SARC-F and other screening tests for sarcopenia

Purpose of review Sarcopenia screening tools can enable clinicians to select individuals for more demanding evaluations, and hence, may facilitate its timely diagnosis and management. The most common recommended screening test is SARC-F, whereas many others are proposed. We aimed to summarize the recent studies and evidence performed on SARC-F and other sarcopenia screening tools. Recent findings Meta-analysis studies reported that despite having moderate-high specificity, SARC-F has low-moderate sensitivity to detect sarcopenia, which would cause a significant number of individuals having sarcopenia to be unrecognized. Several recent studies aimed to increase sensitivity and utility of SARC-F as a screening tool by i.e., application of lower cut-offs, adding extra-items, and combining with other screening tests. Some of these approaches increased its screening efficacy significantly. In line with its previous studies, SARC-F showed success to predict adverse outcomes in the latest studies as well. Recently, it has also been suggested as a reasonable screening test for frailty. In addition to the long-standing screening tests i.e., anthropometric measures, Ishii Test and Mini Sarcopenia Risk Assessment (MSRA) Questionnaire; new tests, i.e., Taiwan Risk Score for Sarcopenia, Sarcopenia Scoring Assessment Model (SarSA-Mod) and re-purposed tests, i.e., SARQoL questionnaire and fracture risk assessment tool have been investigated as potential screening tests for sarcopenia. Some of these tests performed as well as or superior to standard SARC-F. Summary Screening of sarcopenia is critical for public health given its significant prevalence and adverse outcomes. SARC-F is the most recommended tool for screening but has low-moderate sensitivity. Studies performed recently indicate that its sensitivity can be increased by some attempts and it may be used as a reasonable test to screen frailty as well. Some other tests have also been developed/re-purposed for an efficient screening, needing to be tested for their performance and usability with future studies in different populations and settings.

[1]  J. Reginster,et al.  Assessment of the performance of the SarQoL® questionnaire in screening for sarcopenia in older people , 2021, Aging Clinical and Experimental Research.

[2]  N. Michalopoulos,et al.  Reliability and Concurrent Validity of the SARC-F and Its Modified Versions: A Systematic Review and Meta-Analysis. , 2021, Journal of the American Medical Directors Association.

[3]  N. Mori,et al.  SARC-F Predicts Mortality Risk of Older Adults during Hospitalization , 2021, The journal of nutrition, health & aging.

[4]  J. Yue,et al.  The role of SARC-F scale in predicting progression risk of COVID-19 in elderly patients: a prospective cohort study in Wuhan , 2021, BMC Geriatrics.

[5]  R. Heshmat,et al.  Sarcopenia screening strategies in older people: a cost effectiveness analysis in Iran , 2021, BMC Public Health.

[6]  G. Bahat Measuring calf circumference: a practical tool to predict skeletal muscle mass via adjustment with BMI. , 2021, The American journal of clinical nutrition.

[7]  R. Heshmat,et al.  Development of a Simple and Practical Screening Tool for Detection of Sarcopenia in Older People: The Bushehr Elderly Health Program , 2021, Frontiers in Medicine.

[8]  K. Wieczorowska-Tobis,et al.  Polish Translation and Validation of the Mini Sarcopenia Risk Assessment (MSRA) Questionnaire to Assess Nutritional and Non-Nutritional Risk Factors of Sarcopenia in Older Adults , 2021, Nutrients.

[9]  S. Heymsfield,et al.  Calf circumference: cutoff values from the NHANES 1999-2006. , 2021, The American journal of clinical nutrition.

[10]  G. Bahat,et al.  Ability of SARC-F to Find Probable Sarcopenia Cases in Older Adults , 2021, The journal of nutrition, health & aging.

[11]  S. Urbani,et al.  Sarcopenia Risk Evaluation in a Sample of Hospitalized Elderly Men and Women: Combined Use of the Mini Sarcopenia Risk Assessment (MSRA) and the SARC-F , 2021, Nutrients.

[12]  M. Bredemeier,et al.  Practical screening tools for sarcopenia in patients with systemic sclerosis , 2021, PloS one.

[13]  S. Urbani,et al.  The Mini Sarcopenia Risk Assessment (MSRA) Questionnaire score as a predictor of skeletal muscle mass loss , 2021, Aging Clinical and Experimental Research.

