Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment
Identifieur interne : 000347 ( Istex/Corpus ); précédent : 000346; suivant : 000348Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment
Auteurs : Shinji Miyamoto ; Kouhei Shinmyouzu ; Ikuya Miyamoto ; Kenji Takeshita ; Toshihisa Terada ; Tetsu TakahashiSource :
- Clinical Oral Implants Research [ 0905-7161 ] ; 2013-08.
English descriptors
- KwdEn :
- Astra tech, Augmentation, Augmentation procedures, Autogenous, Autogenous bone, Autogenous bone chips, Biodegradation structure, Biopsy, Bone formation, Bone maturation, Bone regeneration, Bone surface, Bone volume, Bony tissue, Csaii technique, Dental implant treatment, Dental implants, European spine journal, Grafted, Grafted bone, Grafted sinus bone, Higher rate, Human maxillary augmentation, Imagej software, Immunohistochemical analysis, Immunological methods, Implant, Implant placement, Implants research, Interconnecting micropores, John wiley sons miyamoto, Lower rate, Maxillary, Maxillary augmentation, Maxillary sinus, Maxillofacial, Maxillofacial reconstructive surgery, Maxillofacial surgery, Membrane, Mineral research, Miyamoto, Molecular mechanisms, Novel method, Occupation rate, Oral impl, Oral surgery, Osteoblast, Osteoblast differentiation, Osteocalcin, Osteogenic, Osteogenic differentiation pathway, Osteoprogenitor cells, Other hand, Periosteum, Physical functions, Porous phosphate, Positive cells, Previous report, Primary antibody, Reporter deposition, Residual, Residual bone, Second area, Similar results, Sinus, Sinus membrane, Sinus membrane side, Souza nunes, Standard deviation, Third area, Transcription factor, Trephine burr, Window side, Window side sinus membrane side, Young osteocytes.
- Teeft :
- Astra tech, Augmentation, Augmentation procedures, Autogenous, Autogenous bone, Autogenous bone chips, Biodegradation structure, Biopsy, Bone formation, Bone maturation, Bone regeneration, Bone surface, Bone volume, Bony tissue, Csaii technique, Dental implant treatment, Dental implants, European spine journal, Grafted, Grafted bone, Grafted sinus bone, Higher rate, Human maxillary augmentation, Imagej software, Immunohistochemical analysis, Immunological methods, Implant, Implant placement, Implants research, Interconnecting micropores, John wiley sons miyamoto, Lower rate, Maxillary, Maxillary augmentation, Maxillary sinus, Maxillofacial, Maxillofacial reconstructive surgery, Maxillofacial surgery, Membrane, Mineral research, Miyamoto, Molecular mechanisms, Novel method, Occupation rate, Oral impl, Oral surgery, Osteoblast, Osteoblast differentiation, Osteocalcin, Osteogenic, Osteogenic differentiation pathway, Osteoprogenitor cells, Other hand, Periosteum, Physical functions, Porous phosphate, Positive cells, Previous report, Primary antibody, Reporter deposition, Residual, Residual bone, Second area, Similar results, Sinus, Sinus membrane, Sinus membrane side, Souza nunes, Standard deviation, Third area, Transcription factor, Trephine burr, Window side, Window side sinus membrane side, Young osteocytes.
Abstract
This study utilized the constitution and expression of Runx2/Cbfa1 to conduct 6‐month‐post‐operation histomorphometrical and histochemical analysis of osteocalcin in bone regeneration following sinus‐floor augmentation procedures using β‐tricalcium phosphate (β‐TCP) and autogenous cortical bone.
