Training, Detraining and Bone: Effect of Exercise on Bone Mass and Structure With Special Reference to Maintenance of the Exercise-Induced Bone Gain

The objectives of this thesis were to investigate the effects of long-term mechanical loading on mass, size and mechanical strength of bone in male and female racquet sports players and to evaluate the maintenance of exercise-induced bone gain in these players during the following years of reduced training. In addition, bone maintenance was assessed after jumping exercise interventions in pubertal girls and premenopausal women. Altogether 223 subjects were involved in the study serie. The cross-sectional comparisons of bone mass, structure and strength between playing and nonplaying arm of racquet sports players showed that playing had increased bone size but not volumetric density of cortical bone. The loaded bone shaft seemed to have grown periosteally leading to 11-34% greater estimated bone strength in the loaded arm compared to its counterpart. In female players, this exercise-induced benefit in bone strength was more than two times greater if starting age of the activity had been before the onset of puberty. Prospective 4- and 5-year follow-up studies of male and female racquet sports players and their controls revealed that despite reduced training the exerciseinduced bone gain was well maintained in all groups of players regardless of the starting age of activity (either in growing years or in adulthood) and different amount of exercise-induced bone gain. Changes in training were weakly related to the changes in the side-to-side BMC difference even among players who had completely stopped training a minimum one year before the follow-up. As regards, the maintenance of the effects of jumping interventions on bone and physical performance were evaluted in perimenarcheal girls and in premenopausal females. Girls’ follow-up showed that although the greatest proportion of bone mineral accrual was attributable to growth, an additional bone gain achieved by jumping training was maintained at the lumbar spine at least a year after the end of the training. In premenopausal women, the significant bone gain that was obtained by 18-month high-impact exercise was well maintained three and half years after the end of the intervention, while the exercise-induced improvements in the neuromuscular performance had returned to the baseline level. All these findings emphasise long-term benefits of exercise on bone. Therefore, exercise can be recommended for preventing osteoporosis and related fractures.

Keywords: bone gain; bone mineral; bone strength; pQCT; DXA; exercise; tennis; training; detraining; osteoporosis

