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Structured Abstract
Objective:
We conducted this review to support the United States Preventive Services Task Force (USPSTF) in updating its 2016 recommendation on screening for skin cancer. The objective was to review benefits and harms of routine skin cancer screening in asymptomatic screening populations aged ≥15 years.
Data Sources:
We searched MEDLINE ALL via Ovid, Embase via Elsevier, and the Cochrane Central Register of Controlled Trials via Wiley. We updated the search used in the 2016 systematic review on January 12, 2021, and we ran a bridge search on January 7, 2022. A research librarian developed and executed the search strategy. Studies included in the prior review to support the 2016 recommendation and studies referenced in recently published reviews were also considered for inclusion.
Study Selection:
We reviewed 20,320 abstracts and 522 full-text articles against prespecified inclusion criteria. Eligible studies were English-language randomized controlled trials (RCTs), controlled clinical trials, nonrandomized studies with contemporaneous controls reporting morbidity or mortality associated with skin cancer, or all-cause mortality, stage or lesion thickness at detection of skin cancer or precancerous lesions, and harms of skin cancer screening. At least two investigators independently critically appraised all studies. Data were extracted by one investigator and checked for accuracy by a second.
Data Analysis:
We extracted relevant study details and outcomes from fair- or good-quality studies. We provided narrative synthesis of results and used summary tables to facilitate comparisons across studies. The overall strength of evidence was graded as high, moderate, low, or insufficient based on criteria adapted from the Evidence-based Practice Center (EPC) Program.
Results:
We included three studies (10 articles, n=NR in one study; 1,791,615 in the other two) on the direct benefits of skin cancer screening and two studies (3 articles, n=232) on persistent harms of skin cancer screening. We included six studies (7 articles, n=2,947,595) on the association between routine clinician skin examination and stage or lesion thickness at skin cancer detection. We included nine studies (9 articles, n=l,326,051) on the association between stage at skin cancer detection and melanoma or all-cause mortality. Seventeen studies were newly identified in this update.
Direct evidence on effectiveness of skin cancer screening. Three non-randomized studies (one good-quality; two fair-quality) evaluated the association between melanoma mortality and skin cancer screening over 4 to 10 years followup. At 10-years of followup of the Skin Cancer Research to Provide Evidence for Effectiveness of Screening in Northern Germany (SCREEN) study, population melanoma mortality rates in the SCREEN region compared to the rest of Germany suggest no mortality benefit to routine skin cancer screening. Similarly, at 5-year followup of the German National Screening Program, no mortality benefit was observed based on national population statistics. One non-randomized study of melanoma mortality in individuals with documented skin cancer screening provided through German statutory health insurance found an absolute decrease in mortality suggesting a screening benefit at four-year followup, but this difference was attenuated on multivariate analysis and adjustment for lead time bias. No included studies reported all-cause mortality, skin squamous cell carcinoma mortality, basal cell carcinoma mortality, or skin cancer morbidity.
Harms. Evidence on the persistent psychosocial or cosmetic harms of screening was minimal. In a fair-quality study conducted in Germany (n=45), 27 patients rated 7 percent (4 out of 56) of shave biopsy sites having poor cosmetic outcomes at 6-month followup. A fair-quality United States study (n=187) that assessed psychological wellbeing at 5 and 8 months after skin cancer examination by trained primary care providers found that participants scored within the normal range on measures of anxiety and depression, with none to minimal psychological impacts of screening. Overdiagnosis and subsequent overtreatment of early-stage melanoma is a potential harm of skin cancer screening based on population incidence rates, but no direct evidence was available.
Indirect evidence: association between routine clinician skin examination and stage or thickness at skin cancer detection. Based on data from four fair-quality evaluations of three skin cancer screening programs (n=2,344,210), and one good-quality physician-focused skin examination initiative (n=595,799), routine clinician skin examination is not associated with increased detection of keratinocyte carcinoma, melanoma, or skin cancer precursor lesions compared to usual care or lesion-directed examination. Similarly, routine skin examination is not associated with stage at detection for invasive melanoma. Evidence is inconsistent on whether clinician skin examination is associated with higher detection of in situ melanoma based on two studies (n=2,530 melanoma cases), or with thinner lesions (<1mm or <2mm) at melanoma detection based on three studies (n=6,133 melanoma cases).
Indirect evidence: association between stage at skin cancer detection and melanoma mortality or all-cause mortality. Three nonrandomized studies (two good-quality, one fair-quality; n=407,133) reported melanoma-specific mortality, and three nonrandomized studies (one good-quality, 2 fair-quality; n=473,660) reported all-cause mortality. Later stage at detection was consistently associated with increased risk of melanoma mortality. Compared to in situ disease at detection, adjusted hazard ratios for melanoma mortality were 5.8 (95% CI, 5.3 to 6.3) for localized, 31.5 (95% CI, 28.9 to 34.2) for regional, and 169.6 (95% CI, 154.2 to 186.6) for distant stage in one U.S.-based study (n=185,219). Two studies using localized stage at detection as the referent group found a similar pattern of increasing melanoma mortality risk with increasing stage. No included studies evaluated the association between stage at diagnosis and skin cancer morbidity.
