Implant system for guiding a new layer of bone. Computed microtomography and histomorphometric analysis in the rabbit mandible
Identifieur interne : 005B57 ( Main/Exploration ); précédent : 005B56; suivant : 005B58Implant system for guiding a new layer of bone. Computed microtomography and histomorphometric analysis in the rabbit mandible
Auteurs : Martin Freilich [États-Unis] ; David Shafer [États-Unis] ; Mei Wei [États-Unis] ; Rajeswari Kompalli [États-Unis] ; Douglas Adams [États-Unis] ; Liisa Kuhn [États-Unis]Source :
- Clinical Oral Implants Research [ 0905-7161 ] ; 2009-02.
Descripteurs français
- Wicri :
- topic : Médecine dentaire, Titane.
English descriptors
- KwdEn :
- Allograft material, Alveolar distraction osteogenesis, Augmentation, Autogenous bone, Barrier membranes, Biomedical materials research, Bone, Bone formation, Bone growth, Bone regeneration, Bone volume, Buser, Canine mandible, Clin, Clinical periodontology, Cochran, Connecticut health center, Coronal aspect, Demineralized, Demineralized bone matrix, Dental implant, Dental medicine, Ectopic model, Edentulous patients, Experimental study, Freilich, Frontal plane, Frontal planes, Graft, Growth factors, Histology group, Histomorphometric, Histomorphometric analysis, Histomorphometric study, Horizontal plane, Impl, Implant, Implant dentistry, Implant surface, Implant surfaces, Implant system, Implants research, Institut straumann, International journal, Intraoral sites, John wiley sons, Johnson johnson company, Journal compilation, Lateral aspect, Mandible, Matrix, Matrix protein adhesion, Maxillofacial surgery, Mineralized tissue, Onlay graft, Oral impl, Orthopaedic surgery, Osteoconductive, Osteoconductive surface, Osteoconductive surface characteristics, Osteoinductive, Osteoinductive scaffold, Osteoinductive scaffold material, Periosteal vasculature, Posterior mandibular bone, Rabbit mandible, Rabbit model, Representative histologic sections, Sandblasted, Scaffold, Scaffold implants, Scaffold retention screw, Scaffold screw, Soft tissue, Subcutaneous tissue, Supracrestal, Supracrestal bone, Supracrestal bone formation, Supracrestal bone growth, Supracrestal bone height, Supracrestal bone heights, Supracrestal growth, Surgical, Surgical procedure, Surgical procedures, Systematic review, Titanium, Titanium implant surfaces, Titanium implants, Total volume, Vertical bone augmentation, Vertical bone growth, Vertical capacity, Vertical ridge augmentation, Zealand rabbits.
- Teeft :
- Allograft material, Alveolar distraction osteogenesis, Augmentation, Autogenous bone, Barrier membranes, Biomedical materials research, Bone, Bone formation, Bone growth, Bone regeneration, Bone volume, Buser, Canine mandible, Clin, Clinical periodontology, Cochran, Connecticut health center, Coronal aspect, Demineralized, Demineralized bone matrix, Dental implant, Dental medicine, Ectopic model, Edentulous patients, Experimental study, Freilich, Frontal plane, Frontal planes, Graft, Growth factors, Histology group, Histomorphometric, Histomorphometric analysis, Histomorphometric study, Horizontal plane, Impl, Implant, Implant dentistry, Implant surface, Implant surfaces, Implant system, Implants research, Institut straumann, International journal, Intraoral sites, John wiley sons, Johnson johnson company, Journal compilation, Lateral aspect, Mandible, Matrix, Matrix protein adhesion, Maxillofacial surgery, Mineralized tissue, Onlay graft, Oral impl, Orthopaedic surgery, Osteoconductive, Osteoconductive surface, Osteoconductive surface characteristics, Osteoinductive, Osteoinductive scaffold, Osteoinductive scaffold material, Periosteal vasculature, Posterior mandibular bone, Rabbit mandible, Rabbit model, Representative histologic sections, Sandblasted, Scaffold, Scaffold implants, Scaffold retention screw, Scaffold screw, Soft tissue, Subcutaneous tissue, Supracrestal, Supracrestal bone, Supracrestal bone formation, Supracrestal bone growth, Supracrestal bone height, Supracrestal bone heights, Supracrestal growth, Surgical, Surgical procedure, Surgical procedures, Systematic review, Titanium, Titanium implant surfaces, Titanium implants, Total volume, Vertical bone augmentation, Vertical bone growth, Vertical capacity, Vertical ridge augmentation, Zealand rabbits.
Abstract
Objective: To prove the concept that an implant system with osteoconductive surface characteristics and an osteoinductive scaffold material has the capacity to guide vertical supracrestal bone growth in a rabbit mandible onlay model.