Url:
DOI: 10.1111/j.1600-0501.2011.02396.x
Links to Exploration step
ISTEX:5E4B6298277A691FEDCF9EE60F8128220C6D952FLe document en format XML
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regeneration</term><term>Bone surface</term><term>Bone volume</term><term>Bony tissue</term><term>Csaii technique</term><term>Dental implant treatment</term><term>Dental implants</term><term>European spine journal</term><term>Grafted</term><term>Grafted bone</term><term>Grafted sinus bone</term><term>Higher rate</term><term>Human maxillary augmentation</term><term>Imagej software</term><term>Immunohistochemical analysis</term><term>Immunological methods</term><term>Implant</term><term>Implant placement</term><term>Implants research</term><term>Interconnecting micropores</term><term>John wiley sons miyamoto</term><term>Lower rate</term><term>Maxillary</term><term>Maxillary augmentation</term><term>Maxillary sinus</term><term>Maxillofacial</term><term>Maxillofacial reconstructive surgery</term><term>Maxillofacial surgery</term><term>Membrane</term><term>Mineral research</term><term>Miyamoto</term><term>Molecular mechanisms</term><term>Novel method</term><term>Occupation 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procedures</term><term>Autogenous</term><term>Autogenous bone</term><term>Autogenous bone chips</term><term>Biodegradation structure</term><term>Biopsy</term><term>Bone formation</term><term>Bone maturation</term><term>Bone regeneration</term><term>Bone surface</term><term>Bone volume</term><term>Bony tissue</term><term>Csaii technique</term><term>Dental implant treatment</term><term>Dental implants</term><term>European spine journal</term><term>Grafted</term><term>Grafted bone</term><term>Grafted sinus bone</term><term>Higher rate</term><term>Human maxillary augmentation</term><term>Imagej software</term><term>Immunohistochemical analysis</term><term>Immunological methods</term><term>Implant</term><term>Implant placement</term><term>Implants research</term><term>Interconnecting micropores</term><term>John wiley sons miyamoto</term><term>Lower rate</term><term>Maxillary</term><term>Maxillary augmentation</term><term>Maxillary sinus</term><term>Maxillofacial</term><term>Maxillofacial reconstructive surgery</term><term>Maxillofacial surgery</term><term>Membrane</term><term>Mineral research</term><term>Miyamoto</term><term>Molecular mechanisms</term><term>Novel method</term><term>Occupation rate</term><term>Oral impl</term><term>Oral surgery</term><term>Osteoblast</term><term>Osteoblast differentiation</term><term>Osteocalcin</term><term>Osteogenic</term><term>Osteogenic differentiation pathway</term><term>Osteoprogenitor cells</term><term>Other hand</term><term>Periosteum</term><term>Physical functions</term><term>Porous phosphate</term><term>Positive cells</term><term>Previous report</term><term>Primary antibody</term><term>Reporter deposition</term><term>Residual</term><term>Residual bone</term><term>Second area</term><term>Similar results</term><term>Sinus</term><term>Sinus membrane</term><term>Sinus membrane side</term><term>Souza nunes</term><term>Standard deviation</term><term>Third area</term><term>Transcription factor</term><term>Trephine burr</term><term>Window side</term><term>Window side sinus membrane side</term><term>Young osteocytes</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">This study utilized the constitution and expression of Runx2/Cbfa1 to conduct 6‐month‐post‐operation histomorphometrical and histochemical analysis of osteocalcin in bone regeneration following sinus‐floor augmentation procedures using β‐tricalcium phosphate (β‐TCP) and autogenous cortical bone.</div></front></TEI><istex><corpusName>wiley</corpusName><keywords><teeft><json:string>augmentation</json:string><json:string>sinus</json:string><json:string>window side</json:string><json:string>sinus membrane side</json:string><json:string>bony tissue</json:string><json:string>residual 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antibody</json:string><json:string>bone maturation</json:string></teeft></keywords><author><json:item><name>Shinji Miyamoto</name><affiliations><json:string>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</json:string></affiliations></json:item><json:item><name>Kouhei Shinmyouzu</name><affiliations><json:string>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</json:string></affiliations></json:item><json:item><name>Ikuya