Until recently, true 3D assessment of trabecular and cortical bone microstructure has been limited to ex vivo measurements in laboratory microtomography
systems [9, 10]. High-resolution peripheral quantitative computed tomography (HR-pQCT) is a promising non-invasive method for in vivo 3D characterization https://www.selleckchem.com/products/elacridar-gf120918.html of bone in humans. Similar to traditional quantitative computed tomography (QCT), HR-pQCT provides the ability to quantitatively assess volumetric bone mineral density (vBMD) in a compartmental fashion in the appendicular skeleton (distal radius and tibia). Additionally, it permits quantification of the geometric, microstructural, and biomechanical features of human cortical and trabecular bone [11–13]. As this technology matures, it is important selleck screening library that the utility of new densitometric, structural, and biomechanical endpoints be evaluated in clinically relevant patient populations against standard reference endpoints. Areal BMD (aBMD), measured by dual X-ray absorptiometry (DXA) is the most widely used surrogate for bone strength, and therefore is an appropriate yardstick for new quantitative techniques based on emerging imaging modalities such as HR-pQCT. In several recent clinical bone quality studies, forearm DXA has been used in compliment to HR-pQCT as a densitometric gold standard, for diagnostic classification, strength prediction, and fracture
discrimination [13–18]. However, there are several disadvantages to adding a DXA exam to a clinical HR-pQCT study. Arachidonate 15-lipoxygenase These include, but are not limited to, increased logistical complexity, find more decreased patient retention and compliance, increased cost, and increased radiation dose to the patient. Furthermore, in the context of multi-center studies, the additional burden of cross-site, cross-manufacturer calibration
is often necessary [19]. In this study, a method is proposed to simulate DXA-based aBMD measures at the ultra-distal radius using 3D HR-pQCT image data. The algorithm was tested and validated in normative and osteopenic cohorts who underwent HR-pQCT and DXA exams. Materials and methods Subjects HR-pQCT image data from the baseline examinations from two ongoing patient studies were evaluated retrospectively using the aBMD simulation method described below for comparison against aBMD determined by DXA. The first patient cohort is part of a longitudinal investigation into the effects of alendronate on bone microarchitecture and has been described in detail by Kazakia et al. [14]. In short, postmenopausal women (n = 52) defined as osteopenic by WHO criteria [20] were recruited. The women were included if they were between the ages of 45 and 65, and had been postmenopausal for at least one but not more than 6 years. They were required to exhibit low BMD (T-score range −1.1 to −2.5) by DXA either at the lumbar spine or at the total proximal femur, trochanter, or neck regions of interest.