Year	Entry
1994	Parfitt AM. The two faces of growth: benefits and risks to bone integrity. Osteoporos Int. November 1994;4(6):382-398.
1995	Kohrt WM, Snead DB, Slatopolsky E, Birge SJ Jr. Additive effects of weight-bearing exercise and estrogen on bone mineral density in older women. J Bone Miner Res. September 1995;10(9):1303-1311.
1994	Kanis JA, Melton LJ III, Christiansen C, Johnston CC, Khaltaev N. The diagnosis of osteoporosis. J Bone Miner Res. August 1994;9(8):1137-1141.
1977	Martin RB, Atkinson PJ. Age and sex-related changes in the structure and strength of the human femoral shaft. J Biomech. 1977;10(4):223-231.
1984	Parfitt AM. The cellular basis of bone remodeling: the quantum concept reexamined in light of recent advances in the cell biology of bone. Calcif Tiss Int. March 1984;36(suppl 1):S37-S45.
1992	Einhorn TA. Bone strength: the bottom line. Calcif Tiss Int. November 1992;51(5):333-339.
1987	Frost HM. The mechanostat: a proposed pathogenic mechanism of osteoporoses and the bone mass effects of mechanical and nonmechanical agents. Bone Miner. April 1987;2(2):73-85.
1997	Morris FL, Naughton GA, Gibbs JL, Carlson JS, Wark JD. Prospective ten-month exercise intervention in premenarcheal girls: positive effects on bone and lean mass. J Bone Miner Res. September 1997;12(9):1453-1462.
1996	Haapasalo H, Sievanen H, Kannus P, Heinonen A, Oja P, Vuori I. Dimensions and estimated mechanical characteristics of the humerus after long-term tennis loading. J Bone Miner Res. June 1996;11(6):864-872.
1892	Wolff J. Das Gesetz der Transformation der Knochen. Berlin: Hirschwald; 1892.
1991	Martin RB. Determinants of the mechanical properties of bones. J Biomech. 1991;24(suppl 1):79-88.
1996	Genant HK, Engelke K, Fuerst T, Glüer C, Grampp S, Harris ST, Jergas M, Lang T, Lu Y, Majumdar S, Mathur A, Takada M. Noninvasive assessment of bone mineral and structure: state of the art. J Bone Miner Res. June 1996;11(6):707-730.
2002	Turner CH. Biomechanics of bone: determinants of skeletal fragility and bone quality. Osteoporos Int. February 2002;13(2):97-104.
1998	Haapasalo H, Kannus P, Sievänen H, Pasanen M, Uusi-Rasi K, Heinonen A, Oja P, Vuori I. Effect of long-term unilateral activity on bone mineral density of female junior tennis players. J Bone Miner Res. February 1998;13(2):310-319.
1994	Bouxsein ML, Myburgh KH, van der Meulen MCH, Lindenberger E, Marcus R. Age-related differences in cross-sectional geometry of the forearm bones in healthy women. Calcif Tiss Int. February 1994;54(2):113-118.
1992	Carter DR, Bouxsein ML, Marcus R. New approaches for interpreting projected bone densitometry data. J Bone Miner Res. February 1992;7(2):137-145.
2000	Beck TJ, Looker AC, Ruff CB, Sievanen H, Wahner HW. Structural trends in the aging femoral neck and proximal shaft: analysis of the third national health and nutrition examination survey dual‐energy x‐ray absorptiometry data. J Bone Miner Res. December 2000;15(12):2297-2304.
1996	Biewener AA, Fazzalari NL, Konieczynski DD, Baudinette RV. Adaptive changes in trabecular architecture in relation to functional strain patterns and disuse. Bone. July 1996;19(1):1-8.
2001	Currey JD. Bone strength: what are we trying to measure? Calcif Tiss Int. April 2001;68(4):205-210.
1991	Turner CH. Homeostatic control of bone structure: an application of feedback theory. Bone. 1991;12(3):203-217.
2000	Martin RB. Toward a unifying theory of bone remodeling. Bone. January 2000;26(1):1-6.
1993	van der Meulen MCH, Beaupré GS, Carter DR. Mechanobiologic influences in long bone cross-sectional growth. Bone. July–August 1993;14(4):635-642.
