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Journal of Cachexia, Sarcopenia and Muscle

Published in:

01-12-2010 | Editorial

An overview of sarcopenia: facts and numbers on prevalence and clinical impact

Authors: Stephan von Haehling, John E. Morley, Stefan D. Anker

Published in: Journal of Cachexia, Sarcopenia and Muscle | Issue 2/2010

Abstract

Human muscle undergoes constant changes. After about age 50, muscle mass decreases at an annual rate of 1–2%. Muscle strength declines by 1.5% between ages 50 and 60 and by 3% thereafter. The reasons for these changes include denervation of motor units and a net conversion of fast type II muscle fibers into slow type I fibers with resulting loss in muscle power necessary for activities of daily living. In addition, lipids are deposited in the muscle, but these changes do not usually lead to a loss in body weight. Once muscle mass in elderly subjects falls below 2 standard deviations of the mean of a young control cohort and the gait speed falls below 0.8 m/s, a clinical diagnosis of sarcopenia can be reached. Assessment of muscle strength using tests such as the short physical performance battery test, the timed get-up-and-go test, or the stair climb power test may also be helpful in establishing the diagnosis. Sarcopenia is one of the four main reasons for loss of muscle mass. On average, it is estimated that 5–13% of elderly people aged 60–70 years are affected by sarcopenia. The numbers increase to 11–50% for those aged 80 or above. Sarcopenia may lead to frailty, but not all patients with sarcopenia are frail—sarcopenia is about twice as common as frailty. Several studies have shown that the risk of falls is significantly elevated in subjects with reduced muscle strength. Treatment of sarcopenia remains challenging, but promising results have been obtained using progressive resistance training, testosterone, estrogens, growth hormone, vitamin D, and angiotensin-converting enzyme inhibitors. Interesting nutritional interventions include high-caloric nutritional supplements and essential amino acids that support muscle fiber synthesis.

Abellan van Kan G. Epidemiology and consequences of sarcopenia. J Nutr Health Aging. 2009;13:708–12.PubMedCrossRef

Doherty TJ. Invited review: aging and sarcopenia. J Appl Physiol. 2003;95:1717–27.PubMed

Critchley M. The neurology of old age. Lancet. 1931;217:1331–7.CrossRef

Shock NW. Physiologic aspects of aging. J Am Diet Assoc. 1970;56:491–6.PubMed

Rosenberg IH. Sarcopenia: origins and clinical relevance. J Nutr. 1997;127:990S–1S.PubMed

Morley JE. Aspects of the medical history unique to older persons. JAMA. 1993;269(675):677–8.

Morley JE. Sarcopenia: diagnosis and treatment. J Nutr Health Aging. 2008;12:452–6.PubMedCrossRef

von Haehling S, Anker SD. Cachexia as a major underestimated and unmet medical need: facts and numbers. J Cachexia Sarcopenia Muscle. 2010;1:1–5.CrossRef

Morley JE, Kim MJ, Haren MT, Kevorkian R, Banks WA. Frailty and the aging male. Aging Male. 2005;8:135–40.PubMedCrossRef

10.

Blake GM, Fogelman I. An update on dual-energy x-ray absorptiometry. Semin Nucl Med. 2010;40:62–73.PubMedCrossRef

11.

Guralnik JM, Simonsick EM, Ferrucci L, Glynn RJ, Berkman LF, Blazer DG, et al. A short physical performance battery assessing lower extremity function: association with self-reported disability and prediction of mortality and nursing home admission. J Gerontol. 1994;49:M85–94.PubMed

12.

Buchner DM, Larson EB, Wagner EH, Koepsell TD, de Lateur BJ. Evidence for a non-linear relationship between leg strength and gait speed. Age Ageing. 1996;25:386–91.PubMedCrossRef

13.

Podsiadlo D, Richardson S. The timed “up & go”: a test of basic functional mobility for frail elderly persons. J Am Geriatr Soc. 1991;39:142–8.PubMed

14.

Bean JF, Kiely DK, LaRose S, Alian J, Frontera WR. Is stair climb power a clinically relevant measure of leg power impairments in at-risk older adults? Arch Phys Med Rehabil. 2007;88:604–9.PubMedCrossRef

15.

Lang T, Streeper T, Cawthon P, Baldwin K, Taaffe DR, Harris TB. Sarcopenia: etiology, clinical consequences, intervention, and assessment. Osteoporos Int. 2010;21:543–59.PubMedCrossRef

16.

Kostka T. Quadriceps maximal power and optimal shortening velocity in 335 men aged 23–88 years. Eur J Appl Physiol. 2005;95:140–5.PubMedCrossRef

17.

Wickham C, Cooper C, Margetts BM, Barker DJ. Muscle strength, activity, housing and the risk of falls in elderly people. Age Ageing. 1989;18:47–51.PubMedCrossRef

18.

Sayer AA, Syddall HE, Martin HJ, Dennison EM, Anderson FH, Cooper C. Falls, sarcopenia, and growth in early life: findings from the Hertfordshire cohort study. Am J Epidemiol. 2006;164:665–71.PubMedCrossRef

19.

Baumgartner RN, Koehler KM, Gallagher D, Romero L, Heymsfield SB, Ross RR, et al. Epidemiology of sarcopenia among the elderly in New Mexico. Am J Epidemiol. 1998;147:755–63.PubMed

20.

