Immediate Functional Loading of Single‐Tooth TiO2 Grit‐Blasted Implant Restoration. A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry
Identifieur interne : 002B41 ( Istex/Corpus ); précédent : 002B40; suivant : 002B42Immediate Functional Loading of Single‐Tooth TiO2 Grit‐Blasted Implant Restoration. A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry
Auteurs : Vasilios A. Bousdras ; Frank Walboomers ; John A. Jansen ; James L. Cunningham ; Gordon Blunn ; Aviva Petrie ; Siegfried Jaecques ; Ignace E. Naert ; Steen Sindet-Pedersen ; Allen E. GoodshipSource :
- Clinical Implant Dentistry and Related Research [ 1523-0899 ] ; 2007-12.
English descriptors
- KwdEn :
- Abutment, Astra, Astra tech, Biomechanical etiology, Biomed mater, Bone loss, Bone mass, Bone reactions, Bone response, Clin, Clinical implant dentistry, Connective tissue, Crestal, Crestal bone loss, Cylindrical part, Dense bone, Dental implants, Dentistry, Different masticatory loading environments, Early loading, Epithelial, Epithelial downgrowth ratio, Experimental study, Formalin saline, Hard diet, Hard food, Healing abutment, Histological, Histological evaluation, Histological sections, Histomorphometrical variables, Host bone, Immediate loading, Immediate occlusal loading, Implant, Implant macrothreads, Implant surface, Ingrowth, Insertion torque, Loading, Macrothreads, Mandibular canal, Masticatory, Median, Median crestal bone loss values, Microthread, Nonocclusal, Nonsubmerged implants, Observation period, Occlusal, Occlusal contact, Occlusal crowns, Occlusal implants, Occlusal loading, Oral cavity, Oral maxillofac implants, Osseointegrated implants, Osseointegration, Porcine model, Premolar, Premolar sites, Present study, Progressive increase, Prospective study, Prosthet dent, Radboud university nijmegen, Reference point, Single implant restorations, Single implants, Soft tissue ingrowth ratio, Statistical analysis, Third premolar, Thread bone mass, Titanium implants, Triangular areas, Vander sloten, Whole implant length, Zebra.
- Teeft :
- Abutment, Astra, Astra tech, Biomechanical etiology, Biomed mater, Bone loss, Bone mass, Bone reactions, Bone response, Clin, Clinical implant dentistry, Connective tissue, Crestal, Crestal bone loss, Cylindrical part, Dense bone, Dental implants, Dentistry, Different masticatory loading environments, Early loading, Epithelial, Epithelial downgrowth ratio, Experimental study, Formalin saline, Hard diet, Hard food, Healing abutment, Histological, Histological evaluation, Histological sections, Histomorphometrical variables, Host bone, Immediate loading, Immediate occlusal loading, Implant, Implant macrothreads, Implant surface, Ingrowth, Insertion torque, Loading, Macrothreads, Mandibular canal, Masticatory, Median, Median crestal bone loss values, Microthread, Nonocclusal, Nonsubmerged implants, Observation period, Occlusal, Occlusal contact, Occlusal crowns, Occlusal implants, Occlusal loading, Oral cavity, Oral maxillofac implants, Osseointegrated implants, Osseointegration, Porcine model, Premolar, Premolar sites, Present study, Progressive increase, Prospective study, Prosthet dent, Radboud university nijmegen, Reference point, Single implant restorations, Single implants, Soft tissue ingrowth ratio, Statistical analysis, Third premolar, Thread bone mass, Titanium implants, Triangular areas, Vander sloten, Whole implant length, Zebra.
Abstract
Background: Evidently, there is a fast‐moving shift from delayed to immediate implant loading. The hypothesis to be tested was that bone reactions adjacent to single TiO2‐microthreaded implants exposed to immediate masticatory loading for 10 weeks after placement would modulate osseointegration.