Miyamoto</name><affiliations><json:string>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</json:string></affiliations></json:item><json:item><name>Kenji Takeshita</name><affiliations><json:string>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</json:string></affiliations></json:item><json:item><name>Toshihisa Terada</name><affiliations><json:string>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</json:string></affiliations></json:item><json:item><name>Tetsu Takahashi</name><affiliations><json:string>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</json:string><json:string>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, 2‐6‐1, Manazuru, Kokurakita‐ku, Kitakyushu, 803‐8580, JAPANTel.: +81 93 582 1131Fax: +81 93 582 6000e‐mail:</json:string><json:string>E-mail: tetsu@kyu-dent.ac.jp</json:string></affiliations></json:item></author><subject><json:item><lang><json:string>eng</json:string></lang><value>histomorphometry</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>immunohistochemistry</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>sinus‐floor augmentation</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>β‐tricalcium phosphate</value></json:item></subject><articleId><json:string>CLR2396</json:string></articleId><arkIstex>ark:/67375/WNG-M2SH96N8-N</arkIstex><language><json:string>eng</json:string></language><originalGenre><json:string>article</json:string></originalGenre><abstract>This study utilized the constitution and expression of Runx2/Cbfa1 to conduct 6‐month‐post‐operation histomorphometrical and histochemical analysis of osteocalcin in bone regeneration following sinus‐floor augmentation procedures using β‐tricalcium phosphate (β‐TCP) and autogenous cortical bone.</abstract><qualityIndicators><score>5.997</score><pdfWordCount>3601</pdfWordCount><pdfCharCount>23874</pdfCharCount><pdfVersion>1.7</pdfVersion><pdfPageCount>5</pdfPageCount><pdfPageSize>595.276 x 782.362 pts</pdfPageSize><refBibsNative>true</refBibsNative><abstractWordCount>33</abstractWordCount><abstractCharCount>296</abstractCharCount><keywordCount>4</keywordCount></qualityIndicators><title>Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment</title><pmid><json:string>22220565</json:string></pmid><genre><json:string>article</json:string></genre><host><title>Clinical Oral Implants 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(2010)</json:string><json:string>Bobrow et al. 1989, 1991</json:string><json:string>Grant 2003</json:string><json:string>Meyer et al. 2009</json:string><json:string>Franceschi et al. 2003</json:string><json:string>Erbe et al. 2001</json:string><json:string>Rodan & Harada 1997</json:string><json:string>Schwartz et al. 2007</json:string><json:string>Att et al. 2009</json:string><json:string>Boyne & James 1980</json:string><json:string>Zerbo et al. (2005)</json:string><json:string>Iwahashi et al. 2008</json:string><json:string>Afzal et al. 2004</json:string><json:string>Hughes et al. 1995</json:string><json:string>Schwartz et al. (2007)</json:string><json:string>Albrektsson & Johansson 2001</json:string><json:string>Shayesteh et al. 2008</json:string><json:string>Bronckers et al. 2003</json:string><json:string>Valentini & Abensur 1997</json:string></ref_bibl><bibl></bibl></unitex></namedEntities><ark><json:string>ark:/67375/WNG-M2SH96N8-N</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>2013</publicationDate><copyrightDate>2013</copyrightDate><doi><json:string>10.1111/j.1600-0501.2011.02396.x</json:string></doi><id>5E4B6298277A691FEDCF9EE60F8128220C6D952F</id><score>1</score><fulltext><json:item><extension>pdf</extension><original>true</original><mimetype>application/pdf</mimetype><uri>https://api.istex.fr/document/5E4B6298277A691FEDCF9EE60F8128220C6D952F/fulltext/pdf</uri></json:item><json:item><extension>zip</extension><original>false</original><mimetype>application/zip</mimetype><uri>https://api.istex.fr/document/5E4B6298277A691FEDCF9EE60F8128220C6D952F/fulltext/zip</uri></json:item><istex:fulltextTEI uri="https://api.istex.fr/document/5E4B6298277A691FEDCF9EE60F8128220C6D952F/fulltext/tei"><teiHeader><fileDesc><titleStmt><title level="a" type="main">Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment</title></titleStmt><publicationStmt><authority>ISTEX</authority><publisher>Wiley Publishing Ltd</publisher><availability><licence>© 2012 John Wiley & Sons A/S</licence></availability><date type="published" when="2013-08"></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">Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment</title><author