Keywords:-

Keywords: computational anatomical dissection, image processing, software engineering, surfactal programming, computer aided design (CAD), computer aided manufacturing (CAM), anatomical cadaveric imaging simulations, biomechanics, bioengineering, spinal computational-surgery, spinal ligaments, spinal anterior longitudinal ligament (ALL), low back pain (LBP)

Article Content:-

Abstract

Continuing this biomechanical research line, and based on previous series, a subsequent reumathologically-directed clinical study with 3D-CAD imaging-processing was done. In this part with GNU Octave and Matlab programming—comparing both. The lumbar cadaveric specimen is a different one related to previous publications specimens of bioengineering laboratory. The objective of the research is the clinical finding of lumbar spine degeneration signs, arthrosis, osteoarthritis, deformations, and disk herniations. The software method is presented in series of 3D-CAD lumbar vertebral imaging processing and software-camera with Matlab. Results demonstrate that, from scanned cloud data of cadaveric specimens, a clinical necropsia and diagnosis database can be taken out. Clinical applications on computational-forensics, computational-imaging intelligence, medical physics, and biomedical engineering are obtained from these cadaveric specimens 3D imaging-processing evaluation. A number of epidemiological/statistical data is shown. What is more, the author’s mathematical spine sub-unit model biomechanical equations and model is initially developed. The article is an advance and shows review of necessary parts for better understanding.

References:-

References

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Casesnoves, F. (2025). Computational-Reumathological CAD Clinical Diagnosis with Lumbar Vertebral Cadaveric Specimens and Spine Sub-Units Mathematical Modeling. Part III. International Journal Of Mathematics And Computer Research, 13(5), 5193-5204. https://doi.org/10.47191/ijmcr/v13i5.10