs when the lower left chamber of the heart (left ventricle), which helps the heart pump blood, does not develop correctly. Instead of the muscle being smooth and firm, the cardiac muscle in the left ventricle is thick and appears spongy. The abnormal cardiac muscle is weak and has an impaired ability to pump blood because it either cannot completely contract or it cannot completely relax. For the heart to pump blood normally, cardiac muscle must contract and relax fully.
Left ventricular noncompaction 10
MedGen UID:
811617
Concept ID:
C3715165
Disease or Syndrome
Left ventricular noncompaction is a heart (cardiac) muscle disorder that occurs when the lower left chamber of the heart (left ventricle), which helps the heart pump blood, does not develop correctly. Instead of the muscle being smooth and firm, the cardiac muscle in the left ventricle is thick and appears spongy. The abnormal cardiac muscle is weak and has an impaired ability to pump blood because it either cannot completely contract or it cannot completely relax. For the heart to pump blood normally, cardiac muscle must contract and relax fully.\n\nSome individuals with left ventricular noncompaction experience no symptoms at all; others have heart problems that can include sudden cardiac death. Additional signs and symptoms include abnormal blood clots, irregular heart rhythm (arrhythmia), a sensation of fluttering or pounding in the chest (palpitations), extreme fatigue during exercise (exercise intolerance), shortness of breath (dyspnea), fainting (syncope), swelling of the legs (lymphedema), and trouble laying down flat. Some affected individuals have features of other heart defects. Left ventricular noncompaction can be diagnosed at any age, from birth to late adulthood. Approximately two-thirds of individuals with left ventricular noncompaction develop heart failure.
Left ventricular noncompaction 8
MedGen UID:
815618
Concept ID:
C3809288
Disease or Syndrome
Some individuals with left ventricular noncompaction experience no symptoms at all; others have heart problems that can include sudden cardiac death. Additional signs and symptoms include abnormal blood clots, irregular heart rhythm (arrhythmia), a sensation of fluttering or pounding in the chest (palpitations), extreme fatigue during exercise (exercise intolerance), shortness of breath (dyspnea), fainting (syncope), swelling of the legs (lymphedema), and trouble laying down flat. Some affected individuals have features of other heart defects. Left ventricular noncompaction can be diagnosed at any age, from birth to late adulthood. Approximately two-thirds of individuals with left ventricular noncompaction develop heart failure.\n\nLeft ventricular noncompaction is a heart (cardiac) muscle disorder that occurs when the lower left chamber of the heart (left ventricle), which helps the heart pump blood, does not develop correctly. Instead of the muscle being smooth and firm, the cardiac muscle in the left ventricle is thick and appears spongy. The abnormal cardiac muscle is weak and has an impaired ability to pump blood because it either cannot completely contract or it cannot completely relax. For the heart to pump blood normally, cardiac muscle must contract and relax fully.
Combined oxidative phosphorylation defect type 20
MedGen UID:
863097
Concept ID:
C4014660
Disease or Syndrome
Combined oxidative phosphorylation defect type 20 is a rare mitochondrial oxidative phosphorylation disorder characterized by variable combination of psychomotor delay, hypotonia, muscle weakness, seizures, microcephaly, cardiomyopathy and mild dysmorphic facial features. Variable types of structural brain anomalies have also been reported. Biochemical studies typically show decreased activity of mitochondrial complexes (mainly complex I).
Long QT syndrome 15
MedGen UID:
864132
Concept ID:
C4015695
Disease or Syndrome
Long QT syndrome (LQTS) is a cardiac electrophysiologic disorder, characterized by QT prolongation and T-wave abnormalities on the EKG that are associated with tachyarrhythmias, typically the ventricular tachycardia torsade de pointes (TdP). TdP is usually self-terminating, thus causing a syncopal event, the most common symptom in individuals with LQTS. Such cardiac events typically occur during exercise and emotional stress, less frequently during sleep, and usually without warning. In some instances, TdP degenerates to ventricular fibrillation and causes aborted cardiac arrest (if the individual is defibrillated) or sudden death. Approximately 50% of untreated individuals with a pathogenic variant in one of the genes associated with LQTS have symptoms, usually one to a few syncopal events. While cardiac events may occur from infancy through middle age, they are most common from the preteen years through the 20s. Some types of LQTS are associated with a phenotype extending beyond cardiac arrhythmia. In addition to the prolonged QT interval, associations include muscle weakness and facial dysmorphism in Andersen-Tawil syndrome (LQTS type 7); hand/foot, facial, and neurodevelopmental features in Timothy syndrome (LQTS type 8); and profound sensorineural hearing loss in Jervell and Lange-Nielson syndrome.
