3D Micro-CT Imaging of Human Cortical Bone Porosity: A Novel Method for Estimating Age At Death

Age-related change in human bone is of great interest to numerous areas of research within the disciplines of anthropology and biomedicine. The biomedical sciences seek an understanding of normal patterns of aging to help identify and mitigate pathological conditions. Biological anthropologists use changes in the skeleton as the basis for estimating age at death and interpreting the effects of biocultural factors. To date, analysis of the microscopic remodeling of cortical bone has primarily been limited to the twodimensional realm. Therefore, the overarching goal of this dissertation is to contribute to a greater understanding of the three-dimensional microstructure of this tissue. Specifically, the utility of 3D analysis for age at death estimation is examined. High resolution microcomputed tomography (micro-CT) is employed as a novel method for the visualization and quantification of cortical microstructure in 3D. This method is limited to biphasic (solid and porous) analysis of bone and therefore a porosity-based theoretical model for predicting 3D microstructural change is developed and tested. In essence, this model predicts the cortical canal network increases in complexity with age through the superimposition of new Haversian canals via remodeling. Due to the novel nature of the application of micro-CT to cortical bone, the method is validated against microradiography. Following this, the impact of scan resolution on quantitative analysis is explored in order to aid in the optimization of scan protocols. Hypotheses predicting agedependent change, derived from the theoretical model, are tested using a sample of human midshaft femoral specimens collected at autopsy. Sex, height, and weight are included as potential confounding factors. The patterns observed are consistent with the proposed model, although changes in canal dimensions complicate the trajectory of structural change. Age is the most important factor related to microstructure, although sex is also a significant source of variation. Age prediction, based upon multiple regression, is possible, although limited due to relatively large standard errors. The micro-CT method is also highly effective for visualizing and measuring resorption spaces associated with cortical turnover, thereby providing novel insight into the process of remodeling itself.