Url:
DOI: 10.1111/j.1708-8208.2007.00039.x
Links to Exploration step
ISTEX:5831E33A7D945908AB9E27D1F02E7EB95BB37B87Le document en format XML
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A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry</title><author><name sortKey="Bousdras, Vasilios A" sort="Bousdras, Vasilios A" uniqKey="Bousdras V" first="Vasilios A." last="Bousdras">Vasilios A. Bousdras</name><affiliation><mods:affiliation>University College London (UCL) Eastman Dental Institute, London, UK;</mods:affiliation></affiliation><affiliation><mods:affiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</mods:affiliation></affiliation><affiliation><mods:affiliation>Royal Veterinary College, University of London, Herts, UK;</mods:affiliation></affiliation><affiliation><mods:affiliation>E-mail: V.Bousdras@eastman.ucl.ac.uk</mods:affiliation></affiliation></author><author><name sortKey="Walboomers, Frank" sort="Walboomers, Frank" uniqKey="Walboomers F" first="Frank" last="Walboomers">Frank Walboomers</name><affiliation><mods:affiliation>Department of Periodontology and Biomaterials, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands;</mods:affiliation></affiliation></author><author><name sortKey="Jansen, John A" sort="Jansen, John A" uniqKey="Jansen J" first="John A." last="Jansen">John A. Jansen</name><affiliation><mods:affiliation>Department of Periodontology and Biomaterials, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands;</mods:affiliation></affiliation></author><author><name sortKey="Cunningham, James L" sort="Cunningham, James L" uniqKey="Cunningham J" first="James L." last="Cunningham">James L. Cunningham</name><affiliation><mods:affiliation>Department of Mechanical Engineering, University of Bath, Bath, UK;</mods:affiliation></affiliation></author><author><name sortKey="Blunn, Gordon" sort="Blunn, Gordon" uniqKey="Blunn G" first="Gordon" last="Blunn">Gordon Blunn</name><affiliation><mods:affiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</mods:affiliation></affiliation></author><author><name sortKey="Petrie, Aviva" sort="Petrie, Aviva" uniqKey="Petrie A" first="Aviva" last="Petrie">Aviva Petrie</name><affiliation><mods:affiliation>Biostatistics Unit, UCL Eastman Dental Institute, London, UK;</mods:affiliation></affiliation></author><author><name sortKey="Jaecques, Siegfried" sort="Jaecques, Siegfried" uniqKey="Jaecques S" first="Siegfried" last="Jaecques">Siegfried Jaecques</name><affiliation><mods:affiliation>Division of Biomechanics and Engineering Design, Leuven, Belgium;</mods:affiliation></affiliation></author><author><name sortKey="Naert, Ignace E" sort="Naert, Ignace E" uniqKey="Naert I" first="Ignace E." last="Naert">Ignace E. Naert</name><affiliation><mods:affiliation>Department of Prosthetic Dentistry, BIOMAT Research Group, Catholic University of Leuven (K.U. Leuven), Leuven, Belgium</mods:affiliation></affiliation></author><author><name sortKey="Sindet Edersen, Steen" sort="Sindet Edersen, Steen" uniqKey="Sindet Edersen S" first="Steen" last="Sindet-Pedersen">Steen Sindet-Pedersen</name><affiliation><mods:affiliation>University College London (UCL) Eastman Dental Institute, London, UK;</mods:affiliation></affiliation></author><author><name sortKey="Goodship, Allen E" sort="Goodship, Allen E" uniqKey="Goodship A" first="Allen E." last="Goodship">Allen E. Goodship</name><affiliation><mods:affiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</mods:affiliation></affiliation><affiliation><mods:affiliation>Royal Veterinary College, University of London, Herts, UK;</mods:affiliation></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Clinical Implant Dentistry and Related Research</title><title level="j" type="alt">CLINICAL IMPLANT DENTISTRY RELATED RESEARCH</title><idno type="ISSN">1523-0899</idno><idno type="eISSN">1708-8208</idno><imprint><biblScope unit="vol">9</biblScope><biblScope unit="issue">4</biblScope><biblScope unit="page" from="207">207</biblScope><biblScope unit="page" to="216">216</biblScope><biblScope unit="page-count">10</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2007-12">2007-12</date></imprint><idno type="ISSN">1523-0899</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">1523-0899</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Abutment</term><term>Astra</term><term>Astra tech</term><term>Biomechanical etiology</term><term>Biomed mater</term><term>Bone loss</term><term>Bone mass</term><term>Bone reactions</term><term>Bone response</term><term>Clin</term><term>Clinical implant dentistry</term><term>Connective tissue</term><term>Crestal</term><term>Crestal bone loss</term><term>Cylindrical part</term><term>Dense bone</term><term>Dental implants</term><term>Dentistry</term><term>Different masticatory loading environments</term><term>Early loading</term><term>Epithelial</term><term>Epithelial downgrowth ratio</term><term>Experimental study</term><term>Formalin saline</term><term>Hard diet</term><term>Hard food</term><term>Healing abutment</term><term>Histological</term><term>Histological evaluation</term><term>Histological sections</term><term>Histomorphometrical variables</term><term>Host bone</term><term>Immediate loading</term><term>Immediate occlusal loading</term><term>Implant</term><term>Implant macrothreads</term><term>Implant surface</term><term>Ingrowth</term><term>Insertion torque</term><term>Loading</term><term>Macrothreads</term><term>Mandibular canal</term><term>Masticatory</term><term>Median</term><term>Median crestal bone loss values</term><term>Microthread</term><term>Nonocclusal</term><term>Nonsubmerged implants</term><term>Observation period</term><term>Occlusal</term><term>Occlusal contact</term><term>Occlusal crowns</term><term>Occlusal implants</term><term>Occlusal loading</term><term>Oral cavity</term><term>Oral maxillofac implants</term><term>Osseointegrated implants</term><term>Osseointegration</term><term>Porcine model</term><term>Premolar</term><term>Premolar