Gender-related differences in the relationship between densitometric values of whole-body bone mineral content and lean body mass in humans between 2 and 87 years of age.

[1]  K. Ott Osteoporosis and bone densitometry. , 1998, Radiologic technology.

[2]  J. Ferretti Biomechanical Properties of Bone , 1998 .

[3]  H. Frost,et al.  Perspectives: Some Roles of Mechanical Usage, Muscle Strength, and the Mechanostat in Skeletal Physiology, Disease, and Research , 1998, Calcified Tissue International.

[4]  T. Spector,et al.  Genetic Influences on Muscle Strength, Lean Body Mass, and Bone Mineral Density: A Twin Study , 1997, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[5]  C. Slemenda,et al.  Sex steroids and bone mass in older men. Positive associations with serum estrogens and negative associations with androgens. , 1997, The Journal of clinical investigation.

[6]  H. Frost Obesity, and bone strength and "mass": a tutorial based on insights from a new paradigm. , 1997, Bone.

[7]  L. Lanyon,et al.  Enhancement by Sex Hormones of the Osteoregulatory Effects of Mechanical Loading and Prostaglandins in Explants of Rat Ulnae , 1997, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[8]  V. Matkovic,et al.  Calcitriol and Bone Mass Accumulation in Females During Puberty , 1997, Calcified Tissue International.

[9]  H. Frost Defining osteopenias and osteoporoses: another view (with insights from a new paradigm). , 1997, Bone.

[10]  P. Delmas,et al.  Body composition in appropriate and in small for gestational age infants , 1997, Acta paediatrica.

[11]  M. Aickin,et al.  Fat or Lean Tissue Mass: Which One Is the Major Determinant of Bone Mineral Mass in Healthy Postmenopausal Women? , 1997, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[12]  D. A. Barondess,et al.  The accumulation of whole body skeletal mass in third- and fourth-grade children: effects of age, gender, ethnicity, and body composition. , 1997, Bone.

[13]  D. Drinkwater,et al.  Bone Densitometry in Canadian Children 8–17 Years of Age , 1996, Calcified Tissue International.

[14]  L. Melton,et al.  Relationship between body composition and bone mass in women , 1996, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[15]  H. Frost Perspectives: A proposed general model of the “mechanostat” (suggestions from a new skeletal‐biologic paradigm) , 1996, The Anatomical record.

[16]  P. Deurenberg,et al.  Comparison of the body composition of age-matched Italian, Ukrainian, and Dutch children. , 1996, Annals of nutrition & metabolism.

[17]  P. Kannus,et al.  Physical loading, exercise, and bone. , 1996, Bone.

[18]  B. Dawson-Hughes,et al.  Soft Tissue Body Composition: Familial Resemblance and Independent Influences on Bone Mineral Density , 1995, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[19]  P. Lin,et al.  Bone-mineral density in children and adolescents who have spastic cerebral palsy. , 1995, The Journal of bone and joint surgery. American volume.

[20]  C. Turner,et al.  Skeletal adaptations to mechanical usage: results from tibial loading studies in rats. , 1995, Bone.

[21]  A Heinonen,et al.  Bone mineral density in female athletes representing sports with different loading characteristics of the skeleton. , 1995, Bone.

[22]  K. J. Lutz,et al.  Muscle strength and body composition: associations with bone density in older subjects. , 1995, Medicine and science in sports and exercise.

[23]  H. Plotkin,et al.  Bone mass in children: normative values for the 2-20-year-old population. , 1995, Bone.

[24]  T. Cole,et al.  Rate of radial bone mineral accretion in healthy children , 1995, Acta paediatrica.

[25]  G. Vezzoli,et al.  Effect of calcium-activated neutral proteinase (calpain) on rat erythrocyte plasma membrane calcium pump , 1995 .

[26]  R. Price,et al.  Bone density in young women is associated with body weight and muscle strength but not dietary intakes , 1995, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[27]  H. Rico,et al.  The four-compartment models in body composition: data from a study with dual-energy X-ray absorptiometry and near-infrared interactance on 815 normal subjects. , 1994, Metabolism: clinical and experimental.

[28]  H. Rico,et al.  Determinants of total-body and regional bone mineral content and density in postpubertal normal women. , 1994, Metabolism: clinical and experimental.

[29]  E. Alhava,et al.  Development of bone mass and bone density of the spine and femoral neck--a prospective study of 65 children and adolescents. , 1993, Bone and mineral.

[30]  H. Rico,et al.  Body composition in children and Tanner's stages: a study with dual-energy x-ray absorptiometry. , 1993, Metabolism: clinical and experimental.

[31]  M. Fukase,et al.  Age‐ and gender‐related changes in body composition in Japanese subjects , 1993, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[32]  D. Raab,et al.  Effect of ovariectomy on bone response to in vivo external loading , 1993, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[33]  K. Khaw,et al.  Body composition and bone mass in post‐menopausal women , 1992, Clinical endocrinology.

[34]  O Johnell,et al.  Effects of physical activity on bone mineral content and muscle strength in women: a cross-sectional study. , 1992, Bone.

[35]  D. Carter,et al.  Clinical and anthropometric correlates of bone mineral acquisition in healthy adolescent girls. , 1991, The Journal of clinical endocrinology and metabolism.

[36]  J. Eisman,et al.  Exercise and its interaction with genetic influences in the determination of bone mineral density. , 1991, The American journal of medicine.

[37]  R. Rizzoli,et al.  Critical years and stages of puberty for spinal and femoral bone mass accumulation during adolescence. , 1991, The Journal of clinical endocrinology and metabolism.

[38]  J. D. Morris,et al.  Bone mass in healthy children: measurement with quantitative DXA. , 1991, Radiology.

[39]  R. Wyn Morton,et al.  Basic Biomechanics of the Musculoskeletal System (2nd ed.) , 1990 .

[40]  F. Biering-Sørensen,et al.  Longitudinal study of bone mineral content in the lumbar spine, the forearm and the lower extremities after spinal cord injury , 1990, European journal of clinical investigation.

[41]  P. Delmas,et al.  Measurement of bone mineral content of the lumbar spine by dual energy x-ray absorptiometry in normal children: correlations with growth parameters. , 1990, The Journal of clinical endocrinology and metabolism.

[42]  Frost Hm,et al.  Skeletal structural adaptations to mechanical usage (SATMU): 2. Redefining Wolff's law: the remodeling problem. , 1990 .

[43]  H. Frost Some effects of basic multicellular unit-based remodelling on photon absorptiometry of trabecular bone. , 1989, Bone and mineral.

[44]  David B. Burr,et al.  Structure, Function, and Adaptation of Compact Bone , 1989 .

[45]  Margareta Nordin,et al.  Basic Biomechanics of the Musculoskeletal Systm , 1989 .

[46]  Frost Hm,et al.  The mechanostat: a proposed pathogenic mechanism of osteoporoses and the bone mass effects of mechanical and nonmechanical agents. , 1987 .

[47]  William N. Kelley,et al.  Textbook of rheumatology , 1985 .

[48]  J. Brown,et al.  Relation between bone mass and muscle weight. , 1970, Lancet.

[49]  D'arcy W. Thompson On Growth and Form , 1917, Nature.