Year	Entry
1988	Schaffler MB, Burr DB. Stiffness of compact bone: effects of porosity and density. J Biomech. 1988;21(1):13-16.
1994	Parfitt AM. Osteonal and hemi‐osteonal remodeling: the spatial and temporal framework for signal traffic in adult human bone. J Cell Biochem. July 1994;55(3):273-286.
1993	Engelke K, Graeff W, Meiss L, Hahn M, Delling G. High spatial resolution imaging of bone mineral using computed microtomography: comparison with microradiography and undecalcified histologic sections. Invest Radiol. April 1993;28(4):341-349.
1999	Ding M, Odgaard A, Hvid I. Accuracy of cancellous bone volume fraction measured by micro-CT scanning. J Biomech. 1999;32(3):323-326.
1996	Müller R, Hahn M, Vogel M, Delling G, Rüegsegger P. Morphometric analysis of noninvasively assessed bone biopsies: comparison of high-resolution computed tomography and histologic sections. Bone. March 1996;18(3):215-220.
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.
1990	Odgaard A, Andersen K, Melsen F, Gundersen HJG. A direct method for fast three-dimensional serial reconstruction. J Microsc (Oxford). September 1990;159(pt 3):335-342.
2004	Bousson V, Peyrin F, Bergot C, Hausard M, Sautet A, Laredo J. Cortical bone in the human femoral neck: three‐dimensional appearance and porosity using synchrotron radiation. J Bone Miner Res. May 2004;19(5):794-801.
2004	Mullender M, El Haj AJ, Yang Y, van Duin MA, Burger EH, Klein-Nulend J. Mechanotransduction of bone cells in vitro: mechanobiology of bone tissue. Med Biol Eng Comput. January 2004;42(1):14-21.
2003	Martin RB. Fatigue microdamage as an essential element of bone mechanics and biology. Calcif Tiss Int. August 2003;73(2):101-107.
1977	Tappen NC. Three‐dimensional studies of resorption spaces and developing osteons. Am J Anat. July 1977;149(3):301-331.
2001	Borah B, Gross GJ, Dufresne TE, Smith TS, Cockman MD, Chmielewski PA, Lundy MW, Hartke JR, Sod EW. Three‐dimensional microimaging (MRμI and μCT), finite element modeling, and rapid prototyping provide unique insights into bone architecture in osteoporosis. Anat Rec. April 15, 2001;265(2):101-110.
2002	Parfitt AM. Misconceptions (2): turnover is always higher in cancellous than in cortical bone. Bone. June 2002;30(6):807-809.
1969	Frost HM. Tetracycline-based histological analysis of bone remodeling. Calcif Tiss Res. 1969;3(1):211-237.
1990	Kuhn JL, Goldstein SA, Feldkamp LA, Goulet RW, Jesion G. Evaluation of a microcomputed tomography system to study trabecular bone structure. J Orthop Res. 1990;8(6):833-842.
1997	Uchiyama T, Tanizawa T, Muramatsu H, Endo N, Takahashi HE, Hara T. A morphometric comparison of trabecular structure of human ilium between microcomputed tomography and conventional histomorphometry. Calcif Tiss Int. December 1997;61(6):493-498.
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.
2000	Bell KL, Loveridge N, Jordan GR, Power J, Constant CR, Reeve J. A novel mechanism for induction of increased cortical porosity in cases of intracapsular hip fracture. Bone. August 2000;27(2):297-304.
2003	Lieberman DE, Pearson OM, Polk JD, Demes B, Crompton AW. Optimization of bone growth and remodeling in response to loading in tapered mammalian limbs. J Exp Biol. September 15, 2003;206(18):3125-3138.
1998	Müller R, Van Campenhout H, Van Damme B, Van der Perre G, Dequeker J, Hildebrand T, Rüegsegger P. Morphometric analysis of human bone biopsies: a quantitative structural comparison of histological sections and micro-computed tomography. Bone. July 1998;23(1):59-66.
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.
1999	Ulrich D, van Rietbergen B, Laib A, Rüegsegger P. The ability of three-dimensional structural indices to reflect mechanical aspects of trabecular bone. Bone. 1999;25(1):55-60.
1994	Heřt J, Fiala P, Petrtýl M. Osteon orientation of the diaphysis of the long bones in man. Bone. May–June 1994;15(3):269-277.
1996	Müller R, Koller B, Hildebrand T, Laib A, Gianolini S, Rüegsegger P. Resolution dependency of microstructural properties of cancellous bone based on three-dimensional μ-tomography. Technol Health Care. April 1996;4(1):113-119.
2004	Kim D-G, Christopherson GT, Dong XN, Fyhrie DP, Yeni YN. The effect of microcomputed tomography scanning and reconstruction voxel size on the accuracy of stereological measurements in human cancellous bone. Bone. December 2004;35(6):1375-1382.
1999	Bell KL, Loveridge N, Power J, Garrahan N, Meggitt BF, Reeve J. Regional differences in cortical porosity in the fractured femoral neck. Bone. January 1999;24(1):57-64.
1997	Hildebrand T, Rüegsegger P. Quantification of bone microarchitecture with the structure model index. Comput Methods Prog Biomed. 1997;1(1):15-23.
1998	Peyrin F, Salome M, Cloetens P, Laval-Jeantet AM, Ritman E, Rüegsegger P. Micro-ct examinations of trabecular bone samples at different resolutions: 14, 7 and 2 micron level. Technol Health Care. 1998;6(5-6):391-401.
1965	Kerley ER. The microscopic determination of age in human bone. Am J Phys Anthropol. 1965;23(2):149-163.
2005	Thomas CDL, Feik SA, Clement JG. Regional variation of intracortical porosity in the midshaft of the human femur: age and sex differences. J Anat. February 2005;206(2):115-125.
1996	Petrtýl M, Heřt J, Fiala P. Spatial organization of the haversian bone in man. J Biomech. February 1996;29(2):161-169.
2000	Yeni YN, Norman TL. Fracture toughness of human femoral neck: effect of microstructure, composition, and age. Bone. May 2000;26(5):499-504.
