The osteoinductive effect of chitosan–collagen composites around pure titanium implant surfaces in rats
Identifieur interne : 004451 ( Main/Exploration ); précédent : 004450; suivant : 004452The osteoinductive effect of chitosan–collagen composites around pure titanium implant surfaces in rats
Auteurs : S. Kung [Taïwan] ; H. Devlin [Royaume-Uni] ; E. Fu [Taïwan] ; K. Ho [Taïwan] ; S. Liang [Taïwan] ; Y. Hsieh [Taïwan]Source :
- Journal of Periodontal Research [ 0022-3484 ] ; 2011-02.
Descripteurs français
- Wicri :
- topic : Biomatériau, Titane.
English descriptors
- KwdEn :
- Academic press, Alizarin, Alkaline, Alkaline phosphatase, Alkaline phosphotase, Alveolar bone, Animal model, Barrier membranes, Beagle dogs, Biomaterials, Biomaterials taravel, Biomed mater, Biomedical applications, Body weight, Bone cells, Bone formation, Bone histomorphometry, Bone miner, Bone morphogenic proteins, Bone parameters, Bone surfaces, Bony structures, Bovine serum albumin, Chitin, Chitosan, Chitosan solution, Chitosan sponges, Collagen, Collagen membrane, Composite group, Composite groups, Deacetylation, Deacetylation degree, Dentistry, Ectopic bone formation, Fracture repair, Further studies, Growth factor, Growth factors, Higher view, Histological analysis, Histological sections, Histomorphometric analysis, Hsiung veterans, Immunohistochemical, Immunohistochemical staining, Implant, Implant dentistry, Implant insertion, Implant surfaces, Intrabony defects, Intrinsic osteoinduction mechanism, Molecular weight, Molecular weights, Negative control, Negative control group, Negative results, Oral maxillofac implants, Oral maxillofac surg, Osteoblast, Osteogenic proteins, Osteoinduction, Osteoinductive, Osteopontin, Osteoprogenitor cells, Periodontol, Phosphatase, Plain membrane, Platelet, Platelet adhesion, Plateletderived growth factor, Porous hydroxyapatite, Positive staining, Present study, Previous studies, Primary antibody, Protein adsorption, Pure titanium implant surfaces, Regeneration, Smart materials, Standard deviation, Subcutaneous area, Synthetic materials, Test groups, Test materials, Thick arrow, Thin arrow, Tissue engineering, Titanium, Titanium implant surfaces, Titanium implants, Toluidine, Trabecular, Trabecular bone, Trabecular bone surface, Trabecular bone volume, Trichrome stain, Wall thickness, Wound healing.
- Teeft :
- Academic press, Alizarin, Alkaline, Alkaline phosphatase, Alkaline phosphotase, Alveolar bone, Animal model, Barrier membranes, Beagle dogs, Biomaterials, Biomaterials taravel, Biomed mater, Biomedical applications, Body weight, Bone cells, Bone formation, Bone histomorphometry, Bone miner, Bone morphogenic proteins, Bone parameters, Bone surfaces, Bony structures, Bovine serum albumin, Chitin, Chitosan, Chitosan solution, Chitosan sponges, Collagen, Collagen membrane, Composite group, Composite groups, Deacetylation, Deacetylation degree, Dentistry, Ectopic bone formation, Fracture repair, Further studies, Growth factor, Growth factors, Higher view, Histological analysis, Histological sections, Histomorphometric analysis, Hsiung veterans, Immunohistochemical, Immunohistochemical staining, Implant, Implant dentistry, Implant insertion, Implant surfaces, Intrabony defects, Intrinsic osteoinduction mechanism, Molecular weight, Molecular weights, Negative control, Negative control group, Negative results, Oral maxillofac implants, Oral maxillofac surg, Osteoblast, Osteogenic proteins, Osteoinduction, Osteoinductive, Osteopontin, Osteoprogenitor cells, Periodontol, Phosphatase, Plain membrane, Platelet, Platelet adhesion, Plateletderived growth factor, Porous hydroxyapatite, Positive staining, Present study, Previous studies, Primary antibody, Protein adsorption, Pure titanium implant surfaces, Regeneration, Smart materials, Standard deviation, Subcutaneous area, Synthetic materials, Test groups, Test materials, Thick arrow, Thin arrow, Tissue engineering, Titanium, Titanium implant surfaces, Titanium implants, Toluidine, Trabecular, Trabecular bone, Trabecular bone surface, Trabecular bone volume, Trichrome stain, Wall thickness, Wound healing.
