Factors influencing resonance frequency analysis assessed by Osstell™mentor during implant tissue integration: I. Instrument positioning, bone structure, implant length
Identifieur interne : 001726 ( Istex/Corpus ); précédent : 001725; suivant : 001727Factors influencing resonance frequency analysis assessed by Osstell™mentor during implant tissue integration: I. Instrument positioning, bone structure, implant length
Auteurs : Christina P. C. Sim ; Niklaus P. LangSource :
- Clinical Oral Implants Research [ 0905-7161 ] ; 2010-06.
English descriptors
- KwdEn :
- Abrahamsson, Abutment, Bone density, Bone structure, Bone structures, Bone type, Buccal, Clin, Clinical dentistry, Clinical implant stability, Dentistry, Entire healing period, Error bars, Healing phase, Hong kong, Impl, Implant, Implant installation, Implant length, Implant placement, Implant stability, Implant stability quotient, Implant surface, Implant tissue integration, Implants research, John wiley sons, Lang, Lekholm, Lekholm zarb, Observation points, Occlusal, Oral impl, Osseointegration, Osstellt, Osstellt device, Osstelltmentor, Osstelltmentor device, Osstelltmentor probe, Present study, Quintessence publishing, Quotient, Resonance frequency analysis, Resonance frequency measurements, Sennerby, Standard deviation, Straumann, Time point, Various bone structures, Zarb.
- Teeft :
- Abrahamsson, Abutment, Bone density, Bone structure, Bone structures, Bone type, Buccal, Clin, Clinical dentistry, Clinical implant stability, Dentistry, Entire healing period, Error bars, Healing phase, Hong kong, Impl, Implant, Implant installation, Implant length, Implant placement, Implant stability, Implant stability quotient, Implant surface, Implant tissue integration, Implants research, John wiley sons, Lang, Lekholm, Lekholm zarb, Observation points, Occlusal, Oral impl, Osseointegration, Osstellt, Osstellt device, Osstelltmentor, Osstelltmentor device, Osstelltmentor probe, Present study, Quintessence publishing, Quotient, Resonance frequency analysis, Resonance frequency measurements, Sennerby, Standard deviation, Straumann, Time point, Various bone structures, Zarb.
Abstract
Aim: To monitor longitudinally the development of implant stability of SLA Straumann® tissue‐level implants using resonance frequency analysis (RFA) and to determine the influence of instrument positioning, bone structure and implant length on the assessment of RFA.
Url:
DOI: 10.1111/j.1600-0501.2009.01878.x
Links to Exploration step
ISTEX:2F833E9B6435A4304FC5B2EBCE27A8A56443ED51Le document en format XML
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Instrument positioning, bone structure, implant length</title><pmid><json:string>20666786</json:string></pmid><genre><json:string>article</json:string></genre><host><title>Clinical Oral Implants Research</title><language><json:string>unknown</json:string></language><doi><json:string>10.1111/(ISSN)1600-0501</json:string></doi><issn><json:string>0905-7161</json:string></issn><eissn><json:string>1600-0501</json:string></eissn><publisherId><json:string>CLR</json:string></publisherId><volume>21</volume><issue>6</issue><pages><first>598</first><last>604</last><total>7</total></pages><genre><json:string>journal</json:string></genre></host><namedEntities><unitex><date><json:string>2010</json:string></date><geogName></geogName><orgName><json:string>University of Hong Kong</json:string><json:string>Straumann Institute AG</json:string><json:string>Hospital Road Sai Ying Pun Hong Kong SAR, China Tel</json:string><json:string>Straumann Institute AG, Basel, Switzerland</json:string><json:string>National Dental Centre of Singapore</json:string><json:string>China Key</json:string><json:string>Integration Diagnostics</json:string><json:string>University of Hong Kong Prince</json:string><json:string>Institutional Review Board of the National Dental Centre of