Summary
Data from retrospective and prospective observational and case-control studies suggest that activity is associated with reduced fracture risk, but consistently replicated bias may be responsible for this desired endpoint. Exercise during growth is likely to build a larger and stronger skeleton. However, cessation of exercise may erode the benefits. Modeling changes produced by exercise during growth may be permanent; remodeling changes may not be. Exercise during adulthood produces small increments in BMD or may prevent bone loss. Absence of evidence is not evidence of absence of effect, but the null hypothesis that exercise has no effect on fracture rates in old age cannot be rejected by any published data. Proof requires demonstration of a reduction in spine and hip fractures in well-designed and well-executed prospective randomized studies; none exists. Blinded studies cannot be done, but open trials can and should be done.
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References
Cooper C, Campion G, Melton LJD (1992) Hip fractures in the elderly: a world-wide projection. Osteoporosis Int 2:285- 289
Gregg EW, Cauley JA, Seeley DG, Ensrud KE, Bauer DC (1998) Physical activity and osteoporotic fracture risk in older women. Study of Osteoporotic Fractures Research Group [see comments]. Ann Intern Med 129: 81–88
Wickham CA, Walsh K, Cooper C, Barker DJ, Margetts BM, Morris J, et al (1989) Dietary calcium, physical activity, and risk of hip fracture: a prospective study [see comments]. BMJ 299 (6704): 889–892
Cooper C, Barker DJ, Wickham C (1988) Physical activity, muscle strength, and calcium intake in fracture of the proximal femur in Britain. BMJ 297(6661): 1443–1446
Coupland C, Wood D, Cooper C (1993) Physical inactivity is an independent risk factor for hip fracture in the elderly. J Epidemiol Community Health 47: 441–443
Cummings SR, Nevitt MC, Browner WS, Stone K, Fox KM, Ensrud KE, et al (1995) Risk factors for hip fracture in white women. Study of Osteoporotic Fractures Research Group [see comments]. N Engl J Med 332: 767–773
Paganini-Hill A, Chao A, Ross RK, Henderson BE (1991) Exercise and other factors in the prevention of hip fracture: the Leisure World study. Epidemiology 2: 16–25
Farmer ME, Harris T, Madans JH, Wallace RB, Cornoni-Huntley J, White LR (1989) Anthropometric indicators and hip fracture. The NHANES I epidemiologic follow-up study. J Am Geriatr Soc 37: 9–16
Joakimsen RM, Fonnebo V, Magnus JH, Stormer J, Tollan A, Sogaard AJ (1998) The Tromso Study: physical activity and the incidence of fractures in a middle-aged population. J Bone Miner Res 13: 1149–1157
Meyer HE, Tverdal A, Falch JA (1993) Risk factors for hip fracture in middle-aged Norwegian women and men. Am J Epidemiol 137: 1203–1211
Johnell O, Gullberg B, Kanis JA, Allander E, Elffors L, Dequeker J, et al (1995) Risk factors for hip fracture in European women: the MEDOS Study. Mediterranean Osteoporosis Study. J Bone Miner Res 10: 1802–1815
Silman AJ, O’Neill TW, Cooper C, Kanis J, Felsenberg D (1997) Influence of physical activity on vertebral deformity in men and women: results from the European Vertebral Osteoporosis Study. J Bone Miner Res 12: 813–819
O’Neill TW, Marsden D, Adams JE, Silman AJ (1996) Risk factors, falls, and fracture of the distal forearm in Manchester, UK. J Epidemiol Community Health 50: 288–292
Mallmin H, Ljunghall S, Persson I, Bergstrom R (1994) Risk factors for fractures of the distal forearm: a population-based case-control study. Osteoporosis Int 4: 298–304