1960	Currey JD. Differences in the blood-supply of bone of different histological types. Q J Microsc Sci. September 1960;101(3):351-370.
1988	Currey JD. The effect of porosity and mineral content on the Young's modulus of elasticity of compact bone. J Biomech. 1988;21(2):131-139.
1972	Jaworski ZF, Meunier P, Frost HM. Observations on two types of resorption cavities in human lamellar cortical bone. Clin Orthop Relat Res. March–April 1972;83:279-285.
2003	Currey JD. The many adaptations of bone. J Biomech. 2003;36(10):1487-1495.
2004	Cooper DML, Matyas JR, Katzenberg MA, Hallgrimsson B. Comparison of microcomputed tomographic and microradiographic measurements of cortical bone porosity. Calcif Tiss Int. May 2004;75(5):437-447.
1974	Black J, Mattson R, Korostoff E. Haversian osteons: size, distribution, internal structure, and orientation. J Biomed Mater Res. September 1974;8(5):299-319.
1987	Parfitt AM, Drezner MK, Glorieux FH, Kanis JA, Malluche H, Meunier PJ, Ott SM, Recker RR. Bone histomorphometry: standardization of nomenclature, symbols, and units: report of the ASBMR histomorphometry nomenclature committee. J Bone Miner Res. December 1987;2(6):595-610.
2003	Cooper DML, Turinsky AL, Sensen CW, Hallgrímsson B. Quantitative 3D analysis of the canal network in cortical bone by micro-computed tomography. Anat Rec. September 2003;274B(1):169-179.
2002	Martin RB. Is all cortical bone remodeling initiated by microdamage? Bone. January 2002;30(1):8-13.
1964	Currey JD. Some effects of ageing in human haversian systems. J Anat. January 1964;98(1):69-75.
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.
1983	Parfitt AM. The physiologic and clinical significance of bone histomorphometric data. In: Recker RR, ed. Bone Histomorphometry: Techniques and Interpretation. Boca Raton, FL: Inc., CRC Press; 1983:143-223.
2003	Burger EH, Klein-Nulend J, Smit TH. Strain-derived canalicular fluid flow regulates osteoclast activity in a remodelling osteon: a proposal. J Biomech. October 2003;36(10):1453-1459.
1984	Feldkamp LA, Davis LC, Kress JW. Practical cone-beam algorithm. J Opt Soc Am. 1984;A1(6):612-619.
2000	Smit TH, Burger EH. Is BMU-coupling a strain-regulated phenomenon? a finite element analysis. J Bone Miner Res. February 2000;12(2):301-307.
1989	Feldkamp LA, Goldstein SA, Parfitt MA, Jesion G, Kleerekoper M. The direct examination of three‐dimensional bone architecture in vitro by computed tomography. J Bone Miner Res. 1989;4(1):3-11.
1989	Martin RB, Ishida J. The relative effects of collagen fiber orientation, porosity, density, and mineralization on bone strength. J Biomech. 1989;22(5):419-426.
1996	Majumdar S, Newitt D, Mathur A, Osman D, Gies A, Chiu E, Lotz J, Kinney J, Genant H. Magnetic resonance imaging of trabecular bone structure in the distal radius: relationship with X-ray tomographic microscopy and biomechanics. Osteoporos Int. September 1996;6(5):376-385.
1965	Hattner R, Epker BN, Frost HM. Suggested sequential mode of control of changes in cell behaviour in adult bone remodelling. Nature. May 1, 1965;206(4983):489-490.
1995	Majumdar S, Newitt D, Jergas M, Gies A, Chiu E, Osman D, Keltner J, Keyak J, Genant H. Evaluation of technical factors affecting the quantification of trabecular bone structure using magnetic resonance imaging. Bone. October 1995;17(4):417-430.
1983	Kragstrup J, Melsen F. Three-dimensional morphology of trabecular bone osteons reconstructed from serial sections. Metab Bone Dis Rel Res. 1983–1984;5(3):127-130.
1958	Cohen J, Harris WH. The three-dimensional anatomy of Haversian systems. J Bone Joint Surg. April 1958;40A(2):419-434.
2005	Mayhew PM, Thomas CD, Clement JG, Loveridge N, Beck TJ, Bonfield W, Burgoyne CJ, Reeve J. Relation between age, femoral neck cortical stability, and hip fracture risk. Lancet. July 9, 2005;366(9480):129-135.
1993	Odgaard A, Gundersen HJG. Quantification of connectivity in cancellous bone, with special emphasis on 3-D reconstructions. Bone. March–April 1993;14(2):173-182.
2003	Lin ASP, Barrows TH, Cartmell SH, Guldberg RE. Microarchitectural and mechanical characterization of oriented porous polymer scaffolds. Biomaterials. February 2003;24(3):481-489.
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.
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.
1966	Jowsey J. Studies of Haversian systems in man and some animals. J Anat. October 1966;100(4):857-864.
1998	Kothari M, Keaveny TM, Lin JC, Newitt DC, Genant HK, Majumdar S. Impact of spatial resolution on the prediction of trabecular architecture parameters. Bone. May 1998;22(5):437-443.
2000	Jordan GR, Loveridge N, Bell KL, Power J, Rushton N, Reeve J. Spatial clustering of remodeling osteons in the femoral neck cortex: a cause of weakness in hip fracture? Bone. March 2000;26(3):305-313.
1993	McCalden RW, McGeough JA, Barker MB, Court-Brown CM. Age-related changes in the tensile properties of cortical bone: the relative importance of changes in porosity, mineralization, and microstructure. J Bone Joint Surg. 1993;75A(8):1193-1205.
1998	Ito M, Nakamura T, Matsumoto T, Tsurusaki K, Hayashi K. Analysis of trabecular microarchitecture of human iliac bone using microcomputed tomography in patients with hip arthrosis with or without vertebral fracture. Bone. August 1998;23(2):163-169.
1992	Barth RW, Williams JL, Kaplan FS. Osteon morphometry in females with femoral neck fractures. Clin Orthop Relat Res. October 1992;283:178-186.

