1. The structure of cortical bone as revealed by the application of methods for the calcified matrix study.
- Author
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Pazzaglia UE, Reguzzoni M, Depero L, Federici S, Bondioni M, Zarattini G, and Raspanti M
- Subjects
- Collagen metabolism, Cortical Bone blood supply, Cortical Bone physiology, Decalcification Technique methods, Femur blood supply, Hot Temperature, Humans, Male, Microscopy, Electron, Scanning, Minerals metabolism, Bone Matrix anatomy & histology, Cortical Bone ultrastructure, Femur anatomy & histology, Femur ultrastructure
- Abstract
Calcination and decalcification are basic procedures useful to a morphological approach of a biological, composite material like cortical bone. The study was carried out on a whole human femur conserved in liquid (from an educational collection). Cortical fracturing and SEM observation of vascular canals surface collagen texture was used to study bone deproteination at scalar temperatures (400-1,200°C) and acid bone decalcification at crescent time intervals. Heating burned and vaporized the organic matrix with shrinkage of the bone specimens as documented by the weight loss and transverse surface morphometry. SEM showed a pattern of aligned spherulites at 400°C which maintained the collagen fibrils layout (like a mineral cast), followed by a spherulites fusion progression with the temperature increments. At 1200°C a crystalline-like structure of tightly-packed trapezohendron units. XRD analysis supported the SEM morphology displaying the complete Debey rings of hydroxyapatite and spotted Debey rings of withlockite. Surface Ca and P elution was documented after 12 hr of exposition to the acid solution by dissolution of spherulites and the whole canal surface decalcified in depth after 15 days by SEM-EDAX analysis. The periodic pattern of collagen fibrils was still evident up to 15 days of decalcification together with fine granular deposits of a not-collagenic proteic material, while after 30 days no period was observed in the decalcified fibrils. Collagen mineral cast at 400°C calcination. Complete crystalline transformation at 1200°C. Up to 15 days of decalcification fibrils period maintained., (© 2020 Wiley Periodicals, Inc.)
- Published
- 2020
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