Muscaritoli M, Anker SD, Argilés J, Aversa Z, Bauer JM, Biolo G, et al. Consensus definition of sarcopenia, cachexia and pre-cachexia: joint document elaborated by special interest groups (SIG) “cachexia-anorexia in chronic wasting diseases” and “nutrition in geriatrics”. Clin Nutr. 2010;29:154–9.PubMedCrossRef

21.

Janssen I, Heymsfield SB, Ross R. Low relative skeletal muscle mass (sarcopenia) in older persons is associated with functional impairment and physical disability. J Am Geriatr Soc. 2002;50:889–96.PubMedCrossRef

22.

Guralnik JM, Ferrucci L, Pieper CF, Leveille SG, Markides KS, Ostir GV, et al. Lower extremity function and subsequent disability: consistency across studies, predictive models, and value of gait speed alone compared with the short physical performance battery. J Gerontol A Biol Sci Med Sci. 2000;55:M221–31.PubMedCrossRef

23.

Cruz-Jentoft AJ, Baeyens JP, Bauer JM, Boirie Y, Cederholm T, Landi F, 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. Age Ageing. 2010;39:412–23.PubMedCrossRef

24.

Sipilä S, Suominen H. Effects of strength and endurance training on thigh and leg muscle mass and composition in elderly women. J Appl Physiol. 1995;78:334–40.PubMed

25.

Burton LA, Sumukadas D. Optimal management of sarcopenia. Clin Interv Aging. 2010;5:217–28.PubMed

26.

Lenk K, Schuler G, Adams V. Skeletal muscle wasting in cachexia and sarcopenia: molecular pathophysiology and impact of exercise training. J Cachexia Sarcopenia Muscle. 2010;1:9–21.PubMedCrossRef

27.

Liu CJ, Latham NK. Progressive resistance strength training for improving physical function in older adults. Cochrane Database Syst Rev. 2009;3:CD002759.PubMed

28.

Houston DK, Nicklas BJ, Ding J, Harris TB, Tylavsky FA, Newman AB, et al. Dietary protein intake is associated with lean mass change in older, community-dwelling adults: the Health, Aging, and Body Composition (Health ABC) study. Am J Clin Nutr. 2008;87:150–5.PubMed

29.

Rozentryt P, von Haehling S, Lainscak M, Nowak JU, Kalantar-Zadeh K, Polonski L, et al. The effects of a high-caloric protein-rich oral nutritional supplement in patients with chronic heart failure and cachexia on quality of life, body composition, and inflammation markers: a randomized, double-blind pilot study. J Cachexia Sarcopenia Muscle. 2010;1:35–42.PubMedCrossRef

30.

Scognamiglio R, Piccolotto R, Negut C, Tiengo A, Avogaro A. Oral amino acids in elderly subjects: effect on myocardial function and walking capacity. Gerontology. 2005;51:302–8.PubMedCrossRef

31.

Fülster S, von Haehling S. A prospective study of the associations between 25-hydroxyvitamin D, sarcopenia progression and physical activity in older adults. Clin Endocrinol. 2010. doi:10.1111/j.1365-2265.2010.03888.x

32.

Hagerty L, Lachey JL, Kumar R, Pearsall RS, Sherman M, Seehra J. Age-related lean tissue loss is attenuated by treatment with a form of soluble activin receptor type IIB. J Cachexia Sarcopenia Muscle. 2010;1:65–6 (Abstract: 051).

33.

Murphy KT, Koopman R, Leger B, Trieu J, Ibebunjo C, Lynch GS. Novel effects of myostatin inhibition on skeletal muscles of aging mice: implications for sarcopenia. J Cachexia Sarcopenia Muscle. 2010;1:70–1 (Abstract: 063).

34.

von Haehling S, Morley JE, Coats AJ, Anker SD. Ethical guidelines for authorship and publishing in the Journal of Cachexia, Sarcopenia and Muscle. J Cachexia Sarcopenia Muscle. 2010;1:7–8.CrossRef

35.

Janssen I. Influence of sarcopenia on the development of physical disability: the cardiovascular health study. J Am Geriatr Soc. 2006;54:56–62.PubMedCrossRef

36.

Rolland Y, Lauwers-Cances V, Cournot M, Nourhashémi F, Reynish W, Rivière D, et al. Sarcopenia, calf circumference, and physical function of elderly women: a cross-sectional study. J Am Geriatr Soc. 2003;51:1120–4.PubMedCrossRef

37.

Lauretani F, Russo CR, Bandinelli S, Bartali B, Cavazzini C, Di Iorio A, et al. Age-associated changes in skeletal muscles and their effect on mobility: an operational diagnosis of sarcopenia. J Appl Physiol. 2003;95:1851–60.PubMed

Title: An overview of sarcopenia: facts and numbers on prevalence and clinical impact
Authors: Stephan von Haehling
John E. Morley
Stefan D. Anker
Publication date: 01-12-2010
Publisher: Springer-Verlag
Published in: Journal of Cachexia, Sarcopenia and Muscle / Issue 2/2010
Print ISSN: 2190-5991
Electronic ISSN: 2190-6009
DOI: https://doi.org/10.1007/s13539-010-0014-2

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