Year

Entry

1988

Schaffler MB, Burr DB. Stiffness of compact bone: effects of porosity and density. J Biomech. 1988;21(1):13-16.

1994

Parfitt AM. Osteonal and hemi‐osteonal remodeling: the spatial and temporal framework for signal traffic in adult human bone. J Cell Biochem. July 1994;55(3):273-286.

1993

Engelke K, Graeff W, Meiss L, Hahn M, Delling G. High spatial resolution imaging of bone mineral using computed microtomography: comparison with microradiography and undecalcified histologic sections. Invest Radiol. April 1993;28(4):341-349.

1999

Ding M, Odgaard A, Hvid I. Accuracy of cancellous bone volume fraction measured by micro-CT scanning. J Biomech. 1999;32(3):323-326.

1996

Müller R, Hahn M, Vogel M, Delling G, Rüegsegger P. Morphometric analysis of noninvasively assessed bone biopsies: comparison of high-resolution computed tomography and histologic sections. Bone. March 1996;18(3):215-220.

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.

1990

Odgaard A, Andersen K, Melsen F, Gundersen HJG. A direct method for fast three-dimensional serial reconstruction. J Microsc (Oxford). September 1990;159(pt 3):335-342.

2004

Bousson V, Peyrin F, Bergot C, Hausard M, Sautet A, Laredo J. Cortical bone in the human femoral neck: three‐dimensional appearance and porosity using synchrotron radiation. J Bone Miner Res. May 2004;19(5):794-801.

2004

Mullender M, El Haj AJ, Yang Y, van Duin MA, Burger EH, Klein-Nulend J. Mechanotransduction of bone cells in vitro: mechanobiology of bone tissue. Med Biol Eng Comput. January 2004;42(1):14-21.

2003

Martin RB. Fatigue microdamage as an essential element of bone mechanics and biology. Calcif Tiss Int. August 2003;73(2):101-107.

1977

Tappen NC. Three‐dimensional studies of resorption spaces and developing osteons. Am J Anat. July 1977;149(3):301-331.

2001

Borah B, Gross GJ, Dufresne TE, Smith TS, Cockman MD, Chmielewski PA, Lundy MW, Hartke JR, Sod EW. Three‐dimensional microimaging (MRμI and μCT), finite element modeling, and rapid prototyping provide unique insights into bone architecture in osteoporosis. Anat Rec. April 15, 2001;265(2):101-110.

2002

Parfitt AM. Misconceptions (2): turnover is always higher in cancellous than in cortical bone. Bone. June 2002;30(6):807-809.

1969

Frost HM. Tetracycline-based histological analysis of bone remodeling. Calcif Tiss Res. 1969;3(1):211-237.

1990

Kuhn JL, Goldstein SA, Feldkamp LA, Goulet RW, Jesion G. Evaluation of a microcomputed tomography system to study trabecular bone structure. J Orthop Res. 1990;8(6):833-842.

1997

Uchiyama T, Tanizawa T, Muramatsu H, Endo N, Takahashi HE, Hara T. A morphometric comparison of trabecular structure of human ilium between microcomputed tomography and conventional histomorphometry. Calcif Tiss Int. December 1997;61(6):493-498.

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.

2000

Bell KL, Loveridge N, Jordan GR, Power J, Constant CR, Reeve J. A novel mechanism for induction of increased cortical porosity in cases of intracapsular hip fracture. Bone. August 2000;27(2):297-304.

2003

Lieberman DE, Pearson OM, Polk JD, Demes B, Crompton AW. Optimization of bone growth and remodeling in response to loading in tapered mammalian limbs. J Exp Biol. September 15, 2003;206(18):3125-3138.