Kelsey JL, Browner WS, Seeley DG, Nevitt MC, Cummings SR (1992) Risk factors for fractures of the distal forearm and proximal humerus. The Study of Osteoporotic Fractures Research Group [published erratum appears in Am J Epidemiol 1992; 135(10): 1183]. Am J Epidemiol 135: 477–489
Kujala UM, Kaprio J, Kannus P, Sarna S, Koskenvuo M (2000) Physical activity and osteoporotic hip fracture risk in men. Arch Intern Med 160: 705–708
Gregg EW, Pereira MA, Caspersen CJ (2000) Physical activity, falls, and fractures among older adults: a review of the epidemiologic evidence. J Am Geriatr Soc 48: 883–893
Grisso JA, Kelsey JL, O’Brien LA, Miles CG, Sidney S, Maislin G, et al (1997) Risk factors for hip fracture in men. Hip Fracture Study Group. Am J Epidemiol 145: 786–793
Chan HH, Lau EM, Woo J, Lin F, Sham A, Leung PC (1996) Dietary calcium intake, physical activity and the risk of vertebral fracture in Chinese. Osteoporosis Int 6: 228–232
Greendale GA, Barrett-Connor E, Edelstein S, Ingles S, Haile R (1995) Lifetime leisure exercise and osteoporosis. The Rancho Bernardo study. Am J Epidemiol 141: 951–959
Nguyen TV, Eisman JA, Kelly PJ, Sambrook PN (1996) Risk factors for osteoporotic fractures in elderly men. Am J Epidemiol 144: 255–263
Karlsson MK, Linden C, Karlsson C, Johnell O, Obrant K, Seeman E (2000) Exercise during growth and bone mineral density and fractures in old age [letter]. Lancet 355(9202): 469–470
Wyshak G, Frisch RE, Albright TE, Albright NL, Schifi I (1987) Bone fractures among former college athletes compared with nonathletes in the menopausal and postmenopausal years. Obstet Gynecol 69: 121–126
Jones HH, Priest JD, Hayes WC, Tichenor CC, Nagel DA (1977) Humeral hypertrophy in response to exercise. J Bone Joint Surg [Am] 59: 204–208
Huddleston AL, Rockwell D, Kulund DN, Harrison RB (1980) Bone mass in lifetime tennis athletes. JAMA 244: 1107–1109
Kannus P, Haapasalo H, Sievanen H, Oja P, Vuori I (1994) The site-specific effects of long-term unilateral activity on bone mineral density and content. Bone 15: 279–284
Haapasalo H, Sievanen H, Kannus P, Heinonen A, Oja P, Vuori I (1996) Dimensions and estimated mechanical characteristics of the humerus after long-term tennis loading. J Bone Miner Res 11: 864–872
Kannus P, Haapasalo H, Sankelo M, Sievanen H, Pasanen M, Heinonen A, et al (1995) Effect of starting age of physical activity on bone mass in the dominant arm of tennis and squash players. Ann Intern Med 123: 27–31
Dyson K, Blimkie CJ, Davison KS, Webber CE, Adachi JD (1997) Gymnastic training and bone density in pre-adolescent females. Med Sci Sports Exerc 29: 443–450
Bass S, Pearce G, Bradney M, Hendrich E, Delmas PD, Harding A, et al (1998) Exercise before puberty may confer residual benefits in bone density in adulthood: studies in active prepubertal and retired female gymnasts. J Bone Miner Res 13: 500–507
Slemenda CW, Reister TK, Hui SL, Miller JZ, Christian JC, Johnston CC Jr (1994) Influences on skeletal mineralization in children and adolescents: evidence for varying effects of sexual maturation and physical activity. J Pediatr 125: 201–207
Cooper C, Cawley M, Bhalla A, Egger P, Ring F, Morton L, et al(1995) Childhood growth, physical activity, and peak bone mass in women. J Bone Miner Res 10: 940–947
Bailey DA, McKay HA, Mirwald RL, Crocker PR, Faulkner RA (1999) A six-year longitudinal study of the relationship of physical activity to bone mineral accrual in growing children: the University of Saskatchewan bone mineral accrual study. J Bone Miner Res 14: 1672–1679
