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| Hauptverfasser: | , , |
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| Format: | Preprint |
| Veröffentlicht: |
2025
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| Online-Zugang: | https://arxiv.org/abs/2512.03880 |
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| _version_ | 1866909941941403648 |
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| author | Manzanares, John Rick Abel, Richard Leslie Dłotko, Paweł |
| author_facet | Manzanares, John Rick Abel, Richard Leslie Dłotko, Paweł |
| contents | Accurate bone strength prediction is essential for assessing fracture risk, particularly in aging populations and individuals with osteoporosis. Bone imaging has evolved from X-rays and DXA to clinical computed tomography (CT), and now to advanced modalities such as high-resolution peripheral quantitative CT and synchrotron radiation CT, which offer unprecedented resolution of bone microarchitecture. However, analytical methods have not kept pace with these imaging advances. This study applied topological data analysis (TDA) to extract biomechanically relevant features from high-resolution bone images, offering a new framework for bone strength prediction. We extracted topological features, specifically those derived from persistent homology, and combined them with standard bone morphometric descriptors to train machine learning models for apparent strength prediction. Models based solely on topological features outperformed those using traditional morphometrics, highlighting TDA's ability to capture biomechanically relevant structure. In particular, internal voids, often dismissed as imaging noise, proved to be the most predictive. While limited by dataset size and class imbalance, these results suggest that TDA offers a promising approach for advancing osteoporosis risk assessment. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2512_03880 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Leveraging topological data analysis to estimate bone strength from micro-CT as a surrogate for advanced imaging Manzanares, John Rick Abel, Richard Leslie Dłotko, Paweł Quantitative Methods 55N31 I.4.9; J.3 Accurate bone strength prediction is essential for assessing fracture risk, particularly in aging populations and individuals with osteoporosis. Bone imaging has evolved from X-rays and DXA to clinical computed tomography (CT), and now to advanced modalities such as high-resolution peripheral quantitative CT and synchrotron radiation CT, which offer unprecedented resolution of bone microarchitecture. However, analytical methods have not kept pace with these imaging advances. This study applied topological data analysis (TDA) to extract biomechanically relevant features from high-resolution bone images, offering a new framework for bone strength prediction. We extracted topological features, specifically those derived from persistent homology, and combined them with standard bone morphometric descriptors to train machine learning models for apparent strength prediction. Models based solely on topological features outperformed those using traditional morphometrics, highlighting TDA's ability to capture biomechanically relevant structure. In particular, internal voids, often dismissed as imaging noise, proved to be the most predictive. While limited by dataset size and class imbalance, these results suggest that TDA offers a promising approach for advancing osteoporosis risk assessment. |
| title | Leveraging topological data analysis to estimate bone strength from micro-CT as a surrogate for advanced imaging |
| topic | Quantitative Methods 55N31 I.4.9; J.3 |
| url | https://arxiv.org/abs/2512.03880 |