Singapore</json:string><json:string>Hospital Implant Dentistry</json:string></orgName><orgName_funder></orgName_funder><orgName_provider></orgName_provider><persName><json:string>Audrey Ho</json:string><json:string>Philip Dental</json:string><json:string>John Wiley</json:string><json:string>Christina Sim</json:string><json:string>Frank Lee</json:string><json:string>Philip Hospital</json:string><json:string>Marianne Ong</json:string><json:string>Niklaus P. Lang</json:string><json:string>Lily Liang</json:string><json:string>Qian Hui</json:string></persName><placeName><json:string>Switzerland</json:string><json:string>Basel</json:string><json:string>Chicago</json:string><json:string>Sweden</json:string></placeName><ref_url></ref_url><ref_bibl><json:string>Lang et al. 2011</json:string><json:string>Huang et al. 2003</json:string><json:string>Cochran et al. 1998</json:string><json:string>Adell et al. 1985</json:string><json:string>Meredith et al. 1997a</json:string><json:string>Berglundh et al. 2003</json:string><json:string>Huwiler et al. 2007</json:string><json:string>Abrahamsson et al. 2004</json:string><json:string>Lekholm & Zarb 1985</json:string><json:string>Ong & Stevenson 1999</json:string><json:string>Abrahamsson et al. 2009</json:string><json:string>Meredith et al. (1996)</json:string><json:string>Sennerby et al. 2000</json:string><json:string>Benson et al. 1991</json:string><json:string>Aparicio et al. 2006</json:string><json:string>Sennerby & Meredith 1998</json:string><json:string>Balleri et al. 2002</json:string><json:string>Meredith et al. 1997b</json:string></ref_bibl><bibl></bibl></unitex></namedEntities><ark><json:string>ark:/67375/WNG-ZKWTNX7D-F</json:string></ark><categories><wos><json:string>1 - science</json:string><json:string>2 - engineering, biomedical</json:string><json:string>2 - dentistry, oral surgery & medicine</json:string></wos><scienceMetrix><json:string>1 - health sciences</json:string><json:string>2 - clinical medicine</json:string><json:string>3 - dentistry</json:string></scienceMetrix><scopus><json:string>1 - Health Sciences</json:string><json:string>2 - Dentistry</json:string><json:string>3 - Oral Surgery</json:string></scopus></categories><publicationDate>2010</publicationDate><copyrightDate>2010</copyrightDate><doi><json:string>10.1111/j.1600-0501.2009.01878.x</json:string></doi><id>2F833E9B6435A4304FC5B2EBCE27A8A56443ED51</id><score>1</score><fulltext><json:item><extension>pdf</extension><original>true</original><mimetype>application/pdf</mimetype><uri>https://api.istex.fr/document/2F833E9B6435A4304FC5B2EBCE27A8A56443ED51/fulltext/pdf</uri></json:item><json:item><extension>zip</extension><original>false</original><mimetype>application/zip</mimetype><uri>https://api.istex.fr/document/2F833E9B6435A4304FC5B2EBCE27A8A56443ED51/fulltext/zip</uri></json:item><istex:fulltextTEI uri="https://api.istex.fr/document/2F833E9B6435A4304FC5B2EBCE27A8A56443ED51/fulltext/tei"><teiHeader><fileDesc><titleStmt><title level="a" type="main">Factors influencing resonance frequency analysis assessed by Osstell<hi rend="superscript">™</hi><hi rend="italic">mentor</hi> during implant tissue integration: I. Instrument positioning, bone structure, implant length</title></titleStmt><publicationStmt><authority>ISTEX</authority><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><availability><licence>© 2010 John Wiley & Sons A/S</licence></availability><date type="published" when="2010-06"></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">Factors influencing resonance frequency analysis assessed by Osstell<hi rend="superscript">™</hi><hi rend="italic">mentor</hi> during implant tissue integration: I. Instrument positioning, bone structure, implant length</title><title level="a" type="short">RFA during implant tissue integration</title><author xml:id="author-0000"><persName><forename type="first">Christina P. C.