Cardioencephalomyopathy, fatal infantile, due to cytochrome c oxidase deficiency 4
MedGen UID:
905398
Concept ID:
C4225304
Disease or Syndrome
Mitochondrial complex IV deficiency nuclear type 13 (MC4DN13) is an autosomal recessive metabolic disorder characterized by the onset of hypertrophic cardiomyopathy soon after birth. Affected individuals have hypotonia, weakness, and failure to thrive, resulting in death in infancy. Laboratory studies show increased serum lactate and decreased levels and activity of mitochondrial respiratory complex IV (summary by Baertling et al., 2015). For a discussion of genetic heterogeneity of mitochondrial complex IV (cytochrome c oxidase) deficiency, see 220110.
Syndromic X-linked intellectual disability 34
MedGen UID:
902184
Concept ID:
C4225417
Mental or Behavioral Dysfunction
X-linked syndromic intellectual developmental disorder-34 (MRXS34) is an X-linked recessive neurodevelopmental disorder characterized by delayed psychomotor development, intellectual disability with poor speech, dysmorphic facial features, and mild structural brain abnormalities, including thickening of the corpus callosum (summary by Mircsof et al., 2015).
Lethal left ventricular non-compaction-seizures-hypotonia-cataract-developmental delay syndrome
MedGen UID:
934628
Concept ID:
C4310661
Disease or Syndrome
Combined oxidative phosphorylation deficiency-31 is an autosomal recessive multisystem disorder characterized by left ventricular noncompaction (LVNC), global developmental delay, and severe hypotonia. More variable features include seizures, cataract, and abnormal movements. The disorder becomes apparent soon after birth or in early infancy, and patients may die in early childhood. Biochemical studies are consistent with a defect in mitochondrial function (summary by Eldomery et al., 2016). For a discussion of genetic heterogeneity of combined oxidative phosphorylation deficiency, see COXPD1 (609060).
Mitochondrial complex 2 deficiency, nuclear type 3
MedGen UID:
1751884
Concept ID:
C5436934
Disease or Syndrome
Mitochondrial complex II deficiency nuclear type 3 (MC2DN3) is an autosomal recessive multisystemic metabolic disorder with a highly variable phenotype. Some patients may have an encephalomyopathic picture with episodic developmental regression, loss of motor skills, hypotonia, ataxia, dystonia, and seizures or myoclonus. Other patients present in infancy with hypertrophic cardiomyopathy, which may be fatal. Laboratory studies show increased serum lactate and mitochondrial complex II deficiency in muscle and fibroblasts (summary by Jackson et al., 2014 and Alston et al., 2015). For a discussion of genetic heterogeneity of MC2DN, see MC2DN1 (252011).
Mitochondrial complex II deficiency, nuclear type 1
MedGen UID:
1814582
Concept ID:
C5700310
Disease or Syndrome
Mitochondrial complex II deficiency is an autosomal recessive multisystemic metabolic disorder with a highly variable phenotype. Some patients have multisystem involvement of the brain, heart, and muscle with onset in infancy, whereas others have only isolated cardiac or muscle involvement. Measurement of complex II activity in muscle is the most reliable means of diagnosis; however, there is no clear correlation between residual complex II activity and severity or clinical outcome. In some cases, treatment with riboflavin may have clinical benefit (summary by Jain-Ghai et al., 2013). Complex II, also known as succinate dehydrogenase, is part of the mitochondrial respiratory chain. Genetic Heterogeneity of Mitochondrial Complex II Deficiency See MC2DN2 (619166), caused by mutation in the SDHAF1 gene (612848) on chromosome 19q13; MC2DN3 (619167), caused by mutation in the SDHD gene (602690) on chromosome 11q23; and MC2DN4 (619224), caused by mutation in the SDHB gene (185470) on chromosome 1p36. Fullerton et al. (2020) reviewed the genetic basis of isolated mitochondrial complex II deficiency.