1999	Parkkari J, Kannus P, Palvanen M, Natri A, Vainio J, Aho H, Vuori I, Järvinen M. Majority of hip fractures occur as a result of a fall and impact on the greater trochanter of the femur: a prospective controlled hip fracture study with 206 consecutive patients. Calcif Tiss Int. July 1999;65(3):183-187.
1994	Nelson ME, Fiatarone MA, Morganti CM, Trice I, Greenberg RA, Evans WJ. Effects of high-intensity strength training on multiple risk factors for osteoporotic fractures: a randomized controlled trial. JAMA. December 28, 1994;271(24):1909-1914.
1981	Woo SL-Y, Kuei SC, Amiel D, Gomez MA, Hayes WC, White FC, Akeson WH. The effect of prolonged physical training on the properties of long bone: a study of Wolff's Law. J Bone Joint Surg. June 1981;63A(5):780-787.
1993	Hayes WC, Myers ER, Morris JN, Gerhart TN, Yett HS, Lipsitz LA. Impact near the hip dominates fracture risk in elderly nursing home residents who fall. Calcif Tiss Int. March 1993;52(3):192-198.
1984	Currey JD. Mechanical Adaptations of Bone. Princeton, NJ: Princeton University Press; 1984.
1989	Cummings SR, Nevitt MC. A hypothesis: the causes of hip fractures. J Gerontol Med Sci. September 1989;44(5):M107-M111.
2002	Petit MA, Mckay HA, MacKelvie KJ, Heinonen A, Khan KM, Beck TJ. A randomized school-based jumping intervention confers site and maturity-specific benefits on bone structural properties in girls: a hip structural analysis study. J Bone Miner Res. March 2002;17(3):363-372.
1995	Buckwalter JA, Glimcher MJ, Cooper RR, Recker R. Bone biology, I: structure, blood supply, cells, matrix, and mineralization. J Bone Joint Surg. August 1995;77A(8):1256-1275.
1996	Hangartner TN, Gilsanz V. Evaluation of cortical bone by computed tomography. J Bone Miner Res. October 1996;11(10):1518-1525.
1998	Bass S, Pearce G, Bradney M, Hendrich E, Delmas PD, Harding A, Seeman E. Exercise before puberty may confer residual benefits in bone density in adulthood: studies in active prepubertal and retired female gymnasts. J Bone Miner Res. March 1998;13(3):500-507.
2001	Hsieh Y, Robling AG, Ambrosius WT, Burr DB, Turner CH. Mechanical loading of diaphyseal bone in vivo: the strain threshold for an osteogenic response varies with location. J Bone Miner Res. December 2001;16(10):2291-2297.
1993	Turner CH, Burr DB. Basic biomechanical measurements of bone: a tutorial. Bone. 1993;14(4):595-608.
1998	Mosley JR, Lanyon LE. Strain rate as a controlling influence on adaptive modeling in response to dynamic loading of the ulna in growing male rats. Bone. October 1998;23(4):313-318.
1999	Adami S, Gatti D, Braga V, Bianchini D, Rossini M. Site-specific effects of strength training on bone structure and geometry of ultradistal radius in postmenopausal women. J Bone Miner Res. January 1999;14(1):120-124.
2000	Faulkner KG. Bone matters: are density increases necessary to reduce fracture risk? J Bone Miner Res. February 2000;15(2):183-187.
1997	Heinonen A. Exercise as an Osteogenic Stimulus [PhD thesis]. University of Jyväskylä; 1997.
1988	Dalsky GP, Stocke KS, Ehsani AA, Slatopolsky E, Lee WC, Birge SJ Jr. Weight-bearing exercise training and lumbar bone mineral content in postmenopausal women. Ann Intern Med. June 1988;108(6):824-828.
1982	Ruff CB, Hayes WC. Subperiosteal expansion and cortical remodeling of the human femur and tibia with aging. Science. September 3, 1982;217(4563):945-948.
1999	Bailey DA, Mckay HA, Mirwald RL, Crocker PRE, Faulkner RA. 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. October 1999;14(10):1672-1679.