</forename><surname>Sim</surname></persName><affiliation>Prosthodontics Unit, Department of Restorative Dentistry, National Dental Centre of Singapore, Singapore<address><country key="SG"></country></address></affiliation></author><author xml:id="author-0001"><persName><forename type="first">Niklaus P.</forename><surname>Lang</surname></persName><affiliation>University of Hong Kong, Prince Philip Hospital, Hong Kong SAR, China</affiliation></author><idno type="istex">2F833E9B6435A4304FC5B2EBCE27A8A56443ED51</idno><idno type="ark">ark:/67375/WNG-ZKWTNX7D-F</idno><idno type="DOI">10.1111/j.1600-0501.2009.01878.x</idno><idno type="unit">CLR1878</idno><idno type="supplier">1878</idno><idno type="toTypesetVersion">file:CLR.CLR1878.pdf</idno></analytic><monogr><title level="j" type="main">Clinical Oral Implants Research</title><title level="j" type="alt">CLINICAL ORAL IMPLANTS RESEARCH</title><idno type="pISSN">0905-7161</idno><idno type="eISSN">1600-0501</idno><idno type="book-DOI">10.1111/(ISSN)1600-0501</idno><idno type="book-part-DOI">10.1111/clr.2010.21.issue-6</idno><idno type="product">CLR</idno><idno type="publisherDivision">ST</idno><imprint><biblScope unit="vol">21</biblScope><biblScope unit="issue">6</biblScope><biblScope unit="page" from="598">598</biblScope><biblScope unit="page" to="604">604</biblScope><biblScope unit="page-count">7</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2010-06"></date></imprint></monogr></biblStruct></sourceDesc></fileDesc><profileDesc><abstract xml:lang="en" style="main"><head>Abstract</head><p><hi rend="bold">Aim: </hi> To monitor longitudinally the development of implant stability of SLA Straumann<hi rend="superscript">®</hi> tissue‐level implants using resonance frequency analysis (RFA) and to determine the influence of instrument positioning, bone structure and implant length on the assessment of RFA.</p><p><hi rend="bold">Material and methods: </hi> Thirty‐two healthy adult patients received either 8 mm, ∅4.1 mm Straumann<hi rend="superscript">®</hi> Standard Plus tissue‐level implants (<hi rend="italic">n</hi>=16: Group A) or 10 mm, ∅4.1 mm Straumann<hi rend="superscript">®</hi> Standard Plus tissue‐level implants (<hi rend="italic">n</hi>=16: Group B). During healing, RFA was performed on Weeks 0,1, 2, 3, 4, 5, 6, 8 and 12. The implants were restored after 10 weeks (impression taking) and 12 weeks. In addition, probing depth, presence of plaque and bleeding on probing were assessed. Implant stability quotient (ISQ) values of Groups A and B were compared using unpaired <hi rend="italic">t</hi>‐tests and longitudinally applying paired <hi rend="italic">t</hi>‐tests between Week 0 and the subsequent time points.</p><p><hi rend="bold">Results: </hi> Positioning of the Osstell<hi rend="superscript">™</hi><hi rend="italic">mentor</hi> device did not affect the ISQ values. Generally, ISQ values increased continuously during healing from a mean of 65.1 (SD 16.97) to 74.7 (SD 5.17) (significantly from Week 0 to Weeks 6, 8 and 12). Lower bone density (Type III or IV) resulted in significantly lower ISQ values up to Week 8. Implant length affected the increase in ISQ values over time. While no significant increase was observed with 10 mm implants, ISQ values of 8 mm implants increased significantly from Week 0 to Weeks 6, 8 and 12.</p><p><hi rend="bold">Conclusions: </hi> Using Osstell<hi rend="superscript">™</hi><hi rend="italic">mentor</hi>, ISQ values are reproducible irrespective of instrument positioning. ISQ values are affected by the bone structure and implant length. Hence, no predictive values can be attributed to implant stability.</p><p>
<hi rend="bold">To cite this article:</hi>
Sim CPC, Lang NP. Factors influencing resonance frequency analysis assessed by Osstell<hi rend="superscript">™</hi><hi rend="italic">mentor</hi> during implant tissue integration: I. Instrument positioning, bone structure, implant length.