xml:id="author-0000"><persName><forename type="first">Shinji</forename><surname>Miyamoto</surname></persName><affiliation><orgName>Division of Oral and Maxillofacial Reconstructive Surgery</orgName><orgName>Department of Oral and Maxillofacial Surgery</orgName><orgName>Science of Physical Functions</orgName><orgName>Kyushu Dental College</orgName><address><settlement type="city">Kitakyusyu City</settlement><country key="JP">Japan</country></address></affiliation></author><author xml:id="author-0001"><persName><forename type="first">Kouhei</forename><surname>Shinmyouzu</surname></persName><affiliation><orgName>Division of Oral and Maxillofacial Reconstructive Surgery</orgName><orgName>Department of Oral and Maxillofacial Surgery</orgName><orgName>Science of Physical Functions</orgName><orgName>Kyushu Dental College</orgName><address><settlement type="city">Kitakyusyu City</settlement><country key="JP">Japan</country></address></affiliation></author><author xml:id="author-0002"><persName><forename type="first">Ikuya</forename><surname>Miyamoto</surname></persName><affiliation><orgName>Division of Oral and Maxillofacial Reconstructive Surgery</orgName><orgName>Department of Oral and Maxillofacial Surgery</orgName><orgName>Science of Physical Functions</orgName><orgName>Kyushu Dental College</orgName><address><settlement type="city">Kitakyusyu City</settlement><country key="JP">Japan</country></address></affiliation></author><author xml:id="author-0003"><persName><forename type="first">Kenji</forename><surname>Takeshita</surname></persName><affiliation><orgName>Division of Oral and Maxillofacial Reconstructive Surgery</orgName><orgName>Department of Oral and Maxillofacial Surgery</orgName><orgName>Science of Physical Functions</orgName><orgName>Kyushu Dental College</orgName><address><settlement type="city">Kitakyusyu City</settlement><country key="JP">Japan</country></address></affiliation></author><author xml:id="author-0004"><persName><forename type="first">Toshihisa</forename><surname>Terada</surname></persName><affiliation><orgName>Division of Oral and Maxillofacial Reconstructive Surgery</orgName><orgName>Department of Oral and Maxillofacial Surgery</orgName><orgName>Science of Physical Functions</orgName><orgName>Kyushu Dental College</orgName><address><settlement type="city">Kitakyusyu City</settlement><country key="JP">Japan</country></address></affiliation></author><author xml:id="author-0005" role="corresp"><persName><forename type="first">Tetsu</forename><surname>Takahashi</surname></persName><affiliation><orgName>Division of Oral and Maxillofacial Reconstructive Surgery</orgName><orgName>Department of Oral and Maxillofacial Surgery</orgName><orgName>Science of Physical Functions</orgName><orgName>Kyushu Dental College</orgName><address><settlement type="city">Kitakyusyu City</settlement><country key="JP">Japan</country></address></affiliation><affiliation>Corresponding author: Tetsu Takahashi Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, 2‐6‐1, Manazuru, Kokurakita‐ku, Kitakyushu, 803‐8580, JAPAN Tel.: +81 93 582 1131 Fax: +81 93 582 6000 e‐mail: tetsu@kyu-dent.ac.jp</affiliation></author><idno type="istex">5E4B6298277A691FEDCF9EE60F8128220C6D952F</idno><idno type="ark">ark:/67375/WNG-M2SH96N8-N</idno><idno type="DOI">10.1111/j.1600-0501.2011.02396.x</idno><idno type="unit">CLR2396</idno><idno type="toTypesetVersion">file:CLR.CLR2396.pdf</idno></analytic><monogr><title level="j" type="main">Clinical Oral Implants Research</title><title level="j" type="sub">Special Online‐only Issue Supplement A100. European Association for Osseointegration and Wiley have published this supplement without financial support.</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.2013.24.issue-A100</idno><idno type="product">CLR</idno><imprint><biblScope unit="vol">24</biblScope><biblScope unit="page" from="134">134</biblScope><biblScope unit="page" to="138">138</biblScope><biblScope unit="page-count">5</biblScope><date type="published" when="2013-08"></date></imprint></monogr></biblStruct></sourceDesc></fileDesc><profileDesc><abstract style="main" xml:id="clr2396-abs-0001"><head>Abstract</head>
Objectives
<p>This study utilized the constitution and expression of Runx2/Cbfa1 to conduct 6‐month‐post‐operation histomorphometrical and histochemical analysis of osteocalcin in bone regeneration following sinus‐floor augmentation procedures using β‐tricalcium phosphate (β‐<hi rend="fc">TCP</hi>) and autogenous cortical bone.</p>
