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| Main Authors: | , , , , , , , , |
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| Format: | Preprint |
| Published: |
2025
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2512.04662 |
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Table of Contents:
- This work introduces a quantitative method for assessing calcification in fibrocartilage using spectral micro-computed tomography ($μ$CT). Tissue samples of hip acetabular labrum from patients with osteoarthritis and femoroacetabular impingement were imaged with a laboratory-based spectral $μ$CT system equipped with a small-pixel photon-counting detector. The detector operated with two energy thresholds, allowing the simultaneous acquisition of two CT datasets at different X-ray energies. A material decomposition algorithm accounting for the system's spectral response was applied to separate calcium- and water-like components, yielding three-dimensional visualization and quantification of calcified regions within intact paraffin-embedded samples. Unlike the conventional method for calcification assessment based on histology, this spectral μCT approach offers volumetric quantification of calcium structures without physical sectioning or staining. The method achieved a voxel size of 20 $μ$m for samples up to ~3 cm, with a calcium detection threshold of ~0.3 g/cm$^3$ for structures down to 50 $μ$m. Quantification accuracy was estimated to be 5% by using a calibration phantom. Further comparison with histology demonstrated the correct localization of calcium spatial distributions and a match in the calcium crystal deposition score by providing non-destructive, quantitative 3D calcium maps of preserved tissue samples. This technique complements histology and could enhance the characterization of pathological fibrocartilage calcification in hip joint disorders.