1997	Seeman E. From density to structure: growing up and growing old on the surfaces of bone. J Bone Miner Res. April 1997;12(4):509-521.
1994	Spadaro JA, Werner FW, Brenner RA, Fortino MD, Fay LA, Edwards WT. Cortical and trabecular bone contribute strength to the osteopenic distal radius. J Orthop Res. March 1994;12(2):211-218.
1988	Ruff CB, Hayes WC. Sex differences in age‐related remodeling of the femur and tibia. J Orthop Res. November 1988;6(6):886-896.
2002	Burr DB. Targeted and nontargeted remodeling. Bone. January 2002;30(1):2-4.
2001	Fuchs RK, Bauer JJ, Snow CM. Jumping improves hip and lumbar spine bone mass in prepubescent children: a randomized controlled trial. J Bone Miner Res. January 2001;16(1):148-156.
1998	Haapasalo H. Physical Activity and Growing Bone. Development of Peak Bone Mass With Special Reference to the Effects of Unilateral Physical Activity [PhD thesis]. Tampere University; 1998.
1990	Mosekilde L, Mosekilde L. Sex differences in age-related changes in vertebral body size, density and biomechanical competence in normal individuals. Bone. 1990;11(2):67-73.
1993	Mosekilde L. Vertebral structure and strength in vivo and in vitro. Calcif Tiss Int. February 1993;53(suppl 1):S121-S126.
2001	Neu CM, Manz F, Rauch F, Merkel A, Schoenau E. Bone densities and bone size at the distal radius in healthy children and adolescents: a study using peripheral quantitative computed tomography. Bone. February 2001;28(2):227-232.
1998	Bradney M, Pearce G, Naughton G, Sullivan C, Bass S, Beck T, Carlson J, Seeman E. Moderate exercise during growth in prepubertal boys: changes in bone mass, size, volumetric density, and bone strength: a controlled prospective study. J Bone Miner Res. December 1998;13(12):1814-1821.
1977	Jones HH, Priest JD, Hayes WC, Tichenor CC, Nagel DA. Humeral hypertrophy in response to exercise. J Bone Joint Surg. March 1977;59A(2):204-208.
2000	Heaney RP, Abrams S, Dawson-Hughes B, Looker A, Marcus R, Matkovic V, Weaver C. Peak bone mass. Osteoporos Int. December 2000;11(12):985-1009.
1995	Kannus P, Haapasalo H, Sankelo M, Sievanen H, Pasanen M, Heinonen A, Oja P, Vuori I. Effect of starting age of physical activity on bone mass in the dominant arm of tennis and squash players. Ann Intern Med. July 1995;123(1):27-31.
1989	Martin RB, Burr DB. Structure, Function, and Adaptation of Compact Bone. New York, NY: Raven Press; 1989.
1964	Smith RW Jr, Walker RR. Femoral expansion in aging women: implications for osteoporosis and fractures. Science. July 10, 1964;145(3628):156-157.
1993	Forwood MR, Burr DB. Physical activity and bone mass: exercises in futility? Bone Miner. May 1993;21(2):89-112.
1990	Beck TJ, Ruff CB, Warden KE, Scott wW Jr, Rao GU. Predicting femoral neck strength from bone mineral data: a structural approach. Invest Radiol. January 1990;25(1):6-18.
2001	NIH Consensus Development Panel on Osteoporosis Prevention, Diagnosis, and Therapy. Osteoporosis prevention, diagnosis, and therapy. JAMA. February 14, 2001;285(6):785-795.
1993	Beck TJ, Ruff CB, Bissessur K. Age-related changes in female femoral neck geometry: implications for bone strength. Calcif Tiss Int. 1993;53(suppl 1):S41-S46.
2000	Wallace BA, Cumming RG. Systematic review of randomized trials of the effect of exercise on bone mass in pre- and postmenopausal women. Calcif Tiss Int. July 2000;67(1):10-18.
1996	Marshall D, Johnell O, Wedel H. Meta-analysis of how well measures of bone mineral density predict occurrence of osteoporotic fractures. BMJ. May 18, 1996;312(7041):1254-1259.