Professional guidelines

PubMed

Bogle C, Colan SD, Miyamoto SD, Choudhry S, Baez-Hernandez N, Brickler MM, Feingold B, Lal AK, Lee TM, Canter CE, Lipshultz SE; American Heart Association Young Hearts Pediatric Heart Failure and Transplantation Committee of the Council on Lifelong Congenital Heart Disease and Heart Health in the Young (Young Hearts)
Circulation 2023 Jul 11;148(2):174-195. Epub 2023 Jun 8 doi: 10.1161/CIR.0000000000001151. PMID: 37288568
Khan RS, Pahl E, Dellefave-Castillo L, Rychlik K, Ing A, Yap KL, Brew C, Johnston JR, McNally EM, Webster G
J Am Heart Assoc 2022 Jan 4;11(1):e022854. Epub 2021 Dec 22 doi: 10.1161/JAHA.121.022854. PMID: 34935411Free PMC Article
Towbin JA, McKenna WJ, Abrams DJ, Ackerman MJ, Calkins H, Darrieux FCC, Daubert JP, de Chillou C, DePasquale EC, Desai MY, Estes NAM 3rd, Hua W, Indik JH, Ingles J, James CA, John RM, Judge DP, Keegan R, Krahn AD, Link MS, Marcus FI, McLeod CJ, Mestroni L, Priori SG, Saffitz JE, Sanatani S, Shimizu W, van Tintelen JP, Wilde AAM, Zareba W
Heart Rhythm 2019 Nov;16(11):e301-e372. Epub 2019 May 9 doi: 10.1016/j.hrthm.2019.05.007. PMID: 31078652

Recent clinical studies

Etiology

Towbin JA, McKenna WJ, Abrams DJ, Ackerman MJ, Calkins H, Darrieux FCC, Daubert JP, de Chillou C, DePasquale EC, Desai MY, Estes NAM 3rd, Hua W, Indik JH, Ingles J, James CA, John RM, Judge DP, Keegan R, Krahn AD, Link MS, Marcus FI, McLeod CJ, Mestroni L, Priori SG, Saffitz JE, Sanatani S, Shimizu W, van Tintelen JP, Wilde AAM, Zareba W
Heart Rhythm 2019 Nov;16(11):e301-e372. Epub 2019 May 9 doi: 10.1016/j.hrthm.2019.05.007. PMID: 31078652
Brieler J, Breeden MA, Tucker J
Am Fam Physician 2017 Nov 15;96(10):640-646. PMID: 29431384
Miszalski-Jamka K, Jefferies JL, Mazur W, Głowacki J, Hu J, Lazar M, Gibbs RA, Liczko J, Kłyś J, Venner E, Muzny DM, Rycaj J, Białkowski J, Kluczewska E, Kalarus Z, Jhangiani S, Al-Khalidi H, Kukulski T, Lupski JR, Craigen WJ, Bainbridge MN
Circ Cardiovasc Genet 2017 Aug;10(4) doi: 10.1161/CIRCGENETICS.117.001763. PMID: 28798025Free PMC Article
Towbin JA, Lorts A, Jefferies JL
Lancet 2015 Aug 22;386(9995):813-25. Epub 2015 Apr 9 doi: 10.1016/S0140-6736(14)61282-4. PMID: 25865865
Ng D, Johnston JJ, Teer JK, Singh LN, Peller LC, Wynter JS, Lewis KL, Cooper DN, Stenson PD, Mullikin JC, Biesecker LG; NIH Intramural Sequencing Center (NISC) Comparative Sequencing Program
Circ Cardiovasc Genet 2013 Aug;6(4):337-46. Epub 2013 Jul 16 doi: 10.1161/CIRCGENETICS.113.000039. PMID: 23861362Free PMC Article