Url:
DOI: 10.1111/j.1600-0501.2008.01615.x
Affiliations:
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type="state">Connecticut</region></placeName></affiliation></author><author><name sortKey="Wei, Mei" sort="Wei, Mei" uniqKey="Wei M" first="Mei" last="Wei">Mei Wei</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea>Materials Science and Engineering Program, Department of Chemical, Materials, and Biomolecular Engineering, University of Connecticut, Storrs, CT</wicri:regionArea><placeName><region type="state">Connecticut</region></placeName></affiliation></author><author><name sortKey="Kompalli, Rajeswari" sort="Kompalli, Rajeswari" uniqKey="Kompalli R" first="Rajeswari" last="Kompalli">Rajeswari Kompalli</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea>Materials Science and Engineering Program, Department of Chemical, Materials, and Biomolecular Engineering, University of Connecticut, Storrs, CT</wicri:regionArea><placeName><region type="state">Connecticut</region></placeName></affiliation></author><author><name sortKey="Adams, Douglas" sort="Adams, Douglas" uniqKey="Adams D" first="Douglas" last="Adams">Douglas Adams</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea>Department of Orthopaedic Surgery, School of Medicine, University of Connecticut, Farmington, CT</wicri:regionArea><placeName><region type="state">Connecticut</region></placeName></affiliation></author><author><name sortKey="Kuhn, Liisa" sort="Kuhn, Liisa" uniqKey="Kuhn L" first="Liisa" last="Kuhn">Liisa Kuhn</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea>Department of Reconstructive Sciences, Center for Regeneration Medicine and Skeletal Development, School of Dental Medicine, University of Connecticut, Farmington, CT</wicri:regionArea><placeName><region type="state">Connecticut</region></placeName></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Clinical Oral Implants Research</title><title level="j" type="alt">CLINICAL ORAL IMPLANTS RESEARCH</title><idno type="ISSN">0905-7161</idno><idno type="eISSN">1600-0501</idno><imprint><biblScope unit="vol">20</biblScope><biblScope unit="issue">2</biblScope><biblScope unit="page" from="201">201</biblScope><biblScope unit="page" to="207">207</biblScope><biblScope unit="page-count">7</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2009-02">2009-02</date></imprint><idno type="ISSN">0905-7161</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0905-7161</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Allograft material</term><term>Alveolar distraction osteogenesis</term><term>Augmentation</term><term>Autogenous bone</term><term>Barrier membranes</term><term>Biomedical materials research</term><term>Bone</term><term>Bone formation</term><term>Bone growth</term><term>Bone regeneration</term><term>Bone volume</term><term>Buser</term><term>Canine mandible</term><term>Clin</term><term>Clinical periodontology</term><term>Cochran</term><term>Connecticut health center</term><term>Coronal aspect</term><term>Demineralized</term><term>Demineralized bone matrix</term><term>Dental implant</term><term>Dental medicine</term><term>Ectopic model</term><term>Edentulous patients</term><term>Experimental study</term><term>Freilich</term><term>Frontal plane</term><term>Frontal planes</term><term>Graft</term><term>Growth factors</term><term>Histology group</term><term>Histomorphometric</term><term>Histomorphometric analysis</term><term>Histomorphometric study</term><term>Horizontal plane</term><term>Impl</term><term>Implant</term><term>Implant dentistry</term><term>Implant surface</term><term>Implant surfaces</term><term>Implant system</term><term>Implants research</term><term>Institut straumann</term><term>International journal</term><term>Intraoral sites</term><term>John wiley sons</term><term>Johnson johnson company</term><term>Journal compilation</term><term>Lateral aspect</term><term>Mandible</term><term>Matrix</term><term>Matrix protein adhesion</term><term>Maxillofacial surgery</term><term>Mineralized tissue</term><term>Onlay graft</term><term>Oral impl</term><term>Orthopaedic surgery</term><term>Osteoconductive</term><term>Osteoconductive surface</term><term>Osteoconductive surface characteristics</term><term>Osteoinductive</term><term>Osteoinductive scaffold</term><term>Osteoinductive scaffold material</term><term>Periosteal vasculature</term><term>Posterior mandibular bone</term><term>Rabbit mandible</term><term>Rabbit model</term><term>Representative histologic sections</term><term>Sandblasted</term><term>Scaffold</term><term>Scaffold implants</term><term>Scaffold retention screw</term><term>Scaffold screw</term><term>Soft tissue</term><term>Subcutaneous tissue</term><term>Supracrestal</term><term>Supracrestal bone</term><term>Supracrestal