Different assessment tools to detect sarcopenia in patients with Parkinson's disease

Introduction Sarcopenia and Parkinson's disease are closely related diseases of the elderly population leading to progressive disability and nursing-dependent care. Objective The aim of this study was to estimate the prevalence of sarcopenia in PD patients with three different approaches: (1) the screening tool SARC-F, (2) EWGSOP-1 criteria, and (3) EWGSOP-2 criteria. Moreover, we aimed to evaluate the diagnostic accuracy of the screening tool SARC-F to detect sarcopenia according to the updated EWGSOP-2 criteria. Methods Eighty-one patients with Parkinson's disease aged 65 years and above were interviewed in a cross-sectional study at a tertiary referral center. All patients were screened with the SARC-F questionnaire and were evaluated for motor and non-motor symptoms, exercise, quality of life, and frailty. Muscle mass was assessed with bioelectrical impedance analysis, handgrip strength with a dynamometer, and gait speed was assessed with the 8-m walk test. EWGSOP-2 criteria were considered the gold standard to diagnose sarcopenia in our study. Results Eighty-one patients were evaluated (mean age: 73.82; SD 5.30). The prevalence of sarcopenia was 28.4% according to the EWGSOP-2 criteria. The concordance between EWGSOP-2 and EWGSOP-1 was poor (weighted kappa of 0.361[95% 0.164–0.557]). The sensitivity of the SARC-F screening test for detecting sarcopenia was 60.9%. The corresponding AUC in the ROC curve analysis showed 0.598 (0.462, 0.734 CI). The item assessing strength was found to have the highest sensitivity (69.6%). Conclusion Sarcopenia prevalence in patients with PD in Tirol, Austria is higher with EWGSOP-1 criteria compared to EWGSOP-2 criteria. The sensitivity and specificity of the SARC-F scale to detect sarcopenia in this population are poor.

[1]  C. Celis-Morales,et al.  Global prevalence of sarcopenia and severe sarcopenia: a systematic review and meta‐analysis , 2021, Journal of cachexia, sarcopenia and muscle.

[2]  L. Lissner,et al.  Comparison of the 2010 and 2019 diagnostic criteria for sarcopenia by the European Working Group on Sarcopenia in Older People (EWGSOP) in two cohorts of Swedish older adults , 2021, BMC Geriatrics.

[3]  J. Tur,et al.  Comparison between Original and Reviewed Consensus of European Working Group on Sarcopenia in Older People: A Probabilistic Cross-Sectional Survey among Community-Dwelling Older People , 2021, Gerontology.

[4]  E. D. de Oliveira,et al.  Prevalence of sarcopenia according to EWGSOP1 and EWGSOP2 in older adults and their associations with unfavorable health outcomes: a systematic review , 2021, Aging Clinical and Experimental Research.

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

[6]  H. Shang,et al.  Sarcopenia in Patients With Parkinson's Disease: A Systematic Review and Meta-Analysis , 2021, Frontiers in Neurology.

[7]  P. Cabral,et al.  SARC-F and SARC-CalF in screening for sarcopenia in older adults with Parkinson's disease , 2020, Experimental Gerontology.

[8]  K. Higuchi,et al.  Screening Tools for Sarcopenia , 2021, In Vivo.

[9]  K. Murotani,et al.  SARC-F as a Screening Tool for Sarcopenia and Possible Sarcopenia Proposed by AWGS 2019 in Hospitalized Older Adults , 2020, The journal of nutrition, health & aging.

[10]  T. G. Barbosa-Silva,et al.  Sarcopenia Prevalence Using Different Definitions in Older Community-Dwelling Canadians , 2020, The journal of nutrition, health & aging.

[11]  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.

[12]  R. Heshmat,et al.  Comparison of EWGSOP-1and EWGSOP-2 diagnostic criteria on prevalence of and risk factors for sarcopenia among Iranian older people: the Bushehr Elderly Health (BEH) program , 2020, Journal of Diabetes & Metabolic Disorders.

[13]  J. Alcazar,et al.  Impact of using the updated EWGSOP2 definition in diagnosing sarcopenia: A clinical perspective. , 2020, Archives of gerontology and geriatrics.