Morris FL, Naughton GA, Gibbs JL, Carlson JS, Wark JD (1997) Prospective ten-month exercise intervention in premenarcheal girls: positive effects on bone and lean mass. J Bone Miner Res 12: 1453–1462
Bradney M, Pearce G, Naughton G, Sullivan C, Bass S, Beck T, et al (1998) Moderate exercise during growth in prepubertal boys: changes in bone mass, size, volumetric density, and bone strength: a controlled prospective study [see comments]. J Bone Miner Res 13: 1814–1821
McKay HA, Petit MA, Schutz RW, Prior JC, Barr SI, Khan KM (2000) Augmented trochanteric bone mineral density after modified physical education classes: a randomized school-based exercise intervention study in prepubescent and early pubescent children. J Pediatr 136: 156–162
Heinonen A, Kannus P, Sievanen H, Pasanen M, Oja P, Vuori I (1999) Good maintenance of high-impact activity-induced bone gain by voluntary, unsupervised exercises: an 8-month followup of a randomized controlled trial. J Bone Miner Res 14: 125–128
Bradney M, Karlsson MK, Duan Y, Stuckey S, Bass S, Seeman E (2000) Heterogeneity in the growth of the axial and appendicular skeleton in boys: implications for the pathogenesis of bone fragility in men. J Bone Miner Res 15: 1871–1878
Bass S, Saxon L, Daly R (1999) Heterogeneity in the osteotrophic response to physical loading during different stages of puberty. J Bone Miner Res 15(S1): 558
Turner RT, Hannon KS, Demers LM, Buchanan J, Bell NH (1989) Differential effects of gonadal function on bone histomorphometry in male and female rats. J Bone Miner Res 4: 557–563
Garn S (1970) The earlier gain and later loss of cortical bone. Nutritional perspectives. Thomas, Springfield, pp 3–120
Woo SL, Kuei SC, Amiel D, Gomez MA, Hayes WC, White FC, et al (1981) The effect of prolonged physical training on the properties of long bone: a study of Wolff’s law. J Bone Joint Surg [Am] 63: 780–787
Ruff CB, Walker A, Trinkaus E (1994) Postcranial robusticity inHomo. III: Ontogeny. Am J Phys Anthropol 93: 35–54
Wronski TJ, Smith JM, Jee WAS (1981) Variations in mineral apposition rate of trabecular bone within the beagle skeleton. Calcif Tissue Int 33: 583–586
Ashizawa N, Nonaka K, Michikami S, Mizuki T, Amagai H, Tokuyama K, et al (1999) Tomographical description of tennisloaded radius: reciprocal relation between bone size and volumetric BMD. J Appl Physiol 86: 1347–1351
Margulies JY, Simkin A, Leichter I, Bivas A, Steinberg R, Giladi M, et al (1986) Effect of intense physical activity on the bonemineral content in the lower limbs of young adults. J Bone Joint Surg [Am] 68: 1090–1093
Haapasalo H, Kontulainen S, Sievanen H, Kannus P, Jarvinen M, Vuori I (2000) Exercise-induced bone gain is due to enlargement in bone size without a change in volumetric bone density: a peripheral quantitative computed tomography study of the upper arms of male tennis players. Bone 27: 351–357
Damien E, Price JS, Lanyon LE (2000) Mechanical strain stimulates osteoblast proliferation through the estrogen receptor in males as well as females. J Bone Miner Res 15: 2169–2177
Jessop HL, Suswillo RFL, Rawlinson SCF, Zaman G, Lee K, Das-Gupta V, Pitsillides AA, Lanyon LE (2004) Osteoblastlike cells from estrogen receptor alpha knockout mice have deficient responses to mechanical strain. J Bone Miner Res 19: 938–946
Bouxsein ML, Marcus R (1994) Overview of exercise and bone mass. Rheum Dis Clin N Am 20: 787–802
Drinkwater BL (1993) Exercise in the prevention of osteoporosis. Osteoporosis Int 3(suppl 1): 169–171
Forwood MR, Burr DB (1993) Physical activity and bone mass: exercises in futility? Bone Miner 21: 89–112
