Grip strength changes over 27 yr in Japanese-American men.

The aim of this study was to describe changes in grip strength over a follow-up period of approximately 27 yr and to study the associations of rate of strength decline with weight change and chronic conditions. The data are from the Honolulu Heart Program, a prospective population-based study established in 1965. Participants at exam 1 were 8,006 men (ages 45-68 yr) who were of Japanese ancestry and living in Hawaii. At follow-up, 3,741 men (age range, 71-96 yr) participated. Those who died before the follow-up showed significantly lower grip-strength values at baseline than did the survivors. The average annualized strength change among the survivors was -1.0%. Steeper decline (>1.5%/yr) was associated with older age at baseline, greater weight decrease, and chronic conditions such as stroke, diabetes, arthritis, coronary heart disease, and chronic obstructive pulmonary disease. The risk factors for having very low hand-grip strength at follow-up, here termed grip-strength disability (</=21 kg, the lowest 10th percentile), were largely same as those for steep strength decline. However, the age-adjusted correlation between baseline and follow-up strength was strong (r = 0.557, P < 0.001); i.e., those who showed greater grip strength at baseline were also likely to do so 27 yr later. Consequently, those in the lowest grip-strength tertile at baseline had about eight times greater risk of grip-strength disability than those in the highest tertile because of their lower reserve of strength. In old age, maintenance of optimal body mass may help prevent steep strength decrease and poor absolute strength.

[1]  S. Lamberts,et al.  The endocrinology of aging. , 1997, Science.

[2]  E Heikkinen,et al.  Maximal isometric strength and mobility among 75-year-old men and women. , 1994, Age and ageing.

[3]  R. Conwit,et al.  Age-associated loss of power and strength in the upper extremities in women and men. , 1997, The journals of gerontology. Series A, Biological sciences and medical sciences.

[4]  A. Young Exercise physiology in geriatric practice. , 2009, Acta medica Scandinavica. Supplementum.

[5]  G. Grimby,et al.  Muscle performance and structure in the elderly as studied cross-sectionally and longitudinally. , 1995, The journals of gerontology. Series A, Biological sciences and medical sciences.

[6]  D Bourbonnais,et al.  Performance of the 'unaffected' upper extremity of elderly stroke patients. , 1996, Stroke.

[7]  J. Feyzi,et al.  Plasma adrenocorticotropic hormone in the rat demonstrates three different rhythms within 24 h. , 1989, Neuroendocrinology.

[8]  J. Lexell,et al.  Aging of human muscle: structure, function and adaptability , 1995, Scandinavian journal of medicine & science in sports.

[9]  T. Rantanen,et al.  Maximal isometric knee extension strength and stair-mounting ability in 75- and 80-year-old men and women. , 1996, Scandinavian journal of rehabilitation medicine.

[10]  J. Fleg,et al.  Age and gender comparisons of muscle strength in 654 women and men aged 20-93 yr. , 1997, Journal of applied physiology.

[11]  W. Evans What is sarcopenia? , 1995, The journals of gerontology. Series A, Biological sciences and medical sciences.

[12]  Erling Asmussen,et al.  A Follow‐Up Longitudinal Study of Selected Physiologic Functions in Former Physical Education Students–After Forty Years , 1975, Journal of the American Geriatrics Society.

[13]  P. Savage,et al.  Carrying the burden of cardiovascular risk in old age: associations of weight and weight change with prevalent cardiovascular disease, risk factors, and health status in the Cardiovascular Health Study. , 1997, The American journal of clinical nutrition.

[14]  E. Bassey,et al.  Normal values for handgrip strength in 920 men and women aged over 65 years, and longitudinal changes over 4 years in 620 survivors. , 1993, Clinical science.

[15]  E Heikkinen,et al.  Physical Activity and the Changes in Maximal Isometric Strength in Men and Women from the Age of 75 to 80 Years , 1997, Journal of the American Geriatrics Society.

[16]  J. Tobin,et al.  The role of muscle loss in the age-related decline of grip strength: cross-sectional and longitudinal perspectives. , 1990, Journal of gerontology.

[17]  F J Clement,et al.  Longitudinal and cross-sectional assessments of age changes in physical strength as related to sex, social class, and mental ability. , 1974, Journal of gerontology.

[18]  S. Mazzuca,et al.  Quadriceps Weakness and Osteoarthritis of the Knee , 1997, Annals of Internal Medicine.

[19]  B. Saltin,et al.  The ageing muscle. , 1983, Clinical physiology.

[20]  L. Ferrucci,et al.  Departures from linearity in the relationship between measures of muscular strength and physical performance of the lower extremities: the Women's Health and Aging Study. , 1997, The journals of gerontology. Series A, Biological sciences and medical sciences.

[21]  S. Going,et al.  Aging and Body Composition: Biological Changes and Methodological Issues , 1995, Exercise and sport sciences reviews.

[22]  H. Suominen Changes in physical characteristics and body composition during 5-year follow-up in 75- and 80-year-old men and women. , 1997, Scandinavian journal of social medicine. Supplementum.

[23]  E. Bassey Measurement of muscle strength and power , 1997, Muscle & nerve. Supplement.

[24]  Relation between gait speed, knee muscle torque and motor scores in post-stroke patients. , 1995, Scandinavian journal of caring sciences.

[25]  Daniel L. McGee,et al.  Mortality and optimal body mass index in a sample of the US population. , 1998, American journal of epidemiology.

[26]  R. Reed,et al.  The Relationship between Muscle Mass and Muscle Strength in the Elderly , 1991, Journal of the American Geriatrics Society.

[27]  R. Lazarus,et al.  Handgrip strength and insulin levels: cross-sectional and prospective associations in the Normative Aging Study. , 1997, Metabolism: clinical and experimental.

[28]  D. Skelton,et al.  Muscle function of women aged 65–89 years meeting two sets of health criteria , 1997, Aging.

[29]  Aileen B. Sedman,et al.  A longitudinal study , 1987 .

[30]  C. Greig,et al.  The quadriceps strength of healthy elderly people remeasured after eight years , 1993, Muscle & nerve.

[31]  Markku Kauppinen,et al.  Maximal Isometric Muscle Strength and Socioeconomic Status, Health, and Physical Activity in 75-Year-Old Persons , 1994 .

[32]  D J Foley,et al.  Prevalence of dementia in older Japanese-American men in Hawaii: The Honolulu-Asia Aging Study. , 1996, JAMA.

[33]  M. Doherty,et al.  Muscle weakness in osteoarthritis. , 1997, Current opinion in rheumatology.

[34]  L. Sperling,et al.  Muscle function in 75-year-old men and women. A longitudinal study. , 1983, Scandinavian journal of rehabilitation medicine. Supplement.

[35]  K. Yano,et al.  Impaired Glucose Tolerance, Diabetes, and Cardiovascular Disease Risk Factor Profiles in the Elderly: The Honolulu Heart Program , 1996, Diabetes Care.

[36]  P. Allhoff,et al.  The Honolulu Heart Program , 1991 .

[37]  R. Havlik,et al.  The association between midlife blood pressure levels and late-life cognitive function. The Honolulu-Asia Aging Study. , 1995, JAMA.

[38]  J. Lexell Evidence for nervous system degeneration with advancing age. , 1997, The Journal of nutrition.