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Text
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URL Address
<a href="http://doi.org/10.1039/b505706j" target="_blank" rel="noreferrer noopener">http://doi.org/10.1039/b505706j</a>
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Pages
1495-1503
Issue
16
Volume
16
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Title
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Collagen As A Scaffold For Biomimetic Mineralization Of Vertebrate Tissues
Publisher
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Journal of Materials Chemistry
Date
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2006
2006
Subject
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3 dimensions; bone; Chemistry; elastic energy-storage; electron-microscopic tomography; fibril structure; i collagen; Materials Science; matrix; mechanical-properties; molecular packing; organic; turkey tendons
Creator
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Landis W J; Silver F H; Freeman J W
Description
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Collagen is a well known protein component that has the capacity to mineralize in a variety of vertebrate tissues. In its mineralized form, collagen potentially can be utilized as a biomimetic material for a variety of applications, including, for example, the augmentation and repair of damaged, congenitally defective, diseased or otherwise impaired calcified tissues such as bone and cartilage. In order to effect an optimal response in this regard, the manner in which collagen becomes mineralized is critically important to understand. This paper provides details concerning collagen-mineral interaction and its implications with respect to designing biomimetic mineralizing collagen that will be functionally competent in its biological, chemical, and biomechanical properties.
Identifier
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<a href="http://doi.org/10.1039/b505706j" target="_blank" rel="noreferrer noopener">10.1039/b505706j</a>
Format
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Journal Article or Conference Abstract Publication
2006
3 dimensions
Bone
Chemistry
Department of Family & Community Medicine
elastic energy-storage
electron-microscopic tomography
fibril structure
Freeman J W
i collagen
Journal Article or Conference Abstract Publication
Journal of Materials Chemistry
Landis W J
Materials Science
matrix
mechanical-properties
molecular packing
NEOMED College of Medicine
organic
Silver F H
turkey tendons