Friedlander AL, Genant HK, Sadowsky S, Byl NN, Gluer CC (1995) A two-year program of aerobics and weight training enhances bone mineral density of young women. J Bone Miner Res 10: 574–585
Gleeson PB, Protas EJ, Leblanc AD, Schneider VS, Evans HJ (1990) Effects of weight lifting on bone mineral density in premenopausal women. J Bone Miner Res 5: 153–158
Lohman T, Going S, Pamenter R, Hall M, Boyden T, Houtkooper L, et al (1995) Effects of resistance training on regional and total bone mineral density in premenopausal women: a randomized prospective study. J Bone Miner Res 10: 1015–1024
Rockwell JC, Sorensen AM, Baker S, Leahey D, Stock JL, Michaels J, et al (1990) Weight training decreases vertebral bone density in premenopausal women: a prospective study. J Clin Endocrinol Metab 71: 988–993
Snow-Harter C, Bouxsein ML, Lewis BT, Carter DR, Marcus R (1992) Effects of resistance and endurance exercise on bone mineral status of young women: a randomized exercise intervention trial. J Bone Miner Res 7: 761–769
Kerr D, Morton A, Dick I, Prince R (1996) Exercise effects on bone mass in postmenopausal women are site-specific and loaddependent. J Bone Miner Res 11: 218–225
Bassey EJ, Ramsdale SJ (1995) Weight-bearing exercise and ground reaction forces: a 12-month randomized controlled trial of effects on bone mineral density in healthy postmenopausal women. Bone 16: 469–476
Heinonen A, Sievanen H, Kannus P, Oja P, Vuori I (1996) Effects of unilateral strength training and detraining on bone mineral mass and estimated mechanical characteristics of the upper limb bones in young women. J Bone Miner Res 11: 490–501
Vuori I, Heinonen A, Sievanen H, Kannus P, Pasanen M, Oja P (1994) Effects of unilateral strength training and detraining on bone mineral density and content in young women: a study of mechanical loading and deloading on human bones. Calcif Tissue Int 55: 59–67
Cann CE, Martin MC, Genant HK, Jaffe RB (1984) Decreased spinal mineral content in amenorrheic women. JAMA 251: 626–629
Drinkwater BL, Nilson K, Chesnut CH, Bremner WJ, Shainholtz S, Southworth MB (1984) Bone mineral content of amenorrheic and eumenorrheic athletes. N Engl J Med 311: 277–281
Pearce G, Bass S, Young N, Formica C, Seeman E (1996) Does weight-bearing exercise protect against the effects of exerciseinduced oligomenorrhea on bone density? Osteoporos Int 6: 448–452
Drinkwater BL, Nilson K, Ott S, Chesnut CH (1986) Bone mineral density after resumption of menses in amenorrheic athletes. JAMA 256: 380–382
Keen AD, Drinkwater BL (1997) Irreversible bone loss in former amenorrheic athletes [editorial]. Osteoporosis Int 7: 311–315
Micklesfield LK, Reyneke L, Fataar A, Myburgh KH (1998) Long-term restoration of deficits in bone mineral density is inadequate in premenopausal women with prior menstrual irregularity. Clin J Sport Med 8: 155–163
Otis CL (1992) Exercise-associated amenorrhea. Clin Sports Med 11: 351–362
Dalsky GP, Stocke KS, Ehsani AA, Slatopolsky E, Lee WC, Birge SJ Jr (1988) Weight-bearing exercise training and lumbar bone mineral content in postmenopausal women. Ann Intern Med 108: 824–828
Nelson ME, Fiatarone MA, Morganti CM, Trice I, Greenberg RA, Evans WJ (1994) Effects of high-intensity strength training on multiple risk factors for osteoporotic fractures. A randomized controlled trial. JAMA 272: 1909–1914
Ebrahim S, Thompson PW, Baskaran V, Evans K (1997) Randomized placebo-controlled trial of brisk walking in the prevention of postmenopausal osteoporosis. Age Ageing 26: 253–260
Lau EM, Woo J, Leung PC, Swaminathan R, Leung D (1992) The effects of calcium supplementation and exercise on bone density in elderly Chinese women. Osteoporosis Int 2: 168–173