[14]  D. Scott,et al.  Diagnostic differences and agreement between the original and revised European Working Group (EWGSOP) consensus definition for sarcopenia in community-dwelling older adults with type 2 diabetes mellitus. , 2020, Archives of gerontology and geriatrics.

[15]  K. Bötzel,et al.  Interrelation between Sarcopenia and the Number of Motor Neurons in Patients with Parkinsonian Syndromes , 2020, Gerontology.

[16]  M. Azevedo,et al.  Difference in sarcopenia prevalence and associated factors according to 2010 and 2018 European consensus (EWGSOP) in elderly patients with type 2 diabetes mellitus , 2020, Experimental Gerontology.

[17]  Yueh-Sheng Chen,et al.  Associations between Brain Structural Damage and Core Muscle Loss in Patients with Parkinson’s Disease , 2020, Journal of clinical medicine.

[18]  J. Dai,et al.  Comparison of revised EWGSOP criteria and four other diagnostic criteria of sarcopenia in Chinese community-dwelling elderly residents , 2019, Experimental Gerontology.

[19]  R. Heshmat,et al.  THE TRABECULAR BONE SCORE IS ASSOCIATED WITH BONE MINERAL DENSITY, AND MARKERS OF BONE TURNOVER IN NON-OBESE SUBJECTS: THE BUSHEHR ELDERLY HEALTH (BEH) PROGRAM , 2020 .

[20]  Qian-tong Dong,et al.  EWGSOP2 versus EWGSOP1 for sarcopenia to predict prognosis in patients with gastric cancer after radical gastrectomy: Analysis from a large-scale prospective study. , 2019, Clinical nutrition.

[21]  Y. Liu,et al.  Sarcopenia for predicting falls and hospitalization in community-dwelling older adults: EWGSOP versus EWGSOP2 , 2019, Scientific Reports.

[22]  M. Gultekin,et al.  Sarcopenia, dynapenia, and body composition in Parkinson’s disease: are they good predictors of disability?: a case–control study , 2019, Neurological Sciences.

[23]  J. Reginster,et al.  Sarcopenia: Performance of the SARC-F Questionnaire According to the European Consensus Criteria, EWGSOP1 and EWGSOP2. , 2019, Journal of the American Medical Directors Association.

[24]  C. Cooper,et al.  Sarcopenia: revised European consensus on definition and diagnosis , 2019, Age and ageing.

[25]  G. Duque,et al.  Agreement Between Initial and Revised European Working Group on Sarcopenia in Older People Definitions. , 2019, Journal of the American Medical Directors Association.

[26]  J. Reginster,et al.  EWGSOP2 Versus EWGSOP1: Impact on the Prevalence of Sarcopenia and Its Major Health Consequences. , 2019, Journal of the American Medical Directors Association.

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

[28]  W. Poewe,et al.  Prevalence and Associated Factors of Sarcopenia and Frailty in Parkinson’s Disease: A Cross-Sectional Study , 2018, Gerontology.

[29]  M. Visser,et al.  Associations of Sarcopenia Definitions, and Their Components, With the Incidence of Recurrent Falling and Fractures: The Longitudinal Aging Study Amsterdam , 2018, The journals of gerontology. Series A, Biological sciences and medical sciences.

[30]  G. Bahat,et al.  Comparing SARC-F with SARC-CalF to Screen Sarcopenia in Community Living Older Adults , 2018, The journal of nutrition, health & aging.

[31]  G. Onder,et al.  Sarcopenia in Parkinson Disease: Comparison of Different Criteria and Association With Disease Severity. , 2018, Journal of the American Medical Directors Association.

[32]  S. Çankaya,et al.  Incidence of sarcopenia and dynapenia according to stage in patients with idiopathic Parkinson’s disease , 2018, Neurological Sciences.

[33]  M. Delgado-Rodríguez,et al.  Systematic review and meta-analysis. , 2017, Medicina intensiva.

[34]  E. Freiberger,et al.  The SARC-F Questionnaire: Diagnostic Overlap with Established Sarcopenia Definitions in Older German Men with Sarcopenia , 2017, Gerontology.

[35]  A. Fallgatter,et al.  Associations between Early Markers of Parkinson's Disease and Sarcopenia , 2017, Frontiers in Aging Neuroscience.