sites</term><term>Present study</term><term>Progressive increase</term><term>Prospective study</term><term>Prosthet dent</term><term>Radboud university nijmegen</term><term>Reference point</term><term>Single implant restorations</term><term>Single implants</term><term>Soft tissue ingrowth ratio</term><term>Statistical analysis</term><term>Third premolar</term><term>Thread bone mass</term><term>Titanium implants</term><term>Triangular areas</term><term>Vander sloten</term><term>Whole implant length</term><term>Zebra</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Abutment</term><term>Astra</term><term>Astra tech</term><term>Biomechanical etiology</term><term>Biomed mater</term><term>Bone loss</term><term>Bone mass</term><term>Bone reactions</term><term>Bone response</term><term>Clin</term><term>Clinical implant dentistry</term><term>Connective tissue</term><term>Crestal</term><term>Crestal bone loss</term><term>Cylindrical part</term><term>Dense bone</term><term>Dental implants</term><term>Dentistry</term><term>Different masticatory loading environments</term><term>Early loading</term><term>Epithelial</term><term>Epithelial downgrowth ratio</term><term>Experimental study</term><term>Formalin saline</term><term>Hard diet</term><term>Hard food</term><term>Healing abutment</term><term>Histological</term><term>Histological evaluation</term><term>Histological sections</term><term>Histomorphometrical variables</term><term>Host bone</term><term>Immediate loading</term><term>Immediate occlusal loading</term><term>Implant</term><term>Implant macrothreads</term><term>Implant surface</term><term>Ingrowth</term><term>Insertion torque</term><term>Loading</term><term>Macrothreads</term><term>Mandibular canal</term><term>Masticatory</term><term>Median</term><term>Median crestal bone loss values</term><term>Microthread</term><term>Nonocclusal</term><term>Nonsubmerged implants</term><term>Observation period</term><term>Occlusal</term><term>Occlusal contact</term><term>Occlusal crowns</term><term>Occlusal implants</term><term>Occlusal loading</term><term>Oral cavity</term><term>Oral maxillofac implants</term><term>Osseointegrated implants</term><term>Osseointegration</term><term>Porcine model</term><term>Premolar</term><term>Premolar sites</term><term>Present study</term><term>Progressive increase</term><term>Prospective study</term><term>Prosthet dent</term><term>Radboud university nijmegen</term><term>Reference point</term><term>Single implant restorations</term><term>Single implants</term><term>Soft tissue ingrowth ratio</term><term>Statistical analysis</term><term>Third premolar</term><term>Thread bone mass</term><term>Titanium implants</term><term>Triangular areas</term><term>Vander sloten</term><term>Whole implant length</term><term>Zebra</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">Background: Evidently, there is a fast‐moving shift from delayed to immediate implant loading. The hypothesis to be tested was that bone reactions adjacent to single TiO2‐microthreaded implants exposed to immediate masticatory loading for 10 weeks after placement would modulate osseointegration.</div></front></TEI><istex><corpusName>wiley</corpusName><keywords><teeft><json:string>implant</json:string><json:string>occlusal</json:string><json:string>clin</json:string><json:string>premolar</json:string><json:string>abutment</json:string><json:string>crestal</json:string><json:string>bone mass</json:string><json:string>masticatory</json:string><json:string>osseointegration</json:string><json:string>microthread</json:string><json:string>nonocclusal</json:string><json:string>macrothreads</json:string><json:string>histological</json:string><json:string>epithelial</json:string><json:string>bone loss</json:string><json:string>ingrowth</json:string><json:string>zebra</json:string><json:string>immediate loading</json:string><json:string>crestal bone loss</json:string><json:string>healing abutment</json:string><json:string>oral maxillofac implants</json:string><json:string>clinical implant dentistry</json:string><json:string>epithelial downgrowth ratio</json:string><json:string>dense bone</json:string><json:string>median</json:string><json:string>astra tech</json:string><json:string>whole implant length</json:string><json:string>implant macrothreads</json:string><json:string>occlusal loading</json:string><json:string>premolar sites</json:string><json:string>occlusal contact</json:string><json:string>single implant restorations</json:string><json:string>occlusal implants</json:string><json:string>dentistry</json:string><json:string>astra</json:string><json:string>porcine model</json:string><json:string>radboud university nijmegen</json:string><json:string>bone response</json:string><json:string>third premolar</json:string><json:string>triangular areas</json:string><json:string>occlusal crowns</json:string><json:string>osseointegrated implants</json:string><json:string>thread bone mass</json:string><json:string>dental implants</json:string><json:string>soft tissue ingrowth ratio</json:string><json:string>experimental study</json:string><json:string>hard diet</json:string><json:string>different masticatory loading environments</json:string><json:string>formalin saline</json:string><json:string>host bone</json:string><json:string>observation period</json:string><json:string>immediate occlusal loading</json:string><json:string>titanium implants</json:string><json:string>cylindrical part</json:string><json:string>implant surface</json:string><json:string>bone reactions</json:string><json:string>connective tissue</json:string><json:string>oral cavity</json:string><json:string>present study</json:string><json:string>histomorphometrical variables</json:string><json:string>median crestal bone loss values</json:string><json:string>hard food</json:string><json:string>biomechanical etiology</json:string><json:string>insertion torque</json:string><json:string>reference point</json:string><json:string>histological