McMurdo ME, Mole PA, Paterson CR (1997) Controlled trial of weight bearing exercise in older women in relation to bone density and falls [see comments]. BMJ 314(7080): 569
Prince R, Devine A, Dick I, Criddle A, Kerr D, Kent N, et al(1995) The effects of calcium supplementation (milk powder or tablets) and exercise on bone density in postmenopausal women. J Bone Miner Res 10: 1068–1075
Pruitt LA, Taaffe DR, Marcus R (1995) Effects of a one-year high-intensity versus low-intensity resistance training program on bone mineral density in older women. J Bone Miner Res 10: 1788–1795
Hartard M, Haber P, Ilieva D, Preisinger E, Seidl G, Huber J (1996) Systematic strength training as a model of therapeutic intervention. A controlled trial in postmenopausal women with osteopenia. Am J Phys Med Rehabil 75: 21–28
Kelley GA (1998) Aerobic exercise and bone density at the hip in postmenopausal women: a meta-analysis. Prev Med 27: 798–807
Karlsson MK, Johnell O, Obrant KJ (1993) Bone mineral density in professional ballet dancers. Bone Miner 21: 163–169
Karlsson MK, Johnell O, Obrant KJ (1995) Is bone mineral density advantage maintained long-term in previous weight lifters? Calcif Tissue Int 57: 325–328
Karlsson MK, Hasserius R, Obrant KJ (1996) Bone mineral density in athletes during and after career: a comparison between loaded and unloaded skeletal regions. Calcif Tissue Int 59: 245–248
Karlsson MK, Johnell O, Obrant KJ (1993) Bone mineral density in weight lifters. Calcif Tissue Int 52: 212–215
Khan KM, Green RM, Saul A, Bennell KL, Crichton KJ, Hopper JL, et al (1996) Retired elite female ballet dancers and nonathletic controls have similar bone mineral density at weightbearing sites. J Bone Miner Res 11: 1566–1574
Duppe H, Johnell O, Lundborg G, Karlsson M, Redlund-Johnell I (1994) Long-term results of fracture of the scaphoid. A followup study of more than thirty years. J Bone Joint Surg [Am] 76: 249–252
Etherington J, Harris PA, Nandra D, Hart DJ, Wolman RL, Doyle DV, et al (1996) The effect of weight-bearing exercise on bone mineral density: a study of female ex-elite athletes and the general population. J Bone Miner Res 11: 1333–1338
Kontulainen S, Kannus P, Haapasalo H, Heinonen A, Sievanen H, Oja P, et al (1999) Changes in bone mineral content with decreased training in competitive young adult tennis players and controls: a prospective 4-yr follow-up. Med Sci Sports Exerc 31: 646–652
Michel BA, Lane NE, Bjorkengren A, Bloch DA, Fries JF (1992) Impact of running on lumbar bone density: a 5-year longitudinal study. J Rheumatol 19: 1759–1763
Lipsitz LA, Nakajima I, Gagnon M, Hirayama T, Connelly CM, Izumo H (1994) Muscle strength and fall rates among residents of Japanese and American nursing homes: an International Cross- Cultural Study. J Am Geriatr Soc 42: 953–959
Lord SR, Ward JA (1999) Age-associated differences in sensorimotor function and balance in community dwelling women. Age Ageing 23: 452–460
Hakkinen K, Hakkinen A (1995) Neuromuscular adaptations during intensive strength training in middle-aged and elderly males and females. Electromyogr Clin Neurophysiol 35: 137–147
Tracy BL, Ivey FM, Hurlbut D, Martel GF, Lemmer JT, Siegel EL, et al (1999) Muscle quality. II. Effects of strength training in 65- to 75-yr-old men and women. J Appi Physiol 86: 195–201
Roman WJ, Fleckenstein J, Stray-Gundersen J, Alway SE, Peshock R, Gonyea WJ (1993) Adaptations in the elbow flexors of elderly males after heavy-resistance training. J Appl Physiol 74: 750–754