Diagnosis

Petersen SE, Jensen B, Aung N, Friedrich MG, McMahon CJ, Mohiddin SA, Pignatelli RH, Ricci F, Anderson RH, Bluemke DA
JACC Cardiovasc Imaging 2023 Mar;16(3):408-425. Epub 2023 Feb 8 doi: 10.1016/j.jcmg.2022.12.026. PMID: 36764891Free PMC Article
Bagnall RD, Singer ES, Wacker J, Nowak N, Ingles J, King I, Macciocca I, Crowe J, Ronan A, Weintraub RG, Semsarian C
Circ Genom Precis Med 2022 Dec;15(6):e003686. Epub 2022 Oct 11 doi: 10.1161/CIRCGEN.121.003686. PMID: 36252119
Towbin JA, McKenna WJ, Abrams DJ, Ackerman MJ, Calkins H, Darrieux FCC, Daubert JP, de Chillou C, DePasquale EC, Desai MY, Estes NAM 3rd, Hua W, Indik JH, Ingles J, James CA, John RM, Judge DP, Keegan R, Krahn AD, Link MS, Marcus FI, McLeod CJ, Mestroni L, Priori SG, Saffitz JE, Sanatani S, Shimizu W, van Tintelen JP, Wilde AAM, Zareba W
Heart Rhythm 2019 Nov;16(11):e301-e372. Epub 2019 May 9 doi: 10.1016/j.hrthm.2019.05.007. PMID: 31078652
Brieler J, Breeden MA, Tucker J
Am Fam Physician 2017 Nov 15;96(10):640-646. PMID: 29431384
Towbin JA, Lorts A, Jefferies JL
Lancet 2015 Aug 22;386(9995):813-25. Epub 2015 Apr 9 doi: 10.1016/S0140-6736(14)61282-4. PMID: 25865865

Therapy

Bogle C, Colan SD, Miyamoto SD, Choudhry S, Baez-Hernandez N, Brickler MM, Feingold B, Lal AK, Lee TM, Canter CE, Lipshultz SE; American Heart Association Young Hearts Pediatric Heart Failure and Transplantation Committee of the Council on Lifelong Congenital Heart Disease and Heart Health in the Young (Young Hearts)
Circulation 2023 Jul 11;148(2):174-195. Epub 2023 Jun 8 doi: 10.1161/CIR.0000000000001151. PMID: 37288568
Kazmirczak F, Martin CM, Shenoy C
Circulation 2020 Feb 25;141(8):696-701. Epub 2020 Feb 24 doi: 10.1161/CIRCULATIONAHA.119.043716. PMID: 32091931Free PMC Article
Muser D, Liang JJ, Witschey WR, Pathak RK, Castro S, Magnani S, Zado ES, Garcia FC, Desjardins B, Callans DJ, Frankel DS, Marchlinski FE, Santangeli P
Heart Rhythm 2017 Feb;14(2):166-175. Epub 2016 Nov 24 doi: 10.1016/j.hrthm.2016.11.014. PMID: 27890738
Towbin JA, Lorts A, Jefferies JL
Lancet 2015 Aug 22;386(9995):813-25. Epub 2015 Apr 9 doi: 10.1016/S0140-6736(14)61282-4. PMID: 25865865
Mangrolia N, Watson T, Gopalan D, Ray KK
J Cardiovasc Med (Hagerstown) 2011 Jun;12(6):430-3. doi: 10.2459/JCM.0b013e3283410295. PMID: 21119528

Prognosis

Wang Y, Jia H, Song J
Curr Cardiol Rep 2023 Oct;25(10):1299-1317. Epub 2023 Sep 15 doi: 10.1007/s11886-023-01944-0. PMID: 37721634Free PMC Article
Petersen SE, Jensen B, Aung N, Friedrich MG, McMahon CJ, Mohiddin SA, Pignatelli RH, Ricci F, Anderson RH, Bluemke DA
JACC Cardiovasc Imaging 2023 Mar;16(3):408-425. Epub 2023 Feb 8 doi: 10.1016/j.jcmg.2022.12.026. PMID: 36764891Free PMC Article
Bagnall RD, Singer ES, Wacker J, Nowak N, Ingles J, King I, Macciocca I, Crowe J, Ronan A, Weintraub RG, Semsarian C
Circ Genom Precis Med 2022 Dec;15(6):e003686. Epub 2022 Oct 11 doi: 10.1161/CIRCGEN.121.003686. PMID: 36252119
Khan RS, Pahl E, Dellefave-Castillo L, Rychlik K, Ing A, Yap KL, Brew C, Johnston JR, McNally EM, Webster G
J Am Heart Assoc 2022 Jan 4;11(1):e022854. Epub 2021 Dec 22 doi: 10.1161/JAHA.121.022854. PMID: 34935411Free PMC Article
Miyake CY, Kim JJ
Card Electrophysiol Clin 2015 Jun;7(2):319-30. Epub 2015 Apr 10 doi: 10.1016/j.ccep.2015.03.007. PMID: 26002396