sections</json:string><json:string>mandibular canal</json:string><json:string>single implants</json:string><json:string>nonsubmerged implants</json:string><json:string>prosthet dent</json:string><json:string>statistical analysis</json:string><json:string>vander sloten</json:string><json:string>progressive increase</json:string><json:string>biomed mater</json:string><json:string>prospective study</json:string><json:string>early loading</json:string><json:string>histological evaluation</json:string><json:string>loading</json:string></teeft></keywords><author><json:item><name>Vasilios A. Bousdras DDS, MSc, PhD</name><affiliations><json:string>University College London (UCL) Eastman Dental Institute, London, UK;</json:string><json:string>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</json:string><json:string>Royal Veterinary College, University of London, Herts, UK;</json:string><json:string>E-mail: V.Bousdras@eastman.ucl.ac.uk</json:string></affiliations></json:item><json:item><name>Frank Walboomers PhD</name><affiliations><json:string>Department of Periodontology and Biomaterials, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands;</json:string></affiliations></json:item><json:item><name>John A. Jansen DDS PhD</name><affiliations><json:string>Department of Periodontology and Biomaterials, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands;</json:string></affiliations></json:item><json:item><name>James L. Cunningham PhD</name><affiliations><json:string>Department of Mechanical Engineering, University of Bath, Bath, UK;</json:string></affiliations></json:item><json:item><name>Gordon Blunn BSc, PhD</name><affiliations><json:string>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</json:string></affiliations></json:item><json:item><name>Aviva Petrie BSc, CStat</name><affiliations><json:string>Biostatistics Unit, UCL Eastman Dental Institute, London, UK;</json:string></affiliations></json:item><json:item><name>Siegfried Jaecques PhD</name><affiliations><json:string>Division of Biomechanics and Engineering Design, Leuven, Belgium;</json:string></affiliations></json:item><json:item><name>Ignace E. Naert DDS, PhD</name><affiliations><json:string>Department of Prosthetic Dentistry, BIOMAT Research Group, Catholic University of Leuven (K.U. Leuven), Leuven, Belgium</json:string></affiliations></json:item><json:item><name>Steen Sindet‐Pedersen DDS, DrMedSci</name><affiliations><json:string>University College London (UCL) Eastman Dental Institute, London, UK;</json:string></affiliations></json:item><json:item><name>Allen E. Goodship DVS, MRCVS, PhD</name><affiliations><json:string>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</json:string><json:string>Royal Veterinary College, University of London, Herts, UK;</json:string></affiliations></json:item></author><subject><json:item><lang><json:string>eng</json:string></lang><value>adaptation</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>bone‐implant interface</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>immediate loading</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>masticatory loads</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>single dental implant</value></json:item></subject><articleId><json:string>CID039</json:string></articleId><arkIstex>ark:/67375/WNG-W29ZKL5K-J</arkIstex><language><json:string>eng</json:string></language><originalGenre><json:string>article</json:string></originalGenre><abstract>Background: Evidently, there is a fast‐moving shift from delayed to immediate implant loading. The hypothesis to be tested was that bone reactions adjacent to single TiO2‐microthreaded implants exposed to immediate masticatory loading for 10 weeks after placement would modulate osseointegration.</abstract><qualityIndicators><score>6.589</score><pdfWordCount>4109</pdfWordCount><pdfCharCount>28169</pdfCharCount><pdfVersion>1.4</pdfVersion><pdfPageCount>10</pdfPageCount><pdfPageSize>585 x 783 pts</pdfPageSize><refBibsNative>true</refBibsNative><abstractWordCount>40</abstractWordCount><abstractCharCount>297</abstractCharCount><keywordCount>5</keywordCount></qualityIndicators><title>Immediate Functional Loading of Single‐Tooth TiO2 Grit‐Blasted Implant Restoration. A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry</title><pmid><json:string>18031442</json:string></pmid><genre><json:string>article</json:string></genre><host><title>Clinical Implant Dentistry and Related Research</title><language><json:string>unknown</json:string></language><doi><json:string>10.1111/(ISSN)1708-8208</json:string></doi><issn><json:string>1523-0899</json:string></issn><eissn><json:string>1708-8208</json:string></eissn><publisherId><json:string>CID</json:string></publisherId><volume>9</volume><issue>4</issue><pages><first>207</first><last>216</last><total>10</total></pages><genre><json:string>journal</json:string></genre></host><namedEntities><unitex><date><json:string>2007</json:string></date><geogName></geogName><orgName><json:string>Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK</json:string><json:string>Radboud University</json:string><json:string>SPSS Inc., Chicago</json:string><json:string>Related Research, Volume</json:string><json:string>Institute of Orthopaedics and Musculoskeletal Science</json:string><json:string>Belgium Reprint</json:string><json:string>Department of Periodontology and Biomaterials</json:string><json:string>Department of Prosthetic Dentistry, BIOMAT Research Group, Catholic University of Leuven</json:string><json:string>Local Research Ethical Committee</json:string><json:string>Division of Biomechanics</json:string><json:string>Eastman Dental Institute, London, UK</json:string><json:string>UK, WC</json:string><json:string>Department of Mechanical Engineering, University of Bath, Bath, UK</json:string><json:string>University of London</json:string></orgName><orgName_funder></orgName_funder><orgName_provider></orgName_provider><persName><json:string>John A. 