Histology remains the gold standard in morphometric and pathological analyses of osteochondral tissues in human and experimental bone and joint disease. However, histological tissue processing is laborious, destructive and only provides a two-dimensional image in a single anatomical plane. Micro computed tomography (μCT) enables non-destructive three-dimensional visualization and morphometry of mineralized tissues and, with the aid of contrast agents, soft tissues. In this study, we evaluated phosphotungstic acid-enhanced (PTA) μCT to visualize joint pathology in spine osteoarthritis. Lumbar facet joint specimens were acquired from six patients (5 female, age range 31–78) undergoing decompression surgery. Fresh osteochondral specimens were immediately fixed in formalin and scanned in a benchtop μCT scanner (65 kV, 153 mA, 25 μm resolution). Subsequently, samples were completely decalcified in 5% formic acid, equilibrated in 70% ethanol and stained up to ten days in 1% PTA (w/v) in 70% ethanol. PTA-stained specimens were scanned at 70 kV, 140 mA, 15 μm resolution. Depth-dependent analysis of X-ray attenuation in cartilage tissues was performed using ImageJ. Bone structural parameters of undecalcified and PTA-stained specimens were determined using CT Analyser and methods were compared using correlation and Bland-Altman analysis.Introduction
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