Hyakutake S, Goto S, Yamagata M, Moriya H (1994) Relationship between bone mineral density of the proximal femur and lumbar spine and quadriceps and hamstrings torque in healthy Japanese subjects. Calcif Tissue Int 55: 223–229
Snow-Harter C, Bouxsein M, Lewis B, Charette S, Weinstein P, Marcus R (1990) Muscle strength as a predictor of bone mineral density in young women. J Bone Miner Res 5: 589–595
Pocock N, Eisman J, Gwinn T, Sambrook P, Kelly P, Freund J, et al (1989) Muscle strength, physical fitness, and weight but not age predict femoral neck bone mass. J Bone Miner Res 4: 441–448
Seeman E, Hopper JL, Young NR, Formica C, Goss P, Tsalamandris C (1996) Do genetic factors explain associations between muscle strength, lean mass, and bone density? A twin study. Am J Physiol 270(2 pt 1): E320-E327
Kritz-Silverstein D, Barrett-Connor E (1994) Grip strength and bone mineral density in older women. J Bone Miner Res 9: 45–51
Tinetti ME, Williams TF, Mayewski R (1986) Fall risk index for elderly patients based on number of chronic disabilities [see comments]. Am J Med 80: 429–434
Wolfson LI, Whipple R, Amerman P, Kleinberg A (1986) Stressing the postural response. A quantitative method for testing balance. J Am Geriatr Soc 34: 845–850
Overstall PW, Johnson AL, Exton-Smith AN (1978) Instability and falls in the elderly. Age Ageing Suppl:92-96
Tinetti ME, Speechley M, Ginter SF (1988) Risk factors for falls among elderly persons living in the community. N Engl J Med 319: 1701–1707
Myers AH, Young Y, Langlois JA (1996) Prevention of falls in the elderly. Bone 18(suppl 1): 87S-101S
Fiatarone MA, O’Neill EF, Ryan ND, Clements KM, Solares GR, Nelson ME, et al (1994) Exercise training and nutritional supplementation for physical frailty in very elderly people [see comments]. N Engl J Med 330: 1769–1775
Daley MJ, Spinks WL (2000) Exercise, mobility and aging. Sports Med 29: 1–12
Nevitt MC, Cummings SR, Hudes ES (1991) Risk factors for injurious falls: a prospective study. J Gerontol 46: M164-M170
Hu MH, Woollacott MH (1994) Multisensory training of standing balance in older adults: II. Kinematic and electromyographic postural responses. J Gerontol 49: M62-M71
Nevitt MC, Cummings SR, Kidd S, Black D (1989) Risk factors for recurrent nonsyncopal falls. A prospective study. JAMA 261: 2663–2668
Province MA, Hadley EC, Hornbrook MC, Lipsitz LA, Miller JP, Mulrow CD, et al (1995) The effects of exercise on falls in elderly patients. A preplanned meta-analysis of the FICSIT Trials. Frailty and Injuries: Cooperative Studies of Intervention Techniques [see comments]. JAMA 273: 1341–1347
Fiatarone MA, Marks EC, Ryan ND, Meredith CN, Lipsitz LA, Evans WJ (1990) High-intensity strength training in nonagenarians. Effects on skeletal muscle. JAMA 263: 3029–3034
Hakkinen K, Komi PV (1983) Alterations of mechanical characteristics of human skeletal muscle during strength training. Eur J Appl Physiol 50: 161–172
Narici MV, Roi GS, Landoni L, Minetti AE, Cerretelli P (1989) Changes in force, cross-sectional area and neural activation during strength training and detraining of the human quadriceps. Eur J Appl Physiol 59: 310–319
Pyka G, Lindenberger E, Charette S, Marcus R (1994) Muscle strength and fiber adaptations to a year-long resistance training program in elderly men and women. J Gerontol 49: M22-M27
Lord SR, Ward JA, Williams P, Strudwick M (1995) The effect of a 12-month exercise trial on balance, strength, and falls in older women: a randomized controlled trial. J Am Geriatr Soc 43: 1198–1206
Heislein DM, Harris BA, Jette AM (1994) A strength training program for postmenopausal women: a pilot study. Arch Phys Med Rehabil 75: 198–204