Year

Entry

1994

Parfitt AM. The two faces of growth: benefits and risks to bone integrity. Osteoporos Int. November 1994;4(6):382-398.

1995

Kohrt WM, Snead DB, Slatopolsky E, Birge SJ Jr. Additive effects of weight-bearing exercise and estrogen on bone mineral density in older women. J Bone Miner Res. September 1995;10(9):1303-1311.

1994

Kanis JA, Melton LJ III, Christiansen C, Johnston CC, Khaltaev N. The diagnosis of osteoporosis. J Bone Miner Res. August 1994;9(8):1137-1141.

1977

Martin RB, Atkinson PJ. Age and sex-related changes in the structure and strength of the human femoral shaft. J Biomech. 1977;10(4):223-231.

1984

Parfitt AM. The cellular basis of bone remodeling: the quantum concept reexamined in light of recent advances in the cell biology of bone. Calcif Tiss Int. March 1984;36(suppl 1):S37-S45.

1992

Einhorn TA. Bone strength: the bottom line. Calcif Tiss Int. November 1992;51(5):333-339.

1987

Frost HM. The mechanostat: a proposed pathogenic mechanism of osteoporoses and the bone mass effects of mechanical and nonmechanical agents. Bone Miner. April 1987;2(2):73-85.

1997

Morris FL, Naughton GA, Gibbs JL, Carlson JS, Wark JD. Prospective ten-month exercise intervention in premenarcheal girls: positive effects on bone and lean mass. J Bone Miner Res. September 1997;12(9):1453-1462.

1996

Haapasalo H, Sievanen H, Kannus P, Heinonen A, Oja P, Vuori I. Dimensions and estimated mechanical characteristics of the humerus after long-term tennis loading. J Bone Miner Res. June 1996;11(6):864-872.

1892

Wolff J. Das Gesetz der Transformation der Knochen. Berlin: Hirschwald; 1892.

1991

Martin RB. Determinants of the mechanical properties of bones. J Biomech. 1991;24(suppl 1):79-88.

1996

Genant HK, Engelke K, Fuerst T, Glüer C, Grampp S, Harris ST, Jergas M, Lang T, Lu Y, Majumdar S, Mathur A, Takada M. Noninvasive assessment of bone mineral and structure: state of the art. J Bone Miner Res. June 1996;11(6):707-730.

2002

Turner CH. Biomechanics of bone: determinants of skeletal fragility and bone quality. Osteoporos Int. February 2002;13(2):97-104.

1998

Haapasalo H, Kannus P, Sievänen H, Pasanen M, Uusi-Rasi K, Heinonen A, Oja P, Vuori I. Effect of long-term unilateral activity on bone mineral density of female junior tennis players. J Bone Miner Res. February 1998;13(2):310-319.

1994

Bouxsein ML, Myburgh KH, van der Meulen MCH, Lindenberger E, Marcus R. Age-related differences in cross-sectional geometry of the forearm bones in healthy women. Calcif Tiss Int. February 1994;54(2):113-118.

1992

Carter DR, Bouxsein ML, Marcus R. New approaches for interpreting projected bone densitometry data. J Bone Miner Res. February 1992;7(2):137-145.

2000

Beck TJ, Looker AC, Ruff CB, Sievanen H, Wahner HW. Structural trends in the aging femoral neck and proximal shaft: analysis of the third national health and nutrition examination survey dual‐energy x‐ray absorptiometry data. J Bone Miner Res. December 2000;15(12):2297-2304.

1996

Biewener AA, Fazzalari NL, Konieczynski DD, Baudinette RV. Adaptive changes in trabecular architecture in relation to functional strain patterns and disuse. Bone. July 1996;19(1):1-8.

2001

Currey JD. Bone strength: what are we trying to measure? Calcif Tiss Int. April 2001;68(4):205-210.

1991

Turner CH. Homeostatic control of bone structure: an application of feedback theory. Bone. 1991;12(3):203-217.

2000

Martin RB. Toward a unifying theory of bone remodeling. Bone. January 2000;26(1):1-6.

1993

van der Meulen MCH, Beaupré GS, Carter DR. Mechanobiologic influences in long bone cross-sectional growth. Bone. July–August 1993;14(4):635-642.

1999

Parkkari J, Kannus P, Palvanen M, Natri A, Vainio J, Aho H, Vuori I, Järvinen M. Majority of hip fractures occur as a result of a fall and impact on the greater trochanter of the femur: a prospective controlled hip fracture study with 206 consecutive patients. Calcif Tiss Int. July 1999;65(3):183-187.

1994

Nelson ME, Fiatarone MA, Morganti CM, Trice I, Greenberg RA, Evans WJ. Effects of high-intensity strength training on multiple risk factors for osteoporotic fractures: a randomized controlled trial. JAMA. December 28, 1994;271(24):1909-1914.

1981

Woo SL-Y, Kuei SC, Amiel D, Gomez MA, Hayes WC, White FC, Akeson WH. The effect of prolonged physical training on the properties of long bone: a study of Wolff's Law. J Bone Joint Surg. June 1981;63A(5):780-787.

