Bray GA, Heisel WE, Afshin A, Jensen MD, Dietz WH, Long M, et al. The science of obesity management: an endocrine society scientific statement. Endocr Rev. 2018;39:79–132.
NCD Risk Factor Collaboration (NCD-RisC). Worldwide trends in underweight and obesity from 1990 to 2022: a pooled analysis of 3663 population-representative studies with 222 million children, adolescents, and adults. Lancet Lond Engl. 2024;403:1027–50.
Xu H, Cupples LA, Stokes A, Liu CT. Association of obesity with mortality over 24 years of weight history: findings from the Framingham Heart Study. JAMA Netw Open. 2018;1:e184587.
Mokdad AH, Ford ES, Bowman BA, Dietz WH, Vinicor F, Bales VS, et al. Prevalence of obesity, diabetes, and obesity-related health risk factors, 2001. JAMA. 2003;289:76–9.
Prado CMM, Wells JCK, Smith SR, Stephan BCM, Siervo M. Sarcopenic obesity: a Critical appraisal of the current evidence. Clin Nutr Edinb Scotl. 2012;31:583–601.
Carbone S, Billingsley HE, Rodriguez-Miguelez P, Kirkman DL, Garten R, Lee Franco R, et al. Lean mass abnormalities in heart failure: the role of sarcopenia, sarcopenic obesity, and cachexia. Curr Probl Cardiol. 2020;45:100417.
Carbone S, Lavie CJ, Arena R. Obesity and heart failure: focus on the obesity paradox. Mayo Clin Proc. 2017;92:266–79.
Ventura HO, Carbone S, Lavie CJ. Muscling up to improve heart failure prognosis. Eur J Heart Fail. 2018;20:1588–90.
Upadhya B, Haykowsky MJ, Eggebeen J, Kitzman DW. Sarcopenic obesity and the pathogenesis of exercise intolerance in heart failure with preserved ejection fraction. Curr Heart Fail Rep. 2015;12:205–14.
Emami A, Saitoh M, Valentova M, Sandek A, Evertz R, Ebner N, et al. Comparison of sarcopenia and cachexia in men with chronic heart failure: results from the Studies Investigating Co-morbidities Aggravating Heart Failure (SICA-HF). Eur J Heart Fail. 2018;20:1580–7.
Williams PT. Dose-response relationship of physical activity to premature and total all-cause and cardiovascular disease mortality in walkers. PLoS ONE. 2013;8:e78777.
Manson JE, Greenland P, LaCroix AZ, Stefanick ML, Mouton CP, Oberman A, et al. Walking compared with vigorous exercise for the prevention of cardiovascular events in women. N Engl J Med. 2002;347:716–25.
Armstrong MEG, Green J, Reeves GK, Beral V, Cairns BJ, Million Women Study Collaborators. Frequent physical activity may not reduce vascular disease risk as much as moderate activity: large prospective study of women in the United Kingdom. Circulation. 2015;131:721–9.
Koolhaas CM, Dhana K, Schoufour JD, Ikram MA, Kavousi M, Franco OH. Impact of physical activity on the association of overweight and obesity with cardiovascular disease: the Rotterdam Study. Eur J Prev Cardiol. 2017;24:934–41.
Fogelholm M. Physical activity, fitness and fatness: relations to mortality, morbidity and disease risk factors. A systematic review. Obes Rev J Int Assoc Study Obes. 2010;11:202–21.
Tomlinson DJ, Erskine RM, Morse CI, Winwood K, Onambélé-Pearson G. The impact of obesity on skeletal muscle strength and structure through adolescence to old age. Biogerontology. 2016;17:467–83.
ten Hoor GA, Plasqui G, Schols AMWJ, Kok G. A benefit of being heavier is being strong: a cross-sectional study in young adults. Sports Med Open. 2018;4:12.
Bohannon RW. Grip strength: an indispensable biomarker for older adults. Clin Inter Aging. 2019;14:1681–91.
López-Bueno R, Andersen LL, Koyanagi A, Núñez-Cortés R, Calatayud J, Casaña J, et al. Thresholds of handgrip strength for all-cause, cancer, and cardiovascular mortality: a systematic review with dose-response meta-analysis. Ageing Res Rev. 2022;82:101778.
Bhaskaran K, dos-Santos-Silva I, Leon DA, Douglas IJ, Smeeth L. Association of BMI with overall and cause-specific mortality: a population-based cohort study of 3·6 million adults in the UK. Lancet Diabetes Endocrinol. 2018;6:944–53.
Bauer S, Reiter L, Weijs PJM, Schoufour JD, Boirie Y, Topinková E, et al. Adherence to resistance training and hypocaloric diet among persons near retirement age — a secondary data analysis of three randomized controlled trials. J Nutr Health Aging. 2024;28:100344.