Ryan AS, Treuth MS, Rubin MA, Miller JP, Nicklas BJ, Landis DM, et al (1994) Effects of strength training on bone mineral density: hormonal and bone turnover relationships. J Appl Physiol 77: 1678–1684
Campbell AJ, Borrie MJ, Spears GF (1989) Risk factors for falls in a community-based prospective study of people 70 years and older. J Gerontol 44: M112-M117
Grisso JA, Kelsey JL, Strom BL, Chiu GY, Maislin G, O’Brien LA, et al (1991) Risk factors for falls as a cause of hip fracture in women. The Northeast Hip Fracture Study Group. N Engl J Med 324: 1326–1331
Greenspan SL, Myers ER, Maitland LA, Resnick NM, Hayes WC (1991) Fall severity and bone mineral density as risk factors for hip fracture in ambulatory elderly. JAMA 271: 128–133
Hayes WC, Myers ER, Morris JN, Gerhart TN, Yett HS, Lipsitz LA (1993) Impact near the hip dominates fracture risk in elderly nursing home residents who fall. Calcif Tissue Int 52: 192–198
Campbell AJ, Borrie MJ, Spears GF, Jackson SL, Brown JS, Fitzgerald JL (1990) Circumstances and consequences of falls experienced by a community population 70 years and over during a prospective study [published erratum appears in Age Ageing 1990;19(5):345-346] [see comments]. Age Ageing 19: 136–141
Tinetti ME, Inouye SK, Gill TM, Doucette JT (1995) Shared risk factors for falls, incontinence, and functional dependence. Unifying the approach to geriatric syndromes. JAMA 273: 1348–1353
O’Loughlin JL, Robitaille Y, Boivin JF, Suissa S (1993) Incidence of and risk factors for falls and injurious falls among the community-dwelling elderly. Am J Epidemiol 137: 342–354
Graafmans WC, Ooms ME, Hofstee HM, Bezemer PD, Bouter LM, Lips P (1996) Falls in the elderly: a prospective study of risk factors and risk profiles. Am J Epidemiol 143: 1129–1136
Wolf SL, Barnhart HX, Kutner NG, McNeely E, Coogler C, Xu T (1996) Reducing frailty and falls in older persons: an investigation of Tai Chi and computerized balance training. Atlanta FICSIT Group. Frailty and Injuries: Cooperative Studies of Intervention Techniques [see comments]. J Am Geriatr Soc 44: 489–497
Tinetti ME, Baker DI, McAvay G, Claus EB, Garrett P, Gottschalk M, et al (1994) A multifactorial intervention to reduce the risk of falling among elderly people living in the community [see comments]. N Engl J Med 331: 821–827
Campbell AJ, Robertson MC, Gardner MM, Norton RN, Buchner DM (1999) Falls prevention over 2 years: a randomized controlled trial in women 80 years and older. Age Ageing 28: 513–518
Hornbrook MC, Stevens VJ, Wingfield DJ, Hollis JF, Greenlick MR, Ory MG (1994) Preventing falls among community-dwelling older persons: results from a randomized trial. Gerontologist 34: 16–23
Mulrow CD, Gerety MB, Kanten D, Cornell JE, DeNino LA, Chiodo L, et al (1994) A randomized trial of physical rehabilitation for very frail nursing home residents. JAMA 271: 519–524
Gillespie LD, Gillespie WJ, Cumming R, Lamb SE, Rowe BH (2000) Interventions for preventing falls in the elderly. Cochrane Database Syst Rev 2:CD000340
Rubenstein LZ, Josephson KR, Robbins AS (1994) Falls in the nursing home. Ann Intern Med 121: 442–451
Wagner EH, Lacroix AZ, Grothaus L, Leveille SG, Hecht JA, Artz K, et al (1994) Preventing disability and falls in older adults: a population-based randomized trial. Am J Public Health 84: 1800–1806
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Seeman, E. Loading and bone fragility. J Bone Miner Metab 23 (Suppl 1), 23–29 (2005). https://doi.org/10.1007/BF03026319
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DOI: https://doi.org/10.1007/BF03026319