Clinical prediction guides

Petersen SE, Jensen B, Aung N, Friedrich MG, McMahon CJ, Mohiddin SA, Pignatelli RH, Ricci F, Anderson RH, Bluemke DA
JACC Cardiovasc Imaging 2023 Mar;16(3):408-425. Epub 2023 Feb 8 doi: 10.1016/j.jcmg.2022.12.026. PMID: 36764891Free PMC Article
Khan RS, Pahl E, Dellefave-Castillo L, Rychlik K, Ing A, Yap KL, Brew C, Johnston JR, McNally EM, Webster G
J Am Heart Assoc 2022 Jan 4;11(1):e022854. Epub 2021 Dec 22 doi: 10.1161/JAHA.121.022854. PMID: 34935411Free PMC Article
Mazzarotto F, Hawley MH, Beltrami M, Beekman L, de Marvao A, McGurk KA, Statton B, Boschi B, Girolami F, Roberts AM, Lodder EM, Allouba M, Romeih S, Aguib Y, Baksi AJ, Pantazis A, Prasad SK, Cerbai E, Yacoub MH, O'Regan DP, Cook SA, Ware JS, Funke B, Olivotto I, Bezzina CR, Barton PJR, Walsh R
Genet Med 2021 May;23(5):856-864. Epub 2021 Jan 26 doi: 10.1038/s41436-020-01049-x. PMID: 33500567Free PMC Article
Ichida F
J Cardiol 2020 Jan;75(1):1-9. Epub 2019 Oct 17 doi: 10.1016/j.jjcc.2019.09.011. PMID: 31629663
Sarma RJ, Chana A, Elkayam U
Prog Cardiovasc Dis 2010 Jan-Feb;52(4):264-73. doi: 10.1016/j.pcad.2009.11.001. PMID: 20109597

Recent systematic reviews

Fitzsimons LA, Kneeland-Barber DM, Hannigan GC, Karpe DA, Wu L, Colon M, Randall J, Tucker KL
Physiol Rep 2024 May;12(9):e16029. doi: 10.14814/phy2.16029. PMID: 38684446Free PMC Article
Aung N, Doimo S, Ricci F, Sanghvi MM, Pedrosa C, Woodbridge SP, Al-Balah A, Zemrak F, Khanji MY, Munroe PB, Naci H, Petersen SE
Circ Cardiovasc Imaging 2020 Jan;13(1):e009712. Epub 2020 Jan 21 doi: 10.1161/CIRCIMAGING.119.009712. PMID: 31959004Free PMC Article
van Waning JI, Moesker J, Heijsman D, Boersma E, Majoor-Krakauer D
J Am Heart Assoc 2019 Dec 3;8(23):e012993. Epub 2019 Nov 27 doi: 10.1161/JAHA.119.012993. PMID: 31771441Free PMC Article
Grigoratos C, Barison A, Ivanov A, Andreini D, Amzulescu MS, Mazurkiewicz L, De Luca A, Grzybowski J, Masci PG, Marczak M, Heitner JF, Schwitter J, Gerber BL, Emdin M, Aquaro GD
JACC Cardiovasc Imaging 2019 Nov;12(11 Pt 1):2141-2151. Epub 2019 Mar 13 doi: 10.1016/j.jcmg.2018.12.029. PMID: 30878415
Kido K, Guglin M
J Cardiovasc Pharmacol Ther 2019 Jan;24(1):31-36. Epub 2018 Jun 18 doi: 10.1177/1074248418783745. PMID: 29911432

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