1993

Hayes WC, Myers ER, Morris JN, Gerhart TN, Yett HS, Lipsitz LA. Impact near the hip dominates fracture risk in elderly nursing home residents who fall. Calcif Tiss Int. March 1993;52(3):192-198.

1984

Currey JD. Mechanical Adaptations of Bone. Princeton, NJ: Princeton University Press; 1984.

1989

Cummings SR, Nevitt MC. A hypothesis: the causes of hip fractures. J Gerontol Med Sci. September 1989;44(5):M107-M111.

2002

Petit MA, Mckay HA, MacKelvie KJ, Heinonen A, Khan KM, Beck TJ. A randomized school-based jumping intervention confers site and maturity-specific benefits on bone structural properties in girls: a hip structural analysis study. J Bone Miner Res. March 2002;17(3):363-372.

1995

Buckwalter JA, Glimcher MJ, Cooper RR, Recker R. Bone biology, I: structure, blood supply, cells, matrix, and mineralization. J Bone Joint Surg. August 1995;77A(8):1256-1275.

1996

Hangartner TN, Gilsanz V. Evaluation of cortical bone by computed tomography. J Bone Miner Res. October 1996;11(10):1518-1525.

1998

Bass S, Pearce G, Bradney M, Hendrich E, Delmas PD, Harding A, Seeman E. Exercise before puberty may confer residual benefits in bone density in adulthood: studies in active prepubertal and retired female gymnasts. J Bone Miner Res. March 1998;13(3):500-507.

2001

Hsieh Y, Robling AG, Ambrosius WT, Burr DB, Turner CH. Mechanical loading of diaphyseal bone in vivo: the strain threshold for an osteogenic response varies with location. J Bone Miner Res. December 2001;16(10):2291-2297.

1993

Turner CH, Burr DB. Basic biomechanical measurements of bone: a tutorial. Bone. 1993;14(4):595-608.

1998

Mosley JR, Lanyon LE. Strain rate as a controlling influence on adaptive modeling in response to dynamic loading of the ulna in growing male rats. Bone. October 1998;23(4):313-318.

1999

Adami S, Gatti D, Braga V, Bianchini D, Rossini M. Site-specific effects of strength training on bone structure and geometry of ultradistal radius in postmenopausal women. J Bone Miner Res. January 1999;14(1):120-124.

2000

Faulkner KG. Bone matters: are density increases necessary to reduce fracture risk? J Bone Miner Res. February 2000;15(2):183-187.

1997

Heinonen A. Exercise as an Osteogenic Stimulus [PhD thesis]. University of Jyväskylä; 1997.

1988

Dalsky GP, Stocke KS, Ehsani AA, Slatopolsky E, Lee WC, Birge SJ Jr. Weight-bearing exercise training and lumbar bone mineral content in postmenopausal women. Ann Intern Med. June 1988;108(6):824-828.

1982

Ruff CB, Hayes WC. Subperiosteal expansion and cortical remodeling of the human femur and tibia with aging. Science. September 3, 1982;217(4563):945-948.

1999

Bailey DA, Mckay HA, Mirwald RL, Crocker PRE, Faulkner RA. 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. October 1999;14(10):1672-1679.

1997

Seeman E. From density to structure: growing up and growing old on the surfaces of bone. J Bone Miner Res. April 1997;12(4):509-521.

1994

Spadaro JA, Werner FW, Brenner RA, Fortino MD, Fay LA, Edwards WT. Cortical and trabecular bone contribute strength to the osteopenic distal radius. J Orthop Res. March 1994;12(2):211-218.

1988

Ruff CB, Hayes WC. Sex differences in age‐related remodeling of the femur and tibia. J Orthop Res. November 1988;6(6):886-896.

2002

Burr DB. Targeted and nontargeted remodeling. Bone. January 2002;30(1):2-4.

