Determination of age at death using combined morphology and histology of the femur

C. D. L. THOMAS; M. S. STEIN; S. A. FEIK; J. D. WARK; J. G. CLEMENT

doi:10.1046/j.1469-7580.2000.19630463.x

Abstract

Bone is characterised by age-related morphological and histological changes. We have previously established an automated method of recording bone morphometry and histology from entire transverse sections of cortical bone. Our aim was to determine whether data acquired using this automated system were useful in the prediction of age. Ninety-six specimens of human femoral middiaphysis were studied from subjects aged 21–92 y. Equations predicting specimen age were constructed using macroscopic data (total subperiosteal area (TSPA), periosteal perimeter (PP), endosteal perimeter (EP), cortical bone area (CA) and moments of area) and microscopic data (the number, size and diversity of pores and intracortical porosity) together with sex, height and weight. Both TSPA and PP were independent predictors of age but the number of pores was not a significant predictor of age in any equation. The age predicted by these equations was inaccurate by more than 8 y in over half the subjects. We conclude that we could not predict age at a clinically acceptable level using data from our automated system. This most likely reflects an insensitivity to regional age-related changes in bone histology because we recorded data from each entire cortex. Automated bone measurement according to cortical region might be more useful in the prediction of age. The inclusion of TSPA together with PP as independent predictors of age raises the possibility that a future measure of periosteal shape at the femoral diaphysis could also be helpful in the prediction of age. The accuracy reached with the relatively simple methods described here is sufficient to encourage the development of image-analysis systems for the automatic detection of more complex features.

Crossref Citations

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Thomas, C. David L. Feik, Sophie A. and Clement, John G. 2005. Regional variation of intracortical porosity in the midshaft of the human femur: age and sex differences. Journal of Anatomy, Vol. 206, Issue. 2, p. 115.

Mayhew, Paul M Thomas, C David Clement, John G Loveridge, Nigel Beck, Thomas J Bonfield, William Burgoyne, Chris J and Reeve, Jonathan 2005. Relation between age, femoral neck cortical stability, and hip fracture risk. The Lancet, Vol. 366, Issue. 9480, p. 129.

Schmitt, Aurore 2006. Les phalanges des mains sont-elles un bon indicateur de l’âge au décès des adultes ?. Bulletins et mémoires de la société d'anthropologie de Paris, Vol. 18, Issue. 3-4, p. 177.

Baccino, Eric and Schmitt, Aurore 2006. Forensic Anthropology and Medicine. p. 259.

Cooper, David M.L. Thomas, C. David L. Clement, John G. Turinsky, Andrei L. Sensen, Christoph W. and Hallgrímsson, Benedikt 2007. Age-dependent change in the 3D structure of cortical porosity at the human femoral midshaft. Bone, Vol. 40, Issue. 4, p. 957.

Hedges, Robert E.M. Clement, John G. Thomas, C. David L. and O'Connell, Tamsin C. 2007. Collagen turnover in the adult femoral mid‐shaft: Modeled from anthropogenic radiocarbon tracer measurements. American Journal of Physical Anthropology, Vol. 133, Issue. 2, p. 808.

Chiang, Martin Y.M. Landis, Forrest A. Wang, Xianfeng Smith, Jack R. Cicerone, Marcus T. Dunkers, Joy and Luo, Yanfeng 2009. Local Thickness and Anisotropy Approaches to Characterize Pore Size Distribution of Three-Dimensional Porous Networks. Tissue Engineering Part C: Methods, Vol. 15, Issue. 1, p. 65.

Thomas, C David L. Mayhew, Paul M. Power, Jon Poole, Kenneth ES Loveridge, Nigel Clement, John G. Burgoyne, Chris J. and Reeve, Jonathan 2009. Femoral Neck Trabecular Bone: Loss With Aging and Role in Preventing Fracture. Journal of Bone and Mineral Research, Vol. 24, Issue. 11, p. 1808.

Martrille, Laurent Irinopoulou, Théano Bruneval, Patrick Baccino, Eric and Fornes, Paul 2009. Age at Death Estimation in Adults by Computer‐Assisted Histomorphometry of Decalcified Femur Cortex. Journal of Forensic Sciences, Vol. 54, Issue. 6, p. 1231.

Stein, Koen Csiki, Zoltan Rogers, Kristina Curry Weishampel, David B. Redelstorff, Ragna Carballido, Jose L. and Sander, P. Martin 2010. Small body size and extreme cortical bone remodeling indicate phyletic dwarfism inMagyarosaurus dacus(Sauropoda: Titanosauria). Proceedings of the National Academy of Sciences, Vol. 107, Issue. 20, p. 9258.

Purves, Stacey Woodley, Lianne and Hackman, Lucina 2011. Forensic Anthropology. p. 29.

Milenkovic, Petar Djukic, Ksenija Djonic, Danijela Milovanovic, Petar and Djuric, Marija 2013. Skeletal age estimation based on medial clavicle—a test of the method reliability. International Journal of Legal Medicine, Vol. 127, Issue. 3, p. 667.

Bernhard, A. Milovanovic, P. Zimmermann, E. A. Hahn, M. Djonic, D. Krause, M. Breer, S. Püschel, K. Djuric, M. Amling, M. and Busse, B. 2013. Micro-morphological properties of osteons reveal changes in cortical bone stability during aging, osteoporosis, and bisphosphonate treatment in women. Osteoporosis International, Vol. 24, Issue. 10, p. 2671.

Absolonova, Karolina Veleminsky, Petr Dobisikova, Miluse Beran, Michal and Zocova, Jarmila 2013. Histological Estimation of Age at Death from the Compact Bone of Burned and Unburned Human Ribs. Journal of Forensic Sciences, Vol. 58, Issue. s1,

Ősi, Attila Codrea, Vlad Prondvai, Edina and Csiki-Sava, Zoltán 2014. New ankylosaurian material from the Upper Cretaceous of Transylvania. Annales de Paléontologie, Vol. 100, Issue. 3, p. 257.

Zioupos, P. Williams, A. Christodoulou, G. and Giles, R. 2014. Determining ‘age at death’ for forensic purposes using human bone by a laboratory-based biomechanical analytical method. Journal of the Mechanical Behavior of Biomedical Materials, Vol. 33, Issue. , p. 109.

Schug, Gwen Robbins and Goldman, Haviva M. 2014. Birth is but our death begun: A bioarchaeological assessment of skeletal emaciation in immature human skeletons in the context of environmental, social, and subsistence transition. American Journal of Physical Anthropology, Vol. 155, Issue. 2, p. 243.

White, Lorraine and Booth, Thomas J. 2014. The origin of bacteria responsible for bioerosion to the internal bone microstructure: Results from experimentally-deposited pig carcasses. Forensic Science International, Vol. 239, Issue. , p. 92.

Sahadun, Nur A. Kadir, Mohammed R. A. and Haron, Habibollah 2014. Computational Intelligence in Digital Forensics: Forensic Investigation and Applications. Vol. 555, Issue. , p. 165.

Miszkiewicz, Justyna J. 2016. Investigating histomorphometric relationships at the human femoral midshaft in a biomechanical context. Journal of Bone and Mineral Metabolism, Vol. 34, Issue. 2, p. 179.

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Determination of age at death using combined morphology and histology of the femur

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