Journal ArticleDOI
Bone Induction in Excavation Chambers in Matrix of Decalcified Dentin
Gisle Bang,Marshall R. Urist +1 more
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The toothbud not only continues its characteristic development, but also exhibits the capacity to induce undifferentiated connective tissues to form bone.Abstract:
EXPERIMENTS by Charles B. Huggins and his associates, 1 and many others during the past thirty years, 2-11 demonstrate that whole toothbuds and parts of toothbuds possess the capacity to grow and develop in areas of the body other than the jawbone, even in the form of explants in tissue culture. The toothbud not only continues its characteristic development, but also exhibits the capacity to induce undifferentiated connective tissues to form bone. To explain these observations, Hoffman 12 postulates that the enamel organ and its derivative, Hertwig's epithelial root sheath, stimulates connective tissue cells to differentiate into bone cells, while Zussman 13 contends that odontoblasts which had previously participated in dentin formation can produce bone even when not in contact with oral tissues. Except that the new bone originates from proliferating living cells in both the transplanted tooth and in the host bed, present knowledge of the local physiology ofread more
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Bone graft and bone graft substitutes: a review of current technology and applications.
TL;DR: A variety of bone graft and bone graft substitute materials are discussed, among the osteoconductive materials outlined are the hydroxyapatite and tricalcium phosphate ceramics and some reportedly osteoactive polymers.
Journal ArticleDOI
Bone cell differentiation and growth factors.
TL;DR: Bone morphogenetic protein and bone derived growth factors are biochemical tools for research on induced cell differentiation and local mechanisms controlling cell proliferation as mentioned in this paper, and they irreversibly induce differentiation of perivascular mesenchymal-type cells into osteoprogenitor cells.
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Growth factors to stimulate bone formation
TL;DR: It is proposed that different growth factors may have a specific role in regulating proliferation and differentiation of different stages of osteoblast lineage cells and play important roles in the local regulation of bone formation.
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Are Cementoblasts a Subpopulation of Osteoblasts or a Unique Phenotype
TL;DR: This review supports the hypothesis that AEFC is a unique tissue, while CIFC and bone share some similarities, and proposes that Hertwig’s epithelial root sheath and cells derived from it play an essential role in the development and maintenance of the periodontium.
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Periodontal wound healing and regeneration.
Ulf M.E. Wikesjö,Knut A. Selvig +1 more
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Journal ArticleDOI
Bone: Formation by Autoinduction
TL;DR: Differentiation of the osteoprogenitor cell is elicited by local alterations in cell metabolic cycles that are as yet uncharacterized and may transfer collagenolytic activity to the substrate to cause dissolution of the matrix.
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Osteogenetic potency and new-bone formation by induction in transplants to the anterior chamber of the eye.
TL;DR: A resolution of a basic problem of osteogenesis is proposed by acceptance of the postulate that post-foetal new-bone formation, instead of depending solely upon one of the two mechanisms which have been proposed, may occur through the effect of either of these mechanisms, or by a combination of theTwo.
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Osteogenesis in the interior of intramuscular implants of decalcified bone matrix.
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The development in vivo and in vitro of the lower incisor and molars of the mouse.
TL;DR: Lower incisor and molar tooth germs were explanted from 13–18 day mouse foetuses and cultivated in vitro and developed fairly normally until a layer of dentine had been laid down.