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Title: Ultrastructural modifications of the extracellular matrix upon calcification of growth plate cartilage as revealed by quick-freeze deep etching technique. Author: Akisaka T, Nakayama M, Yoshida H, Inoue M. Journal: Calcif Tissue Int; 1998 Jul; 63(1):47-56. PubMed ID: 9632846. Abstract: The ultrastructural changes in cartilage matrix that occur during calcification have been examined in chick epiphyseal growth plate cartilage prepared by quick-frozen, deep-etched, and rotary shadowed replicas. The extracellular cartilage matrix contains a reticular network closely associated with an extensive network of collagen. The components of the reticular network, including thick and thin filaments, are attached directly to the cell membrane, matrix vesicle membrane, and collagen fibrils. This network, which interconnects the matrix vesicles and collagen, fills the extracellular matrix. The dimensions of the reticular network seem to remain almost constant in size from the reserve and proliferative zones to the calcifying zone. The collagen fibrils seem to consist of subfibrillar structures that branch and anastomose. In optimally quick-frozen, deep-etched, prepared collagen, a cross-banding pattern was exposed. Globular structures stud the collagen fibrils, which gradually diminish in number from the reserve zone down to the calcifying zone. The matrix vesicles, when fractured, showed a granular appearance. In most cases, the fracture plane passed through the bilayer of the matrix vesicle membrane. The true surface of the matrix vesicle membrane, therefore, was exposed after deep etching. At the calcifying zone, crystal deposition had occurred in needle-like and/or plate-like form within the membrane-bound matrix vesicles. The reticular network was still intact in the vicinity of the calcified matrix, but in the intercrystalline space, neither the reticular structure nor the globular structure was detectable. Within the calcified matrix, both reticular and granular structures had disappeared from the interfibrillar space of the collagen fibrils.[Abstract] [Full Text] [Related] [New Search]