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A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry</title></titleStmt><publicationStmt><authority>ISTEX</authority><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2007-12"></date></publicationStmt><notesStmt><note type="content-type" subtype="article" source="article" scheme="https://content-type.data.istex.fr/ark:/67375/XTP-6N5SZHKN-D">article</note><note type="publication-type" subtype="journal" scheme="https://publication-type.data.istex.fr/ark:/67375/JMC-0GLKJH51-B">journal</note></notesStmt><sourceDesc><biblStruct type="article"><analytic><title level="a" type="main">Immediate Functional Loading of Single‐Tooth TiO<hi rend="subscript">2</hi> Grit‐Blasted Implant Restoration. A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry</title><title level="a" type="short">Occlusal Loading of Single Implant Restorations</title><author xml:id="author-0000" role="corresp"><persName><forename type="first">Vasilios A.</forename><surname>Bousdras</surname><roleName type="degree">DDS, MSc, PhD</roleName></persName><affiliation>University College London (UCL) Eastman Dental Institute, London, UK;<address><country key="GB"></country></address></affiliation><affiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</affiliation><affiliation>Royal Veterinary College, University of London, Herts, UK;</affiliation><affiliation>Dr. Vasilios Bousdras, Oral and Maxillofacial Surgery Unit, UCL Eastman Dental Institute, 256 Gray’s In Road, London, UK, WC1X 8LD; e‐mail: V.Bousdras@eastman.ucl.ac.uk</affiliation></author><author xml:id="author-0001"><persName><forename type="first">Frank</forename><surname>Walboomers</surname><roleName type="degree">PhD</roleName></persName><affiliation>Department of Periodontology and Biomaterials, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands;<address><country key="NL"></country></address></affiliation></author><author xml:id="author-0002"><persName><forename type="first">John A.</forename><surname>Jansen</surname><roleName type="degree">DDS PhD</roleName></persName><affiliation>Department of Periodontology and Biomaterials, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands;<address><country key="NL"></country></address></affiliation></author><author xml:id="author-0003"><persName><forename type="first">James L.</forename><surname>Cunningham</surname><roleName type="degree">PhD</roleName></persName><affiliation>Department of Mechanical Engineering, University of Bath, Bath, UK;</affiliation></author><author xml:id="author-0004"><persName><forename type="first">Gordon</forename><surname>Blunn</surname><roleName type="degree">BSc, PhD</roleName></persName><affiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</affiliation></author><author xml:id="author-0005"><persName><forename type="first">Aviva</forename><surname>Petrie</surname><roleName type="degree">BSc, CStat</roleName></persName><affiliation>Biostatistics Unit, UCL Eastman Dental Institute, London, UK;<address><country key="GB"></country></address></affiliation></author><author xml:id="author-0006"><persName><forename type="first">Siegfried</forename><surname>Jaecques</surname><roleName type="degree">PhD</roleName></persName><affiliation>Division of Biomechanics and Engineering Design, Leuven, Belgium;<address><country key="BE"></country></address></affiliation></author><author xml:id="author-0007"><persName><forename type="first">Ignace E.</forename><surname>Naert</surname><roleName type="degree">DDS, PhD</roleName></persName><affiliation>Department of Prosthetic Dentistry, BIOMAT Research Group, Catholic University of Leuven (K.U. Leuven), Leuven, Belgium<address><country key="BE"></country></address></affiliation></author><author xml:id="author-0008"><persName><forename type="first">Steen</forename><surname>Sindet‐Pedersen</surname><roleName type="degree">DDS, DrMedSci</roleName></persName><affiliation>University College London (UCL) Eastman Dental Institute, London, UK;<address><country key="GB"></country></address></affiliation></author><author xml:id="author-0009"><persName><forename type="first">Allen E.</forename><surname>Goodship</surname><roleName type="degree">DVS, MRCVS, PhD</roleName></persName><affiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</affiliation><affiliation>Royal Veterinary College, University of London, Herts, UK;</affiliation></author><idno type="istex">5831E33A7D945908AB9E27D1F02E7EB95BB37B87</idno><idno type="ark">ark:/67375/WNG-W29ZKL5K-J</idno><idno type="DOI">10.1111/j.1708-8208.2007.00039.x</idno><idno type="unit">CID039</idno><idno type="toTypesetVersion">file:CID.CID039.pdf</idno></analytic><monogr><title level="j" type="main">Clinical Implant Dentistry and Related Research</title><title level="j" type="alt">CLINICAL IMPLANT DENTISTRY RELATED RESEARCH</title><idno type="pISSN">1523-0899</idno><idno type="eISSN">1708-8208</idno><idno type="book-DOI">10.1111/(ISSN)1708-8208</idno><idno type="book-part-DOI">10.1111/cid.2007.9.issue-4</idno><idno type="product">CID</idno><idno type="publisherDivision">ST</idno><imprint><biblScope unit="vol">9</biblScope><biblScope unit="issue">4</biblScope><biblScope unit="page" from="207">207</biblScope><biblScope unit="page" to="216">216</biblScope><biblScope unit="page-count">10</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2007-12"></date></imprint></monogr></biblStruct></sourceDesc></fileDesc><profileDesc><abstract xml:lang="en" style="main"><head>ABSTRACT</head><p><hi rend="bold">Background: </hi> Evidently, there is a fast‐moving shift from delayed to immediate implant loading. The hypothesis to be tested was that bone reactions adjacent to single TiO<hi rend="subscript">2</hi>‐microthreaded implants exposed to immediate masticatory loading for 10 weeks after placement would modulate osseointegration.