2001

Fuchs RK, Bauer JJ, Snow CM. Jumping improves hip and lumbar spine bone mass in prepubescent children: a randomized controlled trial. J Bone Miner Res. January 2001;16(1):148-156.

1998

Haapasalo H. Physical Activity and Growing Bone. Development of Peak Bone Mass With Special Reference to the Effects of Unilateral Physical Activity [PhD thesis]. Tampere University; 1998.

1990

Mosekilde L, Mosekilde L. Sex differences in age-related changes in vertebral body size, density and biomechanical competence in normal individuals. Bone. 1990;11(2):67-73.

1993

Mosekilde L. Vertebral structure and strength in vivo and in vitro. Calcif Tiss Int. February 1993;53(suppl 1):S121-S126.

2001

Neu CM, Manz F, Rauch F, Merkel A, Schoenau E. Bone densities and bone size at the distal radius in healthy children and adolescents: a study using peripheral quantitative computed tomography. Bone. February 2001;28(2):227-232.

1998

Bradney M, Pearce G, Naughton G, Sullivan C, Bass S, Beck T, Carlson J, Seeman E. Moderate exercise during growth in prepubertal boys: changes in bone mass, size, volumetric density, and bone strength: a controlled prospective study. J Bone Miner Res. December 1998;13(12):1814-1821.

1977

Jones HH, Priest JD, Hayes WC, Tichenor CC, Nagel DA. Humeral hypertrophy in response to exercise. J Bone Joint Surg. March 1977;59A(2):204-208.

2000

Heaney RP, Abrams S, Dawson-Hughes B, Looker A, Marcus R, Matkovic V, Weaver C. Peak bone mass. Osteoporos Int. December 2000;11(12):985-1009.

1995

Kannus P, Haapasalo H, Sankelo M, Sievanen H, Pasanen M, Heinonen A, Oja P, Vuori I. Effect of starting age of physical activity on bone mass in the dominant arm of tennis and squash players. Ann Intern Med. July 1995;123(1):27-31.

1989

Martin RB, Burr DB. Structure, Function, and Adaptation of Compact Bone. New York, NY: Raven Press; 1989.

1964

Smith RW Jr, Walker RR. Femoral expansion in aging women: implications for osteoporosis and fractures. Science. July 10, 1964;145(3628):156-157.

1993

Forwood MR, Burr DB. Physical activity and bone mass: exercises in futility? Bone Miner. May 1993;21(2):89-112.

1990

Beck TJ, Ruff CB, Warden KE, Scott wW Jr, Rao GU. Predicting femoral neck strength from bone mineral data: a structural approach. Invest Radiol. January 1990;25(1):6-18.

2001

NIH Consensus Development Panel on Osteoporosis Prevention, Diagnosis, and Therapy. Osteoporosis prevention, diagnosis, and therapy. JAMA. February 14, 2001;285(6):785-795.

1993

Beck TJ, Ruff CB, Bissessur K. Age-related changes in female femoral neck geometry: implications for bone strength. Calcif Tiss Int. 1993;53(suppl 1):S41-S46.

2000

Wallace BA, Cumming RG. Systematic review of randomized trials of the effect of exercise on bone mass in pre- and postmenopausal women. Calcif Tiss Int. July 2000;67(1):10-18.

1996

Marshall D, Johnell O, Wedel H. Meta-analysis of how well measures of bone mineral density predict occurrence of osteoporotic fractures. BMJ. May 18, 1996;312(7041):1254-1259.

Year	Entry
2006	Macdonald HM. Effectiveness of a School-Based Physical Activity Intervention for Increasing Bone Strength in Children: Action Schools! British Columbia [PhD thesis]. Vancouver, BC: University of British Columbia; July 2006.

Year

Entry

2006

Macdonald HM. Effectiveness of a School-Based Physical Activity Intervention for Increasing Bone Strength in Children: Action Schools! British Columbia [PhD thesis]. Vancouver, BC: University of British Columbia; July 2006.