1998

Müller R, Van Campenhout H, Van Damme B, Van der Perre G, Dequeker J, Hildebrand T, Rüegsegger P. Morphometric analysis of human bone biopsies: a quantitative structural comparison of histological sections and micro-computed tomography. Bone. July 1998;23(1):59-66.

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.

1999

Ulrich D, van Rietbergen B, Laib A, Rüegsegger P. The ability of three-dimensional structural indices to reflect mechanical aspects of trabecular bone. Bone. 1999;25(1):55-60.

1994

Heřt J, Fiala P, Petrtýl M. Osteon orientation of the diaphysis of the long bones in man. Bone. May–June 1994;15(3):269-277.

1996

Müller R, Koller B, Hildebrand T, Laib A, Gianolini S, Rüegsegger P. Resolution dependency of microstructural properties of cancellous bone based on three-dimensional μ-tomography. Technol Health Care. April 1996;4(1):113-119.

2004

Kim D-G, Christopherson GT, Dong XN, Fyhrie DP, Yeni YN. The effect of microcomputed tomography scanning and reconstruction voxel size on the accuracy of stereological measurements in human cancellous bone. Bone. December 2004;35(6):1375-1382.

1999

Bell KL, Loveridge N, Power J, Garrahan N, Meggitt BF, Reeve J. Regional differences in cortical porosity in the fractured femoral neck. Bone. January 1999;24(1):57-64.

1997

Hildebrand T, Rüegsegger P. Quantification of bone microarchitecture with the structure model index. Comput Methods Prog Biomed. 1997;1(1):15-23.

1998

Peyrin F, Salome M, Cloetens P, Laval-Jeantet AM, Ritman E, Rüegsegger P. Micro-ct examinations of trabecular bone samples at different resolutions: 14, 7 and 2 micron level. Technol Health Care. 1998;6(5-6):391-401.

1965

Kerley ER. The microscopic determination of age in human bone. Am J Phys Anthropol. 1965;23(2):149-163.

2005

Thomas CDL, Feik SA, Clement JG. Regional variation of intracortical porosity in the midshaft of the human femur: age and sex differences. J Anat. February 2005;206(2):115-125.

1996

Petrtýl M, Heřt J, Fiala P. Spatial organization of the haversian bone in man. J Biomech. February 1996;29(2):161-169.

2000

Yeni YN, Norman TL. Fracture toughness of human femoral neck: effect of microstructure, composition, and age. Bone. May 2000;26(5):499-504.

1960

Currey JD. Differences in the blood-supply of bone of different histological types. Q J Microsc Sci. September 1960;101(3):351-370.

1988

Currey JD. The effect of porosity and mineral content on the Young's modulus of elasticity of compact bone. J Biomech. 1988;21(2):131-139.

1972

Jaworski ZF, Meunier P, Frost HM. Observations on two types of resorption cavities in human lamellar cortical bone. Clin Orthop Relat Res. March–April 1972;83:279-285.

2003

Currey JD. The many adaptations of bone. J Biomech. 2003;36(10):1487-1495.

2004

Cooper DML, Matyas JR, Katzenberg MA, Hallgrimsson B. Comparison of microcomputed tomographic and microradiographic measurements of cortical bone porosity. Calcif Tiss Int. May 2004;75(5):437-447.

1974

Black J, Mattson R, Korostoff E. Haversian osteons: size, distribution, internal structure, and orientation. J Biomed Mater Res. September 1974;8(5):299-319.

1987

Parfitt AM, Drezner MK, Glorieux FH, Kanis JA, Malluche H, Meunier PJ, Ott SM, Recker RR. Bone histomorphometry: standardization of nomenclature, symbols, and units: report of the ASBMR histomorphometry nomenclature committee. J Bone Miner Res. December 1987;2(6):595-610.

2003

Cooper DML, Turinsky AL, Sensen CW, Hallgrímsson B. Quantitative 3D analysis of the canal network in cortical bone by micro-computed tomography. Anat Rec. September 2003;274B(1):169-179.

2002

Martin RB. Is all cortical bone remodeling initiated by microdamage? Bone. January 2002;30(1):8-13.

1964

Currey JD. Some effects of ageing in human haversian systems. J Anat. January 1964;98(1):69-75.

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.

1983

Parfitt AM. The physiologic and clinical significance of bone histomorphometric data. In: Recker RR, ed. Bone Histomorphometry: Techniques and Interpretation. Boca Raton, FL: Inc., CRC Press; 1983:143-223.

