Studies of skeletal remodeling in aging men

Martin, R. Bruce; Pickett, Justus C.; Zinaich, Sam

Links

DOI: 10.1097/00003086-198006000-00038

PubMed: 7408312

ISI: A1980KA54600038

Ovid: 00003086-198006000-00038

Affiliations

¹Orthopedic Research Laboratory, Department of Orthopedic Surgery, West Virginia University Medical Center, Morgantown, WV 26506

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1966	Jowsey J. Studies of Haversian systems in man and some animals. J Anat. October 1966;100(4):857-864.
1964	Currey JD. Some effects of ageing in human haversian systems. J Anat. January 1964;98(1):69-75.
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.
1959	Smith JW, Walmsley R. Factors affecting the elasticity of bone. J Anat. 1959;93(pt 4):503-523.
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Cited By (29)

Year	Entry
1998	Martin RB, Burr DB, Sharkey NA. Skeletal Tissue Mechanics. New York, NY: Springer-Verlag; 1998.
2001	Bell KL, Loveridge N, Reeve J, Thomas CDL, Feik SA, Clement JG. Super‐osteons (remodeling clusters) in the cortex of the femoral shaft: influence of age and gender. Anat Rec. December 1, 2001;264(4):378-386.
1993	Brockstedt H, Kassem M, Eriksen EF, Mosekilde L, Melsen F. Age- and sex-related changes in iliac cortical bone mass and remodeling. Bone. July–August 1993;14(4):681-691.
1995	Schaffler MB, Choi K, Milgrom C. Aging and matrix microdamage accumulation in human compact bone. Bone. December 1995;17(6):521-525.
1997	Yeni YN, Brown CU, Wang Z, Norman TL. The influence of bone morphology on fracture toughness of the human femur and tibia. Bone. November 1997;21(4):453-459.
2002	Wachter NJ, Krischak GD, Mentzel M, Sarkar MR, Ebinger T, Kinz L, Claes L, Augat P. Correlation of bone mineral density with strength and microstructural parameters of cortical bone in vitro. Bone. July 2002;31(1):90-95.
2004	Akkus O, Adar F, Schaffler MB. Age-related changes in physicochemical properties of mineral crystals are related to impaired mechanical function of cortical bone. Bone. March 2004;34(4):443-453.
2007	Diab T, Vashishth D. Morphology, localization and accumulation of in vivo microdamage in human cortical bone. J Biomech. March 2007;40(3):612-618.
2015	Nirody JA, Cheng KP, Parrish RM, Burghardt AJ, Majumdar S, Link TM, Kazakia GJ. Spatial distribution of intracortical porosity varies across age and sex. Bone. June 2015;75:88-95.
1983	Laval-Jeantet A-M, Bergot C, Carroll R, Garcia-Schaefer F. Cortical bone senescence and mineral bone density of the humerus. Calcif Tiss Int. 1983;35(3):268-272.
1993	Martin B. Aging and strength of bone as a structural material. Calcif Tiss Int. February 1993;53(suppl 1):S34-S40.
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.
1993	Grynpas M. Age and disease-related changes in the mineral of bone. Calcif Tiss Int. February 1993;53(suppl 1):S57-S64.
2001	Wachter NJ, Augat P, Krischak GD, Mentzel M, Kinzl L, Claes L. Prediction of cortical bone porosity in vitro by microcomputed tomography. Calcif Tiss Int. January 2001;68(1):38-42.
1982	Mazess RB. On aging bone loss. Clin Orthop Relat Res. May 1982;165:239-252.
1992	Barth RW, Williams JL, Kaplan FS. Osteon morphometry in females with femoral neck fractures. Clin Orthop Relat Res. October 1992;283:178-186.
1997	Feik SA, Thomas CDL, Clement JG. Age‐related changes in cortical porosity of the midshaft of the human femur. J Anat. October 1997;191(3):407-416.
2006	Thomas CDL, Feik SA, Clement JG. Increase in pore area, and not pore density, is the main determinant in the development of porosity in human cortical bone. J Anat. August 2006;209(2):219-230.
1991	Martin RB. Determinants of the mechanical properties of bones. J Biomech. 1991;24(suppl 1):79-88.
1996	Norman TL, Nivargikar SV, Burr DB. Resistance to crack growth in human cortical bone is greater in shear than in tension. J Biomech. August 1996;29(8):1023-1031.
1999	Stein MS, Feik SA, Thomas CDL, Clement JG, Wark JD. An automated analysis of intracortical porosity in human femoral bone across age. J Bone Miner Res. April 1999;14(4):624-632.
2001	Bousson V, Meunier A, Bergot C, Vicaut É, Rocha MA, Morais MH, Laval‐Jeantet A, Laredo J. Distribution of intracortical porosity in human midfemoral cortex by age and gender. J Bone Miner Res. July 2001;16(7):1308-1317.
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.
2020	Andronowski JM, Davis RA, Holyoke CW. A sectioning, coring, and image processing guide for high-throughput cortical bone sample procurement and analysis for synchrotron micro-CT. JOVE. June 2020;160:e61081.
2005	George WT. Multiaxial Fracture Characteristics of Aging Human Bone [PhD thesis]. Troy, NY: Rensselaer Polytechnic Institute; April 2005.
2006	Diab T. The Role of Damage Morphology in Age-Related Increase in Bone Fragility [PhD thesis]. Troy, NY: Rensselaer Polytechnic Institute; 2006.
1998	Vajda EG. Age-Related Changes in the Microstructure and Mineralization of the Female Proximal Femur [PhD thesis]. Salt Lake City, UT: University of Utah; March 1998.
1985	Schaffler MB. Stiffness and Fatigue of Compact Bone At Physiological Strains and Strain Rates [PhD thesis]. Morgantown, WV: West Virginia University; 1985.
1998	Yeni YN. Fracture Mechanics of Human Cortical Bone: The Relationship of Geometry, Microstructure and Composition With the Fracture of the Tibia, Femoral Shaft and the Femoral Neck [PhD thesis]. Morgantown, WV: West Virginia University; 1998.