Abstract
Kung S, Devlin H, Fu E, Ho K‐Y, Liang S‐Y, Hsieh Y‐D. The osteoinductive effect of chitosan–collagen composites around pure titanium implant surfaces in rats. J Periodont Res 2011; 46: 126–133. © 2010 John Wiley & Sons A/S
Url:
DOI: 10.1111/j.1600-0765.2010.01322.x
Affiliations:
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albumin</term><term>Chitin</term><term>Chitosan</term><term>Chitosan solution</term><term>Chitosan sponges</term><term>Collagen</term><term>Collagen membrane</term><term>Composite group</term><term>Composite groups</term><term>Deacetylation</term><term>Deacetylation degree</term><term>Dentistry</term><term>Ectopic bone formation</term><term>Fracture repair</term><term>Further studies</term><term>Growth factor</term><term>Growth factors</term><term>Higher view</term><term>Histological analysis</term><term>Histological sections</term><term>Histomorphometric analysis</term><term>Hsiung veterans</term><term>Immunohistochemical</term><term>Immunohistochemical staining</term><term>Implant</term><term>Implant dentistry</term><term>Implant insertion</term><term>Implant surfaces</term><term>Intrabony defects</term><term>Intrinsic osteoinduction mechanism</term><term>Molecular weight</term><term>Molecular weights</term><term>Negative control</term><term>Negative control group</term><term>Negative results</term><term>Oral maxillofac implants</term><term>Oral maxillofac surg</term><term>Osteoblast</term><term>Osteogenic proteins</term><term>Osteoinduction</term><term>Osteoinductive</term><term>Osteopontin</term><term>Osteoprogenitor cells</term><term>Periodontol</term><term>Phosphatase</term><term>Plain membrane</term><term>Platelet</term><term>Platelet adhesion</term><term>Plateletderived growth factor</term><term>Porous hydroxyapatite</term><term>Positive staining</term><term>Present study</term><term>Previous studies</term><term>Primary antibody</term><term>Protein adsorption</term><term>Pure titanium implant surfaces</term><term>Regeneration</term><term>Smart materials</term><term>Standard deviation</term><term>Subcutaneous area</term><term>Synthetic materials</term><term>Test groups</term><term>Test materials</term><term>Thick arrow</term><term>Thin arrow</term><term>Tissue engineering</term><term>Titanium</term><term>Titanium implant surfaces</term><term>Titanium implants</term><term>Toluidine</term><term>Trabecular</term><term>Trabecular bone</term><term>Trabecular bone surface</term><term>Trabecular bone volume</term><term>Trichrome stain</term><term>Wall thickness</term><term>Wound healing</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Academic press</term><term>Alizarin</term><term>Alkaline</term><term>Alkaline phosphatase</term><term>Alkaline phosphotase</term><term>Alveolar bone</term><term>Animal model</term><term>Barrier membranes</term><term>Beagle dogs</term><term>Biomaterials</term><term>Biomaterials taravel</term><term>Biomed mater</term><term>Biomedical applications</term><term>Body weight</term><term>Bone cells</term><term>Bone formation</term><term>Bone histomorphometry</term><term>Bone miner</term><term>Bone morphogenic proteins</term><term>Bone parameters</term><term>Bone surfaces</term><term>Bony structures</term><term>Bovine serum albumin</term><term>Chitin</term><term>Chitosan</term><term>Chitosan solution</term><term>Chitosan sponges</term><term>Collagen</term><term>Collagen membrane</term><term>Composite group</term><term>Composite groups</term><term>Deacetylation</term><term>Deacetylation degree</term><term>Dentistry</term><term>Ectopic bone formation</term><term>Fracture repair</term><term>Further