</p><p><hi rend="bold">Materials and Methods: </hi> Cylindrical‐ and tapered‐designed implants (Astra Tech AB, Mölndal, Sweden) replaced first and third mandibular premolars respectively in 12 pigs. The animals were allocated into two groups based on soft and hard diet feeding. Each animal received, at random positions, four different masticatory loading conditions: implant with either (1) a cover screw only, (2) a healing abutment, (3) an implant with a crown without occlusal contact, or (4) an implant with a crown in contact with the antagonistic teeth.</p><p><hi rend="bold">Results: </hi> Histomorphometry showed that there were no statistically significant differences in bone‐implant contact (BIC), bone mass inside/outside of the threads and soft tissue ingrowth ratio for all the implants at 10 weeks after placement irrespective of masticatory loading condition. Bone loss showed a trend of progressive increase for implants with a healing abutment toward implants with occlusal contact.</p><p><hi rend="bold">Conclusions: </hi> The results of this study rejected the hypothesis and could be explained by the fact that grit‐blasted acid‐etched implants were already placed in dense bone.</p></abstract><textClass><keywords xml:lang="en"><term xml:id="k1">adaptation</term><term xml:id="k2">bone‐implant interface</term><term xml:id="k3">immediate loading</term><term xml:id="k4">masticatory loads</term><term xml:id="k5">single dental implant</term></keywords><keywords rend="tocHeading1"><term>ARTICLES</term></keywords></textClass><langUsage><language ident="en"></language></langUsage></profileDesc></teiHeader></istex:fulltextTEI><json:item><extension>txt</extension><original>false</original><mimetype>text/plain</mimetype><uri>https://api.istex.fr/document/5831E33A7D945908AB9E27D1F02E7EB95BB37B87/fulltext/txt</uri></json:item></fulltext><metadata><istex:metadataXml wicri:clean="Wiley, elements deleted: body"><istex:xmlDeclaration>version="1.0" encoding="UTF-8" standalone="yes"</istex:xmlDeclaration><istex:document><component version="2.0" type="serialArticle" xml:lang="en"><header><publicationMeta level="product"><publisherInfo><publisherName>Blackwell Publishing Ltd</publisherName><publisherLoc>Oxford, UK</publisherLoc></publisherInfo><doi origin="wiley" registered="yes">10.1111/(ISSN)1708-8208</doi><issn type="print">1523-0899</issn><issn type="electronic">1708-8208</issn><idGroup><id type="product" value="CID"></id><id type="publisherDivision" value="ST"></id></idGroup><titleGroup><title type="main" sort="CLINICAL IMPLANT DENTISTRY RELATED RESEARCH">Clinical Implant Dentistry and Related Research</title></titleGroup></publicationMeta><publicationMeta level="part" position="12004"><doi origin="wiley">10.1111/cid.2007.9.issue-4</doi><numberingGroup><numbering type="journalVolume" number="9">9</numbering><numbering type="journalIssue" number="4">4</numbering></numberingGroup><coverDate startDate="2007-12">December 2007</coverDate></publicationMeta><publicationMeta level="unit" type="article" position="4" status="forIssue"><doi origin="wiley">10.1111/j.1708-8208.2007.00039.x</doi><idGroup><id type="unit" value="CID039"></id></idGroup><countGroup><count type="pageTotal" number="10"></count></countGroup><titleGroup><title type="tocHeading1">ARTICLES</title></titleGroup><eventGroup><event type="firstOnline" date="2007-11-20"></event><event type="publishedOnlineFinalForm" date="2007-11-20"></event><event type="xmlConverted" agent="Converter:BPG_TO_WML3G version:2.3.2 mode:FullText source:FullText result:FullText" date="2010-03-13"></event><event type="xmlConverted" agent="Converter:WILEY_ML3G_TO_WILEY_ML3GV2 version:3.8.8" date="2014-01-15"></event><event type="xmlConverted" agent="Converter:WML3G_To_WML3G version:4.1.7 mode:FullText,remove_FC" date="2014-10-16"></event></eventGroup><numberingGroup><numbering type="pageFirst" number="207">207</numbering><numbering type="pageLast" number="216">216</numbering></numberingGroup><correspondenceTo>Dr. Vasilios Bousdras, Oral and Maxillofacial Surgery Unit, UCL Eastman Dental Institute, 256 Gray’s In Road, London, UK, WC1X 8LD; e‐mail: <email>V.Bousdras@eastman.ucl.ac.uk</email></correspondenceTo><linkGroup><link type="toTypesetVersion" href="file:CID.CID039.pdf"></link></linkGroup></publicationMeta><contentMeta><countGroup><count type="figureTotal" number="6"></count><count type="tableTotal" number="3"></count><count type="formulaTotal" number="0"></count><count type="referenceTotal" number="33"></count><count type="wordTotal" number="4697"></count><count type="linksPubMed" number="0"></count><count type="linksCrossRef" number="0"></count></countGroup><titleGroup><title type="main">Immediate Functional Loading of Single‐Tooth TiO<sub>2</sub> Grit‐Blasted Implant Restoration. A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry</title><title type="shortAuthors">Clinical Implant Dentistry and Related Research, Volume 9, Number 4, 2007</title><title type="short">Occlusal Loading of Single Implant Restorations</title></titleGroup><creators><creator creatorRole="author" xml:id="cr1" affiliationRef="#a1 #a2 #a3" corresponding="yes"><personName><givenNames>Vasilios A.</givenNames><familyName>Bousdras</familyName><degrees>DDS, MSc, PhD</degrees></personName></creator><creator creatorRole="author" xml:id="cr2" affiliationRef="#a4"><personName><givenNames>Frank</givenNames><familyName>Walboomers</familyName><degrees>PhD</degrees></personName></creator><creator creatorRole="author" xml:id="cr3" affiliationRef="#a4"><personName><givenNames>John A.</givenNames><familyName>Jansen</familyName><degrees>DDS PhD</degrees></personName></creator><creator creatorRole="author" xml:id="cr4" affiliationRef="#a5"><personName><givenNames>James L.