<hi rend="italic">Clin. Oral Impl. Res</hi>. <hi rend="bold">21</hi>, 2010; 598–604.
doi: 10.1111/j.1600‐0501.2009.01878.x</p></abstract><textClass><keywords xml:lang="en"><term xml:id="k1">bone structure</term><term xml:id="k2">implant length</term><term xml:id="k3">implant stability</term><term xml:id="k4">instrument positioning</term><term xml:id="k5">Osstell<hi rend="superscript">™</hi><hi rend="italic">mentor</hi></term><term xml:id="k6">resonance frequency analysis</term><term xml:id="k7">RFA</term><term xml:id="k8">wound healing</term></keywords><keywords rend="tocHeading1"><term>Original 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/2F833E9B6435A4304FC5B2EBCE27A8A56443ED51/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)1600-0501</doi><issn type="print">0905-7161</issn><issn type="electronic">1600-0501</issn><idGroup><id type="product" value="CLR"></id><id type="publisherDivision" value="ST"></id></idGroup><titleGroup><title type="main" sort="CLINICAL ORAL IMPLANTS RESEARCH">Clinical Oral Implants Research</title></titleGroup></publicationMeta><publicationMeta level="part" position="06006"><doi origin="wiley">10.1111/clr.2010.21.issue-6</doi><numberingGroup><numbering type="journalVolume" number="21">21</numbering><numbering type="journalIssue" number="6">6</numbering></numberingGroup><coverDate startDate="2010-06">June 2010</coverDate></publicationMeta><publicationMeta level="unit" type="article" position="5" status="forIssue"><doi origin="wiley">10.1111/j.1600-0501.2009.01878.x</doi><idGroup><id type="unit" value="CLR1878"></id><id type="supplier" value="1878"></id></idGroup><countGroup><count type="pageTotal" number="7"></count></countGroup><titleGroup><title type="tocHeading1">Original Articles</title></titleGroup><copyright>© 2010 John Wiley & Sons A/S</copyright><eventGroup><event type="firstOnline" date="2010-03-19"></event><event type="publishedOnlineFinalForm" date="2010-05-11"></event><event type="xmlConverted" agent="Converter:BPG_TO_WML3G version:2.3.6 mode:FullText source:FullText result:FullText" date="2010-05-18"></event><event type="xmlConverted" agent="Converter:WILEY_ML3G_TO_WILEY_ML3GV2 version:4.0.1" date="2014-03-12"></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="598">598</numbering><numbering type="pageLast" number="604">604</numbering></numberingGroup><correspondenceTo><b>Correspondence to:</b>
<i>Prof. Niklaus P. Lang</i>
The University of Hong Kong
Prince Philip Dental Hospital
Implant Dentistry
34 Hospital Road
Sai Ying Pun
Hong Kong SAR, China
Tel.: +852 2859 0526
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e‐mail: <email normalForm="nplang@dial.eunet.ch">nplang@dial.eunet.ch</email></correspondenceTo><linkGroup><link type="toTypesetVersion" href="file:CLR.CLR1878.pdf"></link></linkGroup></publicationMeta><contentMeta><unparsedEditorialHistory><b>Date:</b> Accepted 8 October 2009</unparsedEditorialHistory><countGroup><count type="figureTotal" number="4"></count><count type="tableTotal" number="5"></count><count type="formulaTotal" number="0"></count><count type="referenceTotal" number="20"></count><count type="wordTotal" number="6400"></count><count type="linksCrossRef" number="44"></count></countGroup><titleGroup><title type="main">Factors influencing resonance frequency analysis assessed by Osstell<sup>™</sup><i>mentor</i> during implant tissue integration: I. Instrument positioning, bone structure, implant length</title><title type="shortAuthors">Sim & Lang</title><title type="short">RFA during implant tissue integration</title></titleGroup><creators><creator creatorRole="author" xml:id="cr1" affiliationRef="#a1"><personName><givenNames>Christina P. C.