Bergmann M, Wagner M, Börsch-Supan A. SHARE Wave 9 methodology: from the SHARE Corona Survey 2 to the SHARE Main Wave 9 Interview [Internet]. 2024. https://share-eric.eu/fileadmin/user_upload/Methodology_Volumes/SHARE_Methodenband_WEB_Wave9.pdf
Börsch-Supan A, Brandt M, Hunkler C, Kneip T, Korbmacher J, Malter F, et al. Data resource profile: the survey of health, ageing and retirement in Europe (SHARE). Int J Epidemiol. 2013;42:992–1001.
Andersen LL, Calatayud J, Núñez-Cortés R, Polo-López A, López-Bueno R. Facilitators and barriers for working beyond statutory pension age: A prospective cohort study across 26 European countries. Scand J Work Environ Health. 2024. https://doi.org/10.5271/sjweh.4189
López-Bueno R, Andersen LL, Calatayud J, Casaña J, Grabovac I, Oberndorfer M, et al. Associations of handgrip strength with all-cause and cancer mortality in older adults: a prospective cohort study in 28 countries. Age Ageing. 2022;51:afac117.
Flegal KM, Kit BK, Orpana H, Graubard BI. Association of all-cause mortality with overweight and obesity using standard body mass index categories: a systematic review and meta-analysis. JAMA. 2013;309:71–82.
Hu G, Tuomilehto J, Silventoinen K, Barengo N, Jousilahti P. Joint effects of physical activity, body mass index, waist circumference and waist-to-hip ratio with the risk of cardiovascular disease among middle-aged Finnish men and women. Eur Heart J. 2004;25:2212–9.
Qi KJ, Li Q, Lu GL, Zhang MJ, Zhang MZ, Yan JM, et al. The combined effect of handgrip strength and obesity phenotype on the risk of stroke in Chinese middle-aged and elderly: A cohort study. Arch Gerontol Geriatr. 2024;124:105481.
Wei L, Wang B, Wang Y. Low handgrip strength with asymmetry is associated with elevated all-cause mortality risk in older Chinese adults with abdominal obesity. PLoS ONE. 2024;19:e0306982.
da Silva Alexandre T, Scholes S, Ferreira Santos JL, de Oliveira Duarte YA, de Oliveira C. Dynapenic abdominal obesity increases mortality risk among English and Brazilian older adults: a 10-year follow-up of the ELSA and SABE studies. J Nutr Health Aging. 2018;22:138–44.
He N, Zhang Y, Zhang L, Zhang S, Ye H. Relationship between sarcopenia and cardiovascular diseases in the elderly: an overview. Front Cardiovasc Med. 2021;8:743710.
Sacheck JM, Kuder JF, Economos CD. Physical fitness, adiposity, and metabolic risk factors in young college students. Med Sci Sports Exerc. 2010;42:1039–44.
Garcia-Hermoso A, Tordecilla-Sanders A, Correa-Bautista JE, Peterson MD, Izquierdo M, Prieto-Benavides D, et al. Handgrip strength attenuates the adverse effects of overweight on cardiometabolic risk factors among collegiate students but not in individuals with higher fat levels. Sci Rep. 2019;9:6986.
Aadahl M, Beyer N, Linneberg A, Thuesen BH, Jørgensen T. Grip strength and lower limb extension power in 19-72-year-old Danish men and women: the Health2006 study. BMJ Open. 2011;1:e000192.
Kuh D, Bassey EJ, Butterworth S, Hardy R, Wadsworth MEJ, Musculoskeletal Study Team. Grip strength, postural control, and functional leg power in a representative cohort of British men and women: associations with physical activity, health status, and socioeconomic conditions. J Gerontol A Biol Sci Med Sci. 2005;60:224–31.
Benito PJ, López-Plaza B, Bermejo LM, Peinado AB, Cupeiro R, Butragueño J, et al. Strength plus endurance training and individualized diet reduce fat mass in overweight subjects: a randomized clinical trial. Int J Environ Res Public Health. 2020;17:2596.
Cabanas-Sánchez V, Duarte Junior MA, Lavie CJ, Celis-Morales C, Rodríguez-Artalejo F, Martínez-Gómez D. Physical activity and cause-specific cardiovascular mortality among people with and without cardiovascular disease: a cohort study of 0.6 million US adults. Mayo Clin Proc. 2024;99:564–77.
Martinez-Gomez D, Rodriguez-Artalejo F, Ding D, Ekelund U, Cabanas-Sanchez V. Trends in the association between meeting the physical activity guidelines and risk of mortality in US adults. Prog Cardiovasc Dis. 2024;83:116–23.