In two nonrandomized studies (1 good-quality, 1 fair-quality; n=135,490), melanoma mortality was higher for males than for females. Three studies with overlapping populations (n=708,814) examined melanoma mortality risk for specific racial and ethnic groups. One study found similar odds of melanoma mortality risk for White and Black persons within each stage at detection. In two other studies with overlapping populations, melanoma mortality risk was higher among Black, Asian American, Native American, Pacific Islanders (AANAPI), and Hispanic adults with melanoma AJCC Stage I and SEER localized stages compared to White adults. In one of these studies, the risk for melanoma mortality among Hispanic persons with regional or distant melanoma stage was also higher than among White adults.
Regarding all-cause mortality, the same pattern was observed over three large nonrandomized studies. In one study (n=185,219), the risk for all-cause mortality was adjHR 1.5 (95% CI, 1.5 to 1.5) for localized, 3.9 (95% CI, 3.8 to 4.1) for regional, 15.8 (95% CI, 14.9 to 16.7) for distant disease, compared to in situ melanoma at detection.
No included studies addressed keratinocyte carcinoma mortality by stage at detection.
Limitations:
The body of evidence for benefits and harms of screening is small and derived from nonrandomized studies primarily conducted outside of the United States. The applicability to United States primary care settings might be low.
Conclusions:
A substantial observational evidence base suggests a clear association between earlier stage at skin cancer detection and decreased mortality risk. However, ecological studies suggest no melanoma mortality benefit associated with skin cancer screening in adolescents or adults in regions with implemented routine screening compared to regions without routine screening. Nonrandomized evidence suggests no association between routine clinician skin examination and earlier stage at melanoma detection; evidence is inconsistent on whether clinician skin examination is associated with thinner melanoma lesions at detection. There is little direct evidence on harms of screening, however; other than overdiagnosis and overtreatment, there are few hypothesized serious harms.
Contents
- Acknowledgments
- Chapter 1. Introduction
- Chapter 2. Methods
- Chapter 3. Results
- Literature Search
- KQ1. What Is the Effectiveness of Routine Skin Cancer Screening With Visual Skin Examination by Clinicians in Reducing Skin Cancer Morbidity and Mortality or All-Cause Mortality? Does the Effectiveness of Screening Vary by Subgroups (e.g., Age, Sex, Skin Type, Race/Ethnicity, Socioeconomic Status, or UV Exposure)?
- KQ2. Does Routine Skin Cancer Screening Lead to Higher Rates of Detection of Precancerous Lesions or Earlier Stage Skin Cancer Compared to Usual Care (e.g., Lesion-Directed Skin Examination)? Do Rates of Earlier Skin Cancer Detection Vary by Subgroups (e.g., Age, Sex, Skin Type, Race/Ethnicity, Socioeconomic Status, or UV Exposure)?
- KQ3. What Are the Harms of Skin Cancer Screening and Diagnostic Followup? Do the Harms of Screening Vary by Subgroups (e.g., Age, Sex, Skin Type, Race/Ethnicity, Socioeconomic Status, or UV Exposure)?
- KQ4. What Is the Association Between Detection of Precancerous Lesions or Earlier Stage Skin Cancer and Morbidity and Mortality Due to Skin Cancer or All-Cause Mortality? Does This Association Vary by Subgroups (e.g., Age, Sex, Skin Type, Race/Ethnicity, Socioeconomic Status, or UV Exposure)?
- Chapter 4. Discussion
- References
- Appendixes
Suggested citation:
Henrikson NB, Ivlev I, Blasi PR, Nguyen M, Senger CA, Perdue, LA, Lin JS. Screening for Skin Cancer: A Systematic Evidence Review for the U.S. Preventive Services Task Force. Evidence Synthesis No. 225. AHRQ Publication No. 22-05297-EF-1. Rockville, MD: Agency for Healthcare Research and Quality; 2023.
This report is based on research conducted by the Kaiser Permanente Evidence-based Practice Center (EPC) under contract to the Agency for Healthcare Research and Quality (AHRQ), Rockville, MD (Contract No. 75Q80120D00004, Task Order No. 75Q80120F32001). The findings and conclusions in this document are those of the authors, who are responsible for its contents; the findings and conclusions do not necessarily represent the views of AHRQ. Therefore, no statement in this report should be construed as an official position of AHRQ or of the U.S. Department of Health and Human Services.
The information in this report is intended to help healthcare decision makers—patients and clinicians, health system leaders, and policymakers, among others—make well-informed decisions and thereby improve the quality of healthcare services. This report is not intended to be a substitute for the application of clinical judgment. Anyone who makes decisions concerning the provision of clinical care should consider this report in the same way as any medical reference and in conjunction with all other pertinent information (i.e., in the context of available resources and circumstances presented by individual patients).
This report may be used, in whole or in part, as the basis for development of clinical practice guidelines and other quality enhancement tools, or as a basis for reimbursement and coverage policies. AHRQ or U.S. Department of Health and Human Services endorsement of such derivative products may not be stated or implied.
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