[14]  S. Bhatia,et al.  SARC‐F for screening of sarcopenia among older adults with cancer , 2020, Cancer.

[15]  G. Bahat,et al.  SARC-F Questionnaire Detects Frailty in Older Adults , 2020, The journal of nutrition, health & aging.

[16]  Wen-Chun Tseng,et al.  Calf Circumference as an Optimal Choice of Four Screening Tools for Sarcopenia Among Ethnic Chinese Older Adults in Assisted Living , 2020, Clinical interventions in aging.

[17]  K. Murotani,et al.  Calf circumference value for sarcopenia screening among older adults with stroke. , 2020, Archives of gerontology and geriatrics.

[18]  Takuro Sato,et al.  Calf and arm circumference as simple markers for screening sarcopenia in patients with chronic liver disease , 2020, Hepatology research : the official journal of the Japan Society of Hepatology.

[19]  Hongxia Hua,et al.  Screening Accuracy of SARC-F for Sarcopenia in the Elderly: A Diagnostic Meta-Analysis , 2020, The journal of nutrition, health & aging.

[20]  S. Torii,et al.  Cut‐offs for calf circumference as a screening tool for low muscle mass: WASEDA'S Health Study , 2020, Geriatrics & gerontology international.

[21]  Reshma Aziz Merchant,et al.  Prevalence of sarcopenia in pre-frail community dwelling older adult and utility of SARC-F, SARC-CalF and calf circumference in case finding , 2020, Journal of frailty, sarcopenia and falls.

[22]  Letícia Mazocco,et al.  Accuracy of SARC-F and SARC-CalF for Sarcopenia screening in older women from southern Brazil. , 2020, Nutrition.

[23]  J. Reginster,et al.  Cross-sectional Evaluation of the Sarcopenia Quality of Life (SarQoL) Questionnaire: Translation and Validation of its Psychometric Properties , 2020, Annals of geriatric medicine and research.

[24]  A. Vinther,et al.  SARC-F in hospitalized, geriatric medical patients - Feasibility, prevalence of risk of sarcopenia, and characteristics of the risk group, including one-year follow-up. , 2020, Clinical nutrition ESPEN.

[25]  Meng-Chih Lee,et al.  Development of Taiwan Risk Score for Sarcopenia (TRSS) for Sarcopenia Screening among Community-Dwelling Older Adults , 2020, International journal of environmental research and public health.

[26]  M. Pawlaczyk,et al.  Polish Translation and Validation of the SARC-F Tool for the Assessment of Sarcopenia , 2020, Clinical interventions in aging.

[27]  S. Robinson,et al.  The identification of probable sarcopenia in early old age based on the SARC-F tool and clinical suspicion: findings from the 1946 British birth cohort , 2020, European Geriatric Medicine.

[28]  L. Williams,et al.  Repurposing a fracture risk calculator (FRAX) as a screening tool for women at risk for sarcopenia , 2020, Osteoporosis International.

[29]  E. Freiberger,et al.  German Version of SARC-F: Translation, Adaption, and Validation. , 2020, Journal of the American Medical Directors Association.

[30]  Yan Cui,et al.  Accuracy and prognostic ability of the SARC-F questionnaire and Ishii's score in the screening of sarcopenia in geriatric inpatients , 2019, Brazilian journal of medical and biological research = Revista brasileira de pesquisas medicas e biologicas.

[31]  B. Setyohadi,et al.  Diagnostic Performance of Calf Circumference, Thigh Circumference, and SARC-F Questionnaire to Identify Sarcopenia in Elderly Compared to Asian Working Group for Sarcopenia's Diagnostic Standard. , 2019, Acta medica Indonesiana.

[32]  Huairong Tang,et al.  Sarcopenia for predicting mortality among elderly nursing home residents , 2019, Medicine.

[33]  René Rizzoli,et al.  Sarcopenia: revised European consensus on definition and diagnosis , 2018, Age and ageing.

[34]  J. Morley,et al.  SARC-F: a simple questionnaire to rapidly diagnose sarcopenia. , 2013, Journal of the American Medical Directors Association.

[35]  G. Onder,et al.  The Future of Drugs in Sarcopenia , 2021, Practical Issues in Geriatrics.

[36]  T. Kamitani,et al.  SARC-F Validation and SARC-F+EBM Derivation in Musculoskeletal Disease: The SPSS-OK Study , 2019, The journal of nutrition, health & aging.