</givenNames><familyName>Cunningham</familyName><degrees>PhD</degrees></personName></creator><creator creatorRole="author" xml:id="cr5" affiliationRef="#a2"><personName><givenNames>Gordon</givenNames><familyName>Blunn</familyName><degrees>BSc, PhD</degrees></personName></creator><creator creatorRole="author" xml:id="cr6" affiliationRef="#a6"><personName><givenNames>Aviva</givenNames><familyName>Petrie</familyName><degrees>BSc, CStat</degrees></personName></creator><creator creatorRole="author" xml:id="cr7" affiliationRef="#a7"><personName><givenNames>Siegfried</givenNames><familyName>Jaecques</familyName><degrees>PhD</degrees></personName></creator><creator creatorRole="author" xml:id="cr8" affiliationRef="#a8"><personName><givenNames>Ignace E.</givenNames><familyName>Naert</familyName><degrees>DDS, PhD</degrees></personName></creator><creator creatorRole="author" xml:id="cr9" affiliationRef="#a1"><personName><givenNames>Steen</givenNames><familyName>Sindet‐Pedersen</familyName><degrees>DDS, DrMedSci</degrees></personName></creator><creator creatorRole="author" xml:id="cr10" affiliationRef="#a2 #a3"><personName><givenNames>Allen E.</givenNames><familyName>Goodship</familyName><degrees>DVS, MRCVS, PhD</degrees></personName></creator></creators><affiliationGroup><affiliation xml:id="a1" countryCode="GB"><unparsedAffiliation>University College London (UCL) Eastman Dental Institute, London, UK;</unparsedAffiliation></affiliation><affiliation xml:id="a2"><unparsedAffiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</unparsedAffiliation></affiliation><affiliation xml:id="a3"><unparsedAffiliation>Royal Veterinary College, University of London, Herts, UK;</unparsedAffiliation></affiliation><affiliation xml:id="a4" countryCode="NL"><unparsedAffiliation>Department of Periodontology and Biomaterials, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands;</unparsedAffiliation></affiliation><affiliation xml:id="a5"><unparsedAffiliation>Department of Mechanical Engineering, University of Bath, Bath, UK;</unparsedAffiliation></affiliation><affiliation xml:id="a6" countryCode="GB"><unparsedAffiliation>Biostatistics Unit, UCL Eastman Dental Institute, London, UK;</unparsedAffiliation></affiliation><affiliation xml:id="a7" countryCode="BE"><unparsedAffiliation>Division of Biomechanics and Engineering Design, Leuven, Belgium;</unparsedAffiliation></affiliation><affiliation xml:id="a8" countryCode="BE"><unparsedAffiliation>Department of Prosthetic Dentistry, BIOMAT Research Group, Catholic University of Leuven (K.U. Leuven), Leuven, Belgium</unparsedAffiliation></affiliation></affiliationGroup><keywordGroup xml:lang="en"><keyword xml:id="k1">adaptation</keyword><keyword xml:id="k2">bone‐implant interface</keyword><keyword xml:id="k3">immediate loading</keyword><keyword xml:id="k4">masticatory loads</keyword><keyword xml:id="k5">single dental implant</keyword></keywordGroup><abstractGroup><abstract type="main" xml:lang="en"><title type="main">ABSTRACT</title><p><b>Background: </b> Evidently, there is a fast‐moving shift from delayed to immediate implant loading. The hypothesis to be tested was that bone reactions adjacent to single TiO<sub>2</sub>‐microthreaded implants exposed to immediate masticatory loading for 10 weeks after placement would modulate osseointegration.</p><p><b>Materials and Methods: </b> Cylindrical‐ and tapered‐designed implants (Astra Tech AB, Mölndal, Sweden) replaced first and third mandibular premolars respectively in 12 pigs. The animals were allocated into two groups based on soft and hard diet feeding. Each animal received, at random positions, four different masticatory loading conditions: implant with either (1) a cover screw only, (2) a healing abutment, (3) an implant with a crown without occlusal contact, or (4) an implant with a crown in contact with the antagonistic teeth.</p><p><b>Results: </b> Histomorphometry showed that there were no statistically significant differences in bone‐implant contact (BIC), bone mass inside/outside of the threads and soft tissue ingrowth ratio for all the implants at 10 weeks after placement irrespective of masticatory loading condition. Bone loss showed a trend of progressive increase for implants with a healing abutment toward implants with occlusal contact.</p><p><b>Conclusions: </b> The results of this study rejected the hypothesis and could be explained by the fact that grit‐blasted acid‐etched implants were already placed in dense bone.</p></abstract></abstractGroup></contentMeta></header></component></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Immediate Functional Loading of Single‐Tooth TiO2 Grit‐Blasted Implant Restoration. A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry</title></titleInfo><titleInfo type="abbreviated" lang="en"><title>Occlusal Loading of Single Implant Restorations</title></titleInfo><titleInfo type="alternative" contentType="CDATA" lang="en"><title>Immediate Functional Loading of Single‐Tooth TiO2 Grit‐Blasted Implant Restoration. A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry</title></titleInfo><name type="personal"><namePart type="given">Vasilios A.</namePart><namePart type="family">Bousdras</namePart><namePart type="termsOfAddress">DDS, MSc, PhD</namePart><affiliation>University College London (UCL) Eastman Dental Institute, London, UK;</affiliation><affiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</affiliation><affiliation>Royal Veterinary College, University of London, Herts, UK;</affiliation><affiliation>E-mail: V.Bousdras@eastman.ucl.ac.uk</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Frank</namePart><namePart type="family">Walboomers</namePart><namePart type="termsOfAddress">PhD</namePart><affiliation>Department of Periodontology and Biomaterials, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">John A.</namePart><namePart type="family">Jansen</namePart><namePart type="termsOfAddress">DDS PhD</namePart><affiliation>Department of Periodontology and Biomaterials, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">James L.