bone formation</term><term>Supracrestal bone growth</term><term>Supracrestal bone height</term><term>Supracrestal bone heights</term><term>Supracrestal growth</term><term>Surgical</term><term>Surgical procedure</term><term>Surgical procedures</term><term>Systematic review</term><term>Titanium</term><term>Titanium implant surfaces</term><term>Titanium implants</term><term>Total volume</term><term>Vertical bone augmentation</term><term>Vertical bone growth</term><term>Vertical capacity</term><term>Vertical ridge augmentation</term><term>Zealand rabbits</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Allograft material</term><term>Alveolar distraction osteogenesis</term><term>Augmentation</term><term>Autogenous bone</term><term>Barrier membranes</term><term>Biomedical materials research</term><term>Bone</term><term>Bone formation</term><term>Bone growth</term><term>Bone regeneration</term><term>Bone volume</term><term>Buser</term><term>Canine mandible</term><term>Clin</term><term>Clinical periodontology</term><term>Cochran</term><term>Connecticut health center</term><term>Coronal aspect</term><term>Demineralized</term><term>Demineralized bone matrix</term><term>Dental implant</term><term>Dental medicine</term><term>Ectopic model</term><term>Edentulous patients</term><term>Experimental study</term><term>Freilich</term><term>Frontal plane</term><term>Frontal planes</term><term>Graft</term><term>Growth factors</term><term>Histology group</term><term>Histomorphometric</term><term>Histomorphometric analysis</term><term>Histomorphometric study</term><term>Horizontal plane</term><term>Impl</term><term>Implant</term><term>Implant dentistry</term><term>Implant surface</term><term>Implant surfaces</term><term>Implant system</term><term>Implants research</term><term>Institut straumann</term><term>International journal</term><term>Intraoral sites</term><term>John wiley sons</term><term>Johnson johnson company</term><term>Journal compilation</term><term>Lateral aspect</term><term>Mandible</term><term>Matrix</term><term>Matrix protein adhesion</term><term>Maxillofacial surgery</term><term>Mineralized tissue</term><term>Onlay graft</term><term>Oral impl</term><term>Orthopaedic surgery</term><term>Osteoconductive</term><term>Osteoconductive surface</term><term>Osteoconductive surface characteristics</term><term>Osteoinductive</term><term>Osteoinductive scaffold</term><term>Osteoinductive scaffold material</term><term>Periosteal vasculature</term><term>Posterior mandibular bone</term><term>Rabbit mandible</term><term>Rabbit model</term><term>Representative histologic sections</term><term>Sandblasted</term><term>Scaffold</term><term>Scaffold implants</term><term>Scaffold retention screw</term><term>Scaffold screw</term><term>Soft tissue</term><term>Subcutaneous tissue</term><term>Supracrestal</term><term>Supracrestal bone</term><term>Supracrestal bone formation</term><term>Supracrestal bone growth</term><term>Supracrestal bone height</term><term>Supracrestal bone heights</term><term>Supracrestal growth</term><term>Surgical</term><term>Surgical procedure</term><term>Surgical procedures</term><term>Systematic review</term><term>Titanium</term><term>Titanium implant surfaces</term><term>Titanium implants</term><term>Total volume</term><term>Vertical bone augmentation</term><term>Vertical bone growth</term><term>Vertical capacity</term><term>Vertical ridge augmentation</term><term>Zealand rabbits</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Médecine dentaire</term><term>Titane</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">Objective: To prove the concept that an implant system with osteoconductive surface characteristics and an osteoinductive scaffold material has the capacity to guide vertical supracrestal bone growth in a rabbit mandible onlay model.</div></front></TEI><affiliations><list><country><li>États-Unis</li></country><region><li>Connecticut</li></region></list><tree><country name="États-Unis"><region name="Connecticut"><name sortKey="Freilich, Martin" sort="Freilich, Martin" uniqKey="Freilich M" first="Martin" last="Freilich">Martin Freilich</name></region><name sortKey="Adams, Douglas" sort="Adams, Douglas" uniqKey="Adams D" first="Douglas" last="Adams">Douglas Adams</name><name sortKey="Kompalli, Rajeswari" sort="Kompalli, Rajeswari" uniqKey="Kompalli R" first="Rajeswari" last="Kompalli">Rajeswari Kompalli</name><name sortKey="Kuhn, Liisa" sort="Kuhn, Liisa" uniqKey="Kuhn L" first="Liisa" last="Kuhn">Liisa Kuhn</name><name sortKey="Shafer, David" sort="Shafer, David" uniqKey="Shafer D" first="David" last="Shafer">David Shafer</name><name sortKey="Wei, Mei" sort="Wei, Mei" uniqKey="Wei M" first="Mei" 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