[36]  T. G. Barbosa-Silva,et al.  Enhancing SARC-F: Improving Sarcopenia Screening in the Clinical Practice. , 2016, Journal of the American Medical Directors Association.

[37]  W. Chie,et al.  Sarcopenia Screened With SARC-F Questionnaire Is Associated With Quality of Life and 4-Year Mortality. , 2016, Journal of the American Medical Directors Association.

[38]  TG InBarbosa-Silva Corrigendum to: Prevalence of sarcopenia among community‐dwelling elderly of a medium‐sized South American city: results of the COMO VAI? study , 2016, Journal of cachexia, sarcopenia and muscle.

[39]  E. Cereda,et al.  Sarcopenia and Dynapenia in Patients With Parkinsonism. , 2016, Journal of the American Medical Directors Association.

[40]  F. Buntinx,et al.  Prognostic value of handgrip strength in people aged 60 years and older: A systematic review and meta‐analysis , 2016, Geriatrics & gerontology international.

[41]  L. Ferrucci,et al.  SARC‐F: a symptom score to predict persons with sarcopenia at risk for poor functional outcomes , 2015, Journal of cachexia, sarcopenia and muscle.

[42]  T. G. Barbosa-Silva,et al.  Prevalence of sarcopenia among community‐dwelling elderly of a medium‐sized South American city: results of the COMO VAI? study , 2015, Journal of cachexia, sarcopenia and muscle.

[43]  G. Deuschl,et al.  MDS clinical diagnostic criteria for Parkinson's disease , 2015, Movement disorders : official journal of the Movement Disorder Society.

[44]  G. Sergi,et al.  Assessing appendicular skeletal muscle mass with bioelectrical impedance analysis in free-living Caucasian older adults. , 2015, Clinical nutrition.

[45]  M. Estrada,et al.  Sarcopenia and Androgens: A Link between Pathology and Treatment , 2014, Front. Endocrinol..

[46]  Jeffrey R Stout,et al.  Prevalence of and interventions for sarcopenia in ageing adults: a systematic review. Report of the International Sarcopenia Initiative (EWGSOP and IWGS) , 2014, Age and ageing.

[47]  J. Woo,et al.  Validating the SARC-F: a suitable community screening tool for sarcopenia? , 2014, Journal of the American Medical Directors Association.

[48]  Maren S Fragala,et al.  Criteria for Clinically Relevant Weakness and Low Lean Mass and Their Longitudinal Association With Incident Mobility Impairment and Mortality: The Foundation for the National Institutes of Health (FNIH) Sarcopenia Project , 2014, The journals of gerontology. Series A, Biological sciences and medical sciences.

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

[50]  P. Kwan Sarcopenia, a Neurogenic Syndrome? , 2013, Journal of aging research.

[51]  E. Mohammadi,et al.  Barriers and facilitators related to the implementation of a physiological track and trigger system: A systematic review of the qualitative evidence , 2017, International journal for quality in health care : journal of the International Society for Quality in Health Care.

[52]  M. Jahanshahi,et al.  On the Nature of Fear of Falling in Parkinson’s Disease , 2011, Behavioural neurology.

[53]  J. Baeyens,et al.  Sarcopenia: European consensus on definition and diagnosis , 2010, Age and ageing.

[54]  A. Teixeira,et al.  Serum levels of interleukin-6 are elevated in patients with Parkinson's disease and correlate with physical performance , 2010, Neuroscience Letters.

[55]  J. Baeyens,et al.  European working group on sarcopenia in older people. Sarcopenia: European consensus on definition and diagnosis: report of the European working group on sarcopenia in older people , 2010 .

[56]  Pedagógia,et al.  Cross Sectional Study , 2019 .

[57]  Jeffrey M. Hausdorff,et al.  Marked alterations in the gait timing and rhythmicity of patients with de novo Parkinson's disease , 2006, The European journal of neuroscience.

[58]  C. Adler,et al.  Motor unit number estimates in idiopathic Parkinson's disease. , 2002, Parkinsonism & related disorders.

[59]  W. V. Tilburg,et al.  Longitudinal Aging Study Amsterdam , 1990 .

[60]  S. Shaughnessy,et al.  Do No Harm: Health Systems’ Duty to Promote Clinician Well-Being , 2022, American Journal of Hospital Medicine.