Matrix metalloproteinases (MMPs), a sort of important enzymes involved in extracellular matrix metabolism, play critical roles in the process of tissues remodeling, wound healing and metastasis of tumors. Dot blot and in situ hybridization were used in this study to detect the expression and localization of MMP-9, an important proteolytic enzyme implicated in bone resorption in bone tissues. The results showed that the level of MMP-9 mRNA expression in osteoporotic bone tissues was significantly higher than that in normal control group and the cell types that expressed MMP-9 mRNA included mono- and multi-nuclear osteoclasts and some lining cells on the surface of bone matrix. It was suggested that MMP-9 play a key role in the development of bone loss in osteoporosis.
Biodegradation of tricalcium phosphate (TCP) ceramics was observed through mixed culture of osteoclasts and TCP discs in vitro in this study. Osteoclasts were isolated from newborn SD rat's marrow of long bone and cultured on TCP discs. The culture terminated at the 48th h and 96th h respectively. Under an inverted microscope, the osteoclasts imparted round or oval body with multinuclear and many thin processes. These cells were positively stained for tartrate-resistance acid phosphatase (TRAP). Scanning electron microscope showed that many resorption lacunae on TCP disc surface and their diameters were smaller than 20 microns. Osteoclasts were located in the lacunae. At the 96th h, the resorption lacunae become larger and osteoclasts showed degeneration. It is suggested that osteoclasts possess ability to re-absorb TCP ceramics under in vitro culturing condition.
The ultrastructure of macrophages in rabbits' radius callus at the 14th and 31st day after fracture had been observed in the study. It was found that macrophages mostly appeared in the early stage callus where there were inflammation, clot, and bone chips. Commonly seen macrophages were active phagocytes with single nucleus, but they could evolve to form multinuclear macrophages or fuse into foreign body giant cells. We are therefore led to conclude that the functions performed by macrophages in healing callus are to phagocytize and digest damaged cellular fragments, small bone chips, clot and foreign body; to disrupt larger dead bone matrix extracellularly and to resorb them by microvilli-like processes on the surface of foreign body giant cells.
In order to understand the relation between TXA2-PGI2 and secondary trauma and the effect of intra-arachnoid perfusion of dexamethasone and verapamil on alteration of TXA2-PGI2 following spinal cord injury, TXB2 and 6-keto-PGF alpha concentration and pathological changes in injured site 1, 2, 4, and 6 h after injury were studied using a rabbit spinal cord injury model by Allen's weight drop method.
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