Excitation Transfer in Bone
- 1 October 1974
- journal article
- research article
- Published by American Medical Association (AMA) in Archives of Surgery
- Vol. 109 (4) , 486-493
- https://doi.org/10.1001/archsurg.1974.01360040012004
Abstract
In a bone alloimplant in muscle, the structure of the organic matrix evocates or promotes a morphogenetic response from migratory mesenchymal cells. Radiation sterilization destroys the morphogenetic property at a much lower dose of cobalt 60 in undemineralized than in the demineralized bone. Damage to the organic matrix is heightened by excitation transfer from the radiated bone mineral to the matrix proteins. The mineral having an apatite structure also has a relatively high ionization potential and generates deleterious free radicals, which convert the matrix collagen to gelatin. Radiolysis prevents neither the undesirably delayed hypersensitivity response nor the degradation of the bone morphogenetic property by endogenous protease. These observations account for the failure of freeze-dried and radiation-sterilized bone to promote repair of large bone defects in adult patients.Keywords
This publication has 3 references indexed in Scilit:
- Enzymes in Bone Morphogenesis: Endogenous Enzymic Degradation of the Morphogenetic Property in Bone in Solutions Buffered by Ethylenediaminetetraacetic Acid (EDTA)Published by Wiley ,1973
- The Substratum for Bone Morphogenesis11This work was aided by a grant-in-aid from The John A. Hartford Foundation, Inc., and in part by grants-in-aid from the USPHS, National Institute of Dental Research (DE-02103), Ayerst Laboratories, Inc., and the Orthopedic Research and Education Foundation; and in part by a contract between the U. S. Army Research and Development Command (DA-49-193 MD-2556) and the University of California.Published by Elsevier ,1971
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