</namePart><namePart type="family">Cunningham</namePart><namePart type="termsOfAddress">PhD</namePart><affiliation>Department of Mechanical Engineering, University of Bath, Bath, UK;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Gordon</namePart><namePart type="family">Blunn</namePart><namePart type="termsOfAddress">BSc, PhD</namePart><affiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Aviva</namePart><namePart type="family">Petrie</namePart><namePart type="termsOfAddress">BSc, CStat</namePart><affiliation>Biostatistics Unit, UCL Eastman Dental Institute, London, UK;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Siegfried</namePart><namePart type="family">Jaecques</namePart><namePart type="termsOfAddress">PhD</namePart><affiliation>Division of Biomechanics and Engineering Design, Leuven, Belgium;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Ignace E.</namePart><namePart type="family">Naert</namePart><namePart type="termsOfAddress">DDS, PhD</namePart><affiliation>Department of Prosthetic Dentistry, BIOMAT Research Group, Catholic University of Leuven (K.U. Leuven), Leuven, Belgium</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Steen</namePart><namePart type="family">Sindet‐Pedersen</namePart><namePart type="termsOfAddress">DDS, DrMedSci</namePart><affiliation>University College London (UCL) Eastman Dental Institute, London, UK;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Allen E.</namePart><namePart type="family">Goodship</namePart><namePart type="termsOfAddress">DVS, MRCVS, PhD</namePart><affiliation>Institute of Orthopaedics and Musculoskeletal Science, UCL Stanmore Campus, The Royal National Orthopaedic Hospital NHS Trust, Middlesex, UK;</affiliation><affiliation>Royal Veterinary College, University of London, Herts, UK;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><typeOfResource>text</typeOfResource><genre type="article" displayLabel="article" authority="ISTEX" authorityURI="https://content-type.data.istex.fr" valueURI="https://content-type.data.istex.fr/ark:/67375/XTP-6N5SZHKN-D">article</genre><originInfo><publisher>Blackwell Publishing Ltd</publisher><place><placeTerm type="text">Oxford, UK</placeTerm></place><dateIssued encoding="w3cdtf">2007-12</dateIssued><copyrightDate encoding="w3cdtf">2007</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><physicalDescription><extent unit="figures">6</extent><extent unit="tables">3</extent><extent unit="formulas">0</extent><extent unit="references">33</extent><extent unit="linksCrossRef">0</extent><extent unit="words">4697</extent></physicalDescription><abstract>Background: Evidently, there is a fast‐moving shift from delayed to immediate implant loading. The hypothesis to be tested was that bone reactions adjacent to single TiO2‐microthreaded implants exposed to immediate masticatory loading for 10 weeks after placement would modulate osseointegration.</abstract><abstract>Materials and Methods: Cylindrical‐ and tapered‐designed implants (Astra Tech AB, Mölndal, Sweden) replaced first and third mandibular premolars respectively in 12 pigs. The animals were allocated into two groups based on soft and hard diet feeding. Each animal received, at random positions, four different masticatory loading conditions: implant with either (1) a cover screw only, (2) a healing abutment, (3) an implant with a crown without occlusal contact, or (4) an implant with a crown in contact with the antagonistic teeth.</abstract><abstract>Results: Histomorphometry showed that there were no statistically significant differences in bone‐implant contact (BIC), bone mass inside/outside of the threads and soft tissue ingrowth ratio for all the implants at 10 weeks after placement irrespective of masticatory loading condition. Bone loss showed a trend of progressive increase for implants with a healing abutment toward implants with occlusal contact.</abstract><abstract>Conclusions: The results of this study rejected the hypothesis and could be explained by the fact that grit‐blasted acid‐etched implants were already placed in dense bone.</abstract><subject lang="en"><genre>keywords</genre><topic>adaptation</topic><topic>bone‐implant interface</topic><topic>immediate loading</topic><topic>masticatory loads</topic><topic>single dental implant</topic></subject><relatedItem type="host"><titleInfo><title>Clinical Implant Dentistry and Related Research</title></titleInfo><genre type="journal" authority="ISTEX" authorityURI="https://publication-type.data.istex.fr" valueURI="https://publication-type.data.istex.fr/ark:/67375/JMC-0GLKJH51-B">journal</genre><identifier type="ISSN">1523-0899</identifier><identifier type="eISSN">1708-8208</identifier><identifier type="DOI">10.1111/(ISSN)1708-8208</identifier><identifier type="PublisherID">CID</identifier><part><date>2007</date><detail type="volume"><caption>vol.</caption><number>9</number></detail><detail type="issue"><caption>no.</caption><number>4</number></detail><extent unit="pages"><start>207</start><end>216</end><total>10</total></extent></part></relatedItem><identifier type="istex">5831E33A7D945908AB9E27D1F02E7EB95BB37B87</identifier><identifier type="ark">ark:/67375/WNG-W29ZKL5K-J</identifier><identifier type="DOI">10.1111/j.1708-8208.2007.00039.x</identifier><identifier type="ArticleID">CID039</identifier><recordInfo><recordContentSource authority="ISTEX" authorityURI="https://loaded-corpus.data.istex.fr" valueURI="https://loaded-corpus.data.istex.fr/ark:/67375/XBH-L0C46X92-X">wiley</recordContentSource><recordOrigin>Blackwell Publishing Ltd</recordOrigin></recordInfo></mods><json:item><extension>json</extension><original>false</original><mimetype>application/json</mimetype><uri>https://api.istex.fr/document/5831E33A7D945908AB9E27D1F02E7EB95BB37B87/metadata/json</uri></json:item></metadata><serie></serie></istex></record>Pour manipuler ce document sous Unix (Dilib)
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|texte= Immediate Functional Loading of Single‐Tooth TiO2 Grit‐Blasted Implant Restoration. A Controlled Prospective Study in a Porcine Model. Part II: Histology and Histomorphometry
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