</givenNames><familyName>Sim</familyName></personName></creator><creator creatorRole="author" xml:id="cr2" affiliationRef="#a2"><personName><givenNames>Niklaus P.</givenNames><familyName>Lang</familyName></personName></creator></creators><affiliationGroup><affiliation xml:id="a1" countryCode="SG"><unparsedAffiliation>Prosthodontics Unit, Department of Restorative Dentistry, National Dental Centre of Singapore, Singapore</unparsedAffiliation></affiliation><affiliation xml:id="a2"><unparsedAffiliation>University of Hong Kong, Prince Philip Hospital, Hong Kong SAR, China</unparsedAffiliation></affiliation></affiliationGroup><keywordGroup xml:lang="en"><keyword xml:id="k1">bone structure</keyword><keyword xml:id="k2">implant length</keyword><keyword xml:id="k3">implant stability</keyword><keyword xml:id="k4">instrument positioning</keyword><keyword xml:id="k5">Osstell<sup>™</sup><i>mentor</i></keyword><keyword xml:id="k6">resonance frequency analysis</keyword><keyword xml:id="k7">RFA</keyword><keyword xml:id="k8">wound healing</keyword></keywordGroup><abstractGroup><abstract type="main" xml:lang="en"><title type="main">Abstract</title><p><b>Aim: </b> To monitor longitudinally the development of implant stability of SLA Straumann<sup>®</sup> tissue‐level implants using resonance frequency analysis (RFA) and to determine the influence of instrument positioning, bone structure and implant length on the assessment of RFA.</p><p><b>Material and methods: </b> Thirty‐two healthy adult patients received either 8 mm, ∅4.1 mm Straumann<sup>®</sup> Standard Plus tissue‐level implants (<i>n</i>=16: Group A) or 10 mm, ∅4.1 mm Straumann<sup>®</sup> Standard Plus tissue‐level implants (<i>n</i>=16: Group B). During healing, RFA was performed on Weeks 0,1, 2, 3, 4, 5, 6, 8 and 12. The implants were restored after 10 weeks (impression taking) and 12 weeks. In addition, probing depth, presence of plaque and bleeding on probing were assessed. Implant stability quotient (ISQ) values of Groups A and B were compared using unpaired <i>t</i>‐tests and longitudinally applying paired <i>t</i>‐tests between Week 0 and the subsequent time points.</p><p><b>Results: </b> Positioning of the Osstell<sup>™</sup><i>mentor</i> device did not affect the ISQ values. Generally, ISQ values increased continuously during healing from a mean of 65.1 (SD 16.97) to 74.7 (SD 5.17) (significantly from Week 0 to Weeks 6, 8 and 12). Lower bone density (Type III or IV) resulted in significantly lower ISQ values up to Week 8. Implant length affected the increase in ISQ values over time. While no significant increase was observed with 10 mm implants, ISQ values of 8 mm implants increased significantly from Week 0 to Weeks 6, 8 and 12.</p><p><b>Conclusions: </b> Using Osstell<sup>™</sup><i>mentor</i>, ISQ values are reproducible irrespective of instrument positioning. ISQ values are affected by the bone structure and implant length. Hence, no predictive values can be attributed to implant stability.</p><p> <b>To cite this article:</b>
Sim CPC, Lang NP. Factors influencing resonance frequency analysis assessed by Osstell<sup>™</sup><i>mentor</i> during implant tissue integration: I. Instrument positioning, bone structure, implant length.
<i>Clin. Oral Impl. Res</i>. <b>21</b>, 2010; 598–604.