studies</term><term>Growth factor</term><term>Growth factors</term><term>Higher view</term><term>Histological analysis</term><term>Histological sections</term><term>Histomorphometric analysis</term><term>Hsiung veterans</term><term>Immunohistochemical</term><term>Immunohistochemical staining</term><term>Implant</term><term>Implant dentistry</term><term>Implant insertion</term><term>Implant surfaces</term><term>Intrabony defects</term><term>Intrinsic osteoinduction mechanism</term><term>Molecular weight</term><term>Molecular weights</term><term>Negative control</term><term>Negative control group</term><term>Negative results</term><term>Oral maxillofac implants</term><term>Oral maxillofac surg</term><term>Osteoblast</term><term>Osteogenic proteins</term><term>Osteoinduction</term><term>Osteoinductive</term><term>Osteopontin</term><term>Osteoprogenitor cells</term><term>Periodontol</term><term>Phosphatase</term><term>Plain membrane</term><term>Platelet</term><term>Platelet adhesion</term><term>Plateletderived growth factor</term><term>Porous hydroxyapatite</term><term>Positive staining</term><term>Present study</term><term>Previous studies</term><term>Primary antibody</term><term>Protein adsorption</term><term>Pure titanium implant surfaces</term><term>Regeneration</term><term>Smart materials</term><term>Standard deviation</term><term>Subcutaneous area</term><term>Synthetic materials</term><term>Test groups</term><term>Test materials</term><term>Thick arrow</term><term>Thin arrow</term><term>Tissue engineering</term><term>Titanium</term><term>Titanium implant surfaces</term><term>Titanium implants</term><term>Toluidine</term><term>Trabecular</term><term>Trabecular bone</term><term>Trabecular bone surface</term><term>Trabecular bone volume</term><term>Trichrome stain</term><term>Wall thickness</term><term>Wound healing</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Biomatériau</term><term>Titane</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">Kung S, Devlin H, Fu E, Ho K‐Y, Liang S‐Y, Hsieh Y‐D. The osteoinductive effect of chitosan–collagen composites around pure titanium implant surfaces in rats. J Periodont Res 2011; 46: 126–133. © 2010 John Wiley & Sons A/S</div></front></TEI><affiliations><list><country><li>Royaume-Uni</li><li>Taïwan</li></country><region><li>Angleterre</li><li>Grand Manchester</li></region><settlement><li>Manchester</li></settlement><orgName><li>Université de Manchester</li></orgName></list><tree><country name="Taïwan"><noRegion><name sortKey="Kung, S" sort="Kung, S" uniqKey="Kung S" first="S." last="Kung">S. Kung</name></noRegion><name sortKey="Fu, E" sort="Fu, E" uniqKey="Fu E" first="E." last="Fu">E. Fu</name><name sortKey="Fu, E" sort="Fu, E" uniqKey="Fu E" first="E." last="Fu">E. Fu</name><name sortKey="Ho, K" sort="Ho, K" uniqKey="Ho K" first="K." last="Ho">K. Ho</name><name sortKey="Hsieh, Y" sort="Hsieh, Y" uniqKey="Hsieh Y" first="Y." last="Hsieh">Y. Hsieh</name><name sortKey="Hsieh, Y" sort="Hsieh, Y" uniqKey="Hsieh Y" first="Y." last="Hsieh">Y. Hsieh</name><name sortKey="Kung, S" sort="Kung, S" uniqKey="Kung S" first="S." last="Kung">S. Kung</name><name sortKey="Liang, S" sort="Liang, S" uniqKey="Liang S" first="S." last="Liang">S. Liang</name><name sortKey="Liang, S" sort="Liang, S" uniqKey="Liang S" first="S." last="Liang">S. Liang</name></country><country name="Royaume-Uni"><region name="Angleterre"><name sortKey="Devlin, H" sort="Devlin, H" uniqKey="Devlin H" first="H." last="Devlin">H. Devlin</name></region></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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