2003

Burger EH, Klein-Nulend J, Smit TH. Strain-derived canalicular fluid flow regulates osteoclast activity in a remodelling osteon: a proposal. J Biomech. October 2003;36(10):1453-1459.

1984

Feldkamp LA, Davis LC, Kress JW. Practical cone-beam algorithm. J Opt Soc Am. 1984;A1(6):612-619.

2000

Smit TH, Burger EH. Is BMU-coupling a strain-regulated phenomenon? a finite element analysis. J Bone Miner Res. February 2000;12(2):301-307.

1989

Feldkamp LA, Goldstein SA, Parfitt MA, Jesion G, Kleerekoper M. The direct examination of three‐dimensional bone architecture in vitro by computed tomography. J Bone Miner Res. 1989;4(1):3-11.

1989

Martin RB, Ishida J. The relative effects of collagen fiber orientation, porosity, density, and mineralization on bone strength. J Biomech. 1989;22(5):419-426.

1996

Majumdar S, Newitt D, Mathur A, Osman D, Gies A, Chiu E, Lotz J, Kinney J, Genant H. Magnetic resonance imaging of trabecular bone structure in the distal radius: relationship with X-ray tomographic microscopy and biomechanics. Osteoporos Int. September 1996;6(5):376-385.

1965

Hattner R, Epker BN, Frost HM. Suggested sequential mode of control of changes in cell behaviour in adult bone remodelling. Nature. May 1, 1965;206(4983):489-490.

1995

Majumdar S, Newitt D, Jergas M, Gies A, Chiu E, Osman D, Keltner J, Keyak J, Genant H. Evaluation of technical factors affecting the quantification of trabecular bone structure using magnetic resonance imaging. Bone. October 1995;17(4):417-430.

1983

Kragstrup J, Melsen F. Three-dimensional morphology of trabecular bone osteons reconstructed from serial sections. Metab Bone Dis Rel Res. 1983–1984;5(3):127-130.

1958

Cohen J, Harris WH. The three-dimensional anatomy of Haversian systems. J Bone Joint Surg. April 1958;40A(2):419-434.

2005

Mayhew PM, Thomas CD, Clement JG, Loveridge N, Beck TJ, Bonfield W, Burgoyne CJ, Reeve J. Relation between age, femoral neck cortical stability, and hip fracture risk. Lancet. July 9, 2005;366(9480):129-135.

1993

Odgaard A, Gundersen HJG. Quantification of connectivity in cancellous bone, with special emphasis on 3-D reconstructions. Bone. March–April 1993;14(2):173-182.

2003

Lin ASP, Barrows TH, Cartmell SH, Guldberg RE. Microarchitectural and mechanical characterization of oriented porous polymer scaffolds. Biomaterials. February 2003;24(3):481-489.

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.

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.

1966

Jowsey J. Studies of Haversian systems in man and some animals. J Anat. October 1966;100(4):857-864.

1998

Kothari M, Keaveny TM, Lin JC, Newitt DC, Genant HK, Majumdar S. Impact of spatial resolution on the prediction of trabecular architecture parameters. Bone. May 1998;22(5):437-443.

2000

Jordan GR, Loveridge N, Bell KL, Power J, Rushton N, Reeve J. Spatial clustering of remodeling osteons in the femoral neck cortex: a cause of weakness in hip fracture? Bone. March 2000;26(3):305-313.

1993

McCalden RW, McGeough JA, Barker MB, Court-Brown CM. Age-related changes in the tensile properties of cortical bone: the relative importance of changes in porosity, mineralization, and microstructure. J Bone Joint Surg. 1993;75A(8):1193-1205.

1998

Ito M, Nakamura T, Matsumoto T, Tsurusaki K, Hayashi K. Analysis of trabecular microarchitecture of human iliac bone using microcomputed tomography in patients with hip arthrosis with or without vertebral fracture. Bone. August 1998;23(2):163-169.

1992

Barth RW, Williams JL, Kaplan FS. Osteon morphometry in females with femoral neck fractures. Clin Orthop Relat Res. October 1992;283:178-186.

Year	Entry
2016	Andronowski JM. Evaluating Differential Nuclear DNA Yield Rates Among Human Bone Tissue Types: A Synchrotron Micro-CT Approach [PhD thesis]. Knoxville, University of Tennessee; May 2016.

Year

Entry

2016

Andronowski JM. Evaluating Differential Nuclear DNA Yield Rates Among Human Bone Tissue Types: A Synchrotron Micro-CT Approach [PhD thesis]. Knoxville, University of Tennessee; May 2016.