BEFORE OUR TIMEDifferences in proximal femur bone density over two centuries
References (17)
- et al.
Biomechanics of fracture risk prediction of the hip and spine by quantitative computed tomography
Radiol Clin North Am
(1991) The increasing incidence of fractures of the proximal femur: an orthopaedic epidemic
Lancet
(1983)- et al.
Bone density of the radius, spine and proximal femur in osteoporosis
J Bone Min Res
(1988) - et al.
Bone mineral density in patients with cervical and trochanteric fractures of the proximal femur
Osteoporosis Int
(1991) - et al.
Fractures of the proximal end of the femur in Goteberg, Sweden, 1940-1979
Acta Orthopaed Scand
(1980) Fracture of the neck of femur: changing incidence
BMJ
(1981)- et al.
Estimation of stature from long bones of American Whites and Negroes
Am J Phys Anthrop
(1952) - et al.
Performance evaluation of a dual-energy X-ray bone densitometer
Calcif Tissue Int
(1989)
Cited by (108)
Approaches to osteoporosis in paleopathology: How did methodology shape bone loss research?
2021, International Journal of PaleopathologyCitation Excerpt :Interestingly, the few publications that had access to archival information to inform on parity rates of the females included in their samples, found no significant correlation between parity and bone loss in young adulthood (Curate and Tavares, 2018; Mays, 2000). Patterns of bone loss in old-adult females are often related to timing of menopause (Cho and Stout, 2011; Curate et al., 2019; Fulpin et al., 2001; Glencross and Agarwal, 2011; Lees et al., 1993; McEwan et al., 2004; Mafart et al., 2008; Mensforth and Latimer, 1989; Umbelino et al., 2019; Zaki et al., 2009). Onset and degree of bone loss in females also differed within the same study population depending on the method used to assess bone loss patterns; reflecting the complicated metabolic processes underlying bone loss in the female skeleton, as well as the influence of skeletal element selection on the outcome of the study.
Bone mineral density through history: Dual-energy X-ray absorptiometry in archaeological populations of Norway
2021, Journal of Archaeological Science: ReportsDid parity affect bone mineral density of women in past populations? Parturition scars and BMD of Neolithic to modern skeletons from north-central Poland
2020, Journal of Archaeological ScienceCitation Excerpt :This approach was motivated by the fact that in most specimens, it was not possible to evaluate all of the analyzed alterations due to poorly preserved or missing pelvic areas. The bone mineral status was established for the proximal femur using dual energy X-ray absorptiometry (DEXA) with soft tissue equivalent platforms (Lees et al., 1993; Ekenman et al., 1995; Mays et al., 2006). One femur from each skeleton (the better-preserved one) was examined.
Osteoporotic bone fractures and age-related bone loss in males inhabiting the Kujawy region in north-central Poland from the Neolithic to early modern times
2019, Journal of Archaeological ScienceCitation Excerpt :Since skeletal age estimation methods cannot determine the upper limit of longevity in past populations, it was adopted at 80 years for the two oldest age groups, which corresponds to longevity in contemporary Poland (https://stat.gov.pl), as that characteristic is considered to be relatively invariant in human populations (Jackes, 2000; Chamberlain, 2006). Bone mineral status was established for the proximal femur using dual energy X-ray absorptiometry (DEXA) with tissue equivalent platforms (Lees et al., 1993; Ekenman et al., 1995; Mays et al., 2006). One femur from each skeleton (the better preserved one) was examined.
Histomorphology
2019, Ortner's Identification of Pathological Conditions in Human Skeletal RemainsEvaluation of chronological changes in bone fractures and age-related bone loss: A test case from Poland
2016, Journal of Archaeological ScienceCitation Excerpt :Even though BMD comparisons with living individuals should be avoided or performed carefully, this trend is supported by the present study. In this study, BMD findings for populations from the Brześć Kujawski area were consistent with the DEXA results reported for Europeans from corresponding periods (Lees et al., 1993; Ekenman et al., 1995; Mays et al., 2006; Borrè et al., 2015). The absence of unusual differential patterns of bone density in the skeletal material may be treated as additional evidence indicating that diagenetic changes are unlikely to have taken place.