Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
 16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Callus formation in the periosteal bone interface in response to bone morphogenetic protein (BMP) and associated bone matrix noncollagenous proteins (BMP/NCP) was investigated in mature adult rabbits. For controls byproducts of BMP/NCP purification, bone marrow, eight nonskeletal tissues, purified matrix gamma-carboxyglutamic acid-rich protein (MGP), and a composite of BMP/NCP and polylactic-polyglycolic acid polymer (PLA/PGA) were also implanted in the periosteal bone interface. Quantitative microcomputer image analysis and histologic studies were performed three weeks after the implantation. BMP/NCP and bone marrow or BMP/NCP implanted over a single drill hole into the marrow cavity produced three times more new bone than the bone marrow alone. BMP/NCP alone produced twice as much new bone as bone marrow alone. Control implants of bovine serum albumin or purified MGP produced no new bone. Autogeneic minced muscle and ten nonskeletal tissue controls produced little or no bone formation. Even at one-fifth of the dose of BMP/NCP, a composite of PLA/PGA incorporating BMP/NCP showed almost the same amount of new bone as BMP alone. Histologically, the response to BMP/NCP consisted of an external callus of calcifying cartilage and woven bone. The response to subperiosteal implants of BMP/NCP or BMP/NCP with bone marrow or with minced muscle occurred with the same sequence of developmental events as seen either in embryonic skeletogenesis or in fracture callus.
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PMID:Induction of callus formation by implants of bone morphogenetic protein and associated bone matrix noncollagenous proteins. 318 May 78

In adult rabbits, mid-diaphyseal segments of the radius or ulna were excised to produce defects greater than the critical size for spontaneous bone repair. The defects were enveloped in sleeves composed of nonbiodegradable expanded polyfluoroethylene (ePTFE), pore size 30, 60, 90 microns, and compared with sleeves of three biodegradable materials. Bone morphogenetic protein and associated noncollagenous bone matrix protein (BMP/NCP) or recombinant human morphogenetic protein (rhBMP-2) were implanted inside the sleeves. Albumin was implanted for a control system. Without intracompartmental BMP, only about 10%-15% of the defect was repaired by bone growth extending from the bone ends into the sleeves composed of ePTFE, pore size 30 microns. With sleeves with pore size 60 or 90 microns and intracompartmental BMP/NCP, 54%-96% regeneration occurred within 8 weeks after the operation. Sleeves of biodegradable nonimmunogenic materials such as polyorthoester (POE) and polylactic-polyglycollic acids (PLA/PGA) permitted 86%-98% restoration of bone continuity, but only when BMP was present in the lumen. With puncture holes (0.5 mm in diameter), implants of BMP/NCP in the 30-micron PTFE sleeve produced transmembrane external callus formation and bone regeneration to 147%. Sleeves composed of aorta first calcified, then induced complete intracompartmental bone regeneration. Atelocollagen sleeves incited a low-grade inflammatory cell reaction and did not promote complete regeneration. Under conditions presently undisclosed segments of the ulna bridged with ePTFE, were incompletely paired, even with intracompartmental BMP/NCP. Puncture holes of 0.5 mm admitted ingrowth of capillaries and introduced local conditions favorable for the response to BMP/NCP. BMP/NCP may promote proliferation of nutrient vessels and differentiation of bone marrow stroma cells between the open bone ends. For further investigation, the hypothesis to be examined is that the optimum response to BMP/NCP and rhBMP-2 would emerge in compartments containing first a high concentration gradient and second proliferating perivascular cells.
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PMID:Bone morphogenetic protein induced repair of compartmentalized segmental diaphyseal defects. 945 32