Material and methods
<p>Thirteen sinuses of nine patients were treated with sinus‐floor augmentation using 50% β‐<hi rend="fc">TCP</hi> and 50% autogenous cancellous bone harvested from the ramus of the mandible. Biopsies of augmented sinuses were taken at 6 months for histomorphometric and immunohistochemical measurements.</p>
Results
<p>Runx2/Cbfa1‐ and osteocalcin‐positive cells were found around <hi rend="fc">TCP</hi> particles and on the bone surface. Approximately 60% of cells found around <hi rend="fc">TCP</hi> particles stained positive for Runx2/Cbfa1. Fewer cells stained positive for osteocalcin. These positive cells decreased apically with increasing vertical distance from the maxillary bone surface. Histomorphometric analysis showed that the augmented site close to residual bone and periosteum contained approximately 42% bony tissue and 42% soft connective tissue, and the remaining 16% consisted of <hi rend="fc">TCP</hi> particles. On the other hand, the augmented bone far from residual bone and periosteum contained 35% bony tissue and 50% soft connective tissue.</p>
Conclusions
<p>Our data suggest that <hi rend="fc">TCP</hi> particles attract osteoprogenitor cells that migrate into the interconnecting micropores of the bone‐substitute material by 6 months. The augmented site close to residual bone contained a higher proportion of bony tissue and a lower proportion of soft connective tissue than did the augmented site far from residual bone.</p></abstract><textClass><keywords><term xml:id="clr2396-kwd-0001">histomorphometry</term><term xml:id="clr2396-kwd-0002">immunohistochemistry</term><term xml:id="clr2396-kwd-0003">sinus‐floor augmentation</term><term xml:id="clr2396-kwd-0004">β‐tricalcium phosphate</term></keywords><keywords rend="articleCategory"><term>Original Article</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/5E4B6298277A691FEDCF9EE60F8128220C6D952F/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 type="serialArticle" version="2.0" xml:id="clr2396" xml:lang="en"><header><publicationMeta level="product"><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></idGroup><titleGroup><title sort="CLINICAL ORAL IMPLANTS RESEARCH" type="main">Clinical Oral Implants Research</title><title type="short">Clin. Oral Impl. Res.</title></titleGroup></publicationMeta><publicationMeta level="part" position="85"><doi origin="wiley">10.1111/clr.2013.24.issue-A100</doi><titleGroup><title type="specialIssueTitle">Special Online‐only Issue Supplement A100. European Association for Osseointegration and Wiley have published this supplement without financial support.</title></titleGroup><copyright ownership="publisher">Copyright © 2013 John Wiley & Sons A/S</copyright><numberingGroup><numbering type="journalVolume" number="24">24</numbering><numbering type="supplement">A100</numbering></numberingGroup><coverDate startDate="2013-08">August 2013</coverDate></publicationMeta><publicationMeta level="unit" position="210" status="forIssue" type="article"><doi>10.1111/j.1600-0501.2011.02396.x</doi><idGroup><id type="unit" value="CLR2396"></id></idGroup><countGroup><count number="5" type="pageTotal"></count></countGroup><titleGroup><title type="articleCategory">Original Article</title><title type="tocHeading1">Original Articles</title></titleGroup><copyright ownership="publisher">© 2012 John Wiley & Sons A/S</copyright><eventGroup><event date="2011-11-19" type="manuscriptAccepted"></event><event agent="SPS" date="2011-12-03" type="xmlCreated"></event><event agent="SPS" date="2013-07-20" type="xmlCorrected"></event><event type="publishedOnlineEarlyUnpaginated" date="2012-01-06"></event><event type="publishedOnlineFinalForm" date="2013-07-18"></event><event type="firstOnline" date="2012-01-06"></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:4.6.4 mode:FullText" date="2015-10-03"></event></eventGroup><numberingGroup><numbering type="pageFirst">134</numbering><numbering type="pageLast">138</numbering></numberingGroup><correspondenceTo><lineatedText><line><b>Corresponding author:</b></line><line><i>Tetsu Takahashi</i></line><line>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, 2‐6‐1, Manazuru, Kokurakita‐ku, Kitakyushu, 803‐8580, JAPAN</line><line>Tel.: +81 93 582 1131</line><line>Fax: +81 93 582 6000</line><line>e‐mail: <email>tetsu@kyu-dent.ac.jp</email></line></lineatedText></correspondenceTo><selfCitationGroup><citation type="self" xml:id="clr2396-cit-0117