doi: 10.1111/j.1600‐0501.2009.01878.x</p></abstract></abstractGroup></contentMeta></header></component></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Factors influencing resonance frequency analysis assessed by Osstell™mentor during implant tissue integration: I. Instrument positioning, bone structure, implant length</title></titleInfo><titleInfo type="abbreviated" lang="en"><title>RFA during implant tissue integration</title></titleInfo><titleInfo type="alternative" contentType="CDATA" lang="en"><title>Factors influencing resonance frequency analysis assessed by Osstell™mentor during implant tissue integration: I. Instrument positioning, bone structure, implant length</title></titleInfo><name type="personal"><namePart type="given">Christina P. C.</namePart><namePart type="family">Sim</namePart><affiliation>Prosthodontics Unit, Department of Restorative Dentistry, National Dental Centre of Singapore, Singapore</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Niklaus P.</namePart><namePart type="family">Lang</namePart><affiliation>University of Hong Kong, Prince Philip Hospital, Hong Kong SAR, China</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">2010-06</dateIssued><edition>Date: Accepted 8 October 2009</edition><copyrightDate encoding="w3cdtf">2010</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><physicalDescription><extent unit="figures">4</extent><extent unit="tables">5</extent><extent unit="formulas">0</extent><extent unit="references">20</extent><extent unit="linksCrossRef">44</extent><extent unit="words">6400</extent></physicalDescription><abstract>Aim: To monitor longitudinally the development of implant stability of SLA Straumann® tissue‐level implants using resonance frequency analysis (RFA) and to determine the influence of instrument positioning, bone structure and implant length on the assessment of RFA.</abstract><abstract>Material and methods: Thirty‐two healthy adult patients received either 8 mm, ∅4.1 mm Straumann® Standard Plus tissue‐level implants (n=16: Group A) or 10 mm, ∅4.1 mm Straumann® Standard Plus tissue‐level implants (n=16: Group B). During healing, RFA was performed on Weeks 0,1, 2, 3, 4, 5, 6, 8 and 12. The implants were restored after 10 weeks (impression taking) and 12 weeks. In addition, probing depth, presence of plaque and bleeding on probing were assessed. Implant stability quotient (ISQ) values of Groups A and B were compared using unpaired t‐tests and longitudinally applying paired t‐tests between Week 0 and the subsequent time points.</abstract><abstract>Results: Positioning of the Osstell™mentor device did not affect the ISQ values. Generally, ISQ values increased continuously during healing from a mean of 65.1 (SD 16.97) to 74.7 (SD 5.17) (significantly from Week 0 to Weeks 6, 8 and 12). Lower bone density (Type III or IV) resulted in significantly lower ISQ values up to Week 8. Implant length affected the increase in ISQ values over time. While no significant increase was observed with 10 mm implants, ISQ values of 8 mm implants increased significantly from Week 0 to Weeks 6, 8 and 12.</abstract><abstract>Conclusions: Using Osstell™mentor, ISQ values are reproducible irrespective of instrument positioning. ISQ values are affected by the bone structure and implant length. Hence, no predictive values can be attributed to implant stability.</abstract><abstract>To cite this article:
Sim CPC, Lang NP. Factors influencing resonance frequency analysis assessed by Osstell™mentor during implant tissue integration: I. Instrument positioning, bone structure, implant length.
Clin. Oral Impl. Res. 21, 2010; 598–604.
doi: 10.1111/j.1600‐0501.2009.01878.x</abstract><subject lang="en"><genre>keywords</genre><topic>bone structure</topic><topic>implant length</topic><topic>implant stability</topic><topic>instrument positioning</topic><topic>Osstell™mentor</topic><topic>resonance frequency analysis</topic><topic>RFA</topic><topic>wound healing</topic></subject><relatedItem type="host"><titleInfo><title>Clinical Oral Implants 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">0905-7161</identifier><identifier type="eISSN">1600-0501</identifier><identifier type="DOI">10.1111/(ISSN)1600-0501</identifier><identifier type="PublisherID">CLR</identifier><part><date>2010</date><detail type="volume"><caption>vol.</caption><number>21</number></detail><detail type="issue"><caption>no.</caption><number>6</number></detail><extent unit="pages"><start>598</start><end>604</end><total>7</total></extent></part></relatedItem><identifier type="istex">2F833E9B6435A4304FC5B2EBCE27A8A56443ED51</identifier><identifier type="ark">ark:/67375/WNG-ZKWTNX7D-F</identifier><identifier type="DOI">10.1111/j.1600-0501.2009.01878.x</identifier><identifier type="ArticleID">CLR1878</identifier><accessCondition type="use and reproduction" contentType="copyright">© 2010 John Wiley & Sons A/S</accessCondition><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/2F833E9B6435A4304FC5B2EBCE27A8A56443ED51/metadata/json</uri></json:item></metadata><serie></serie></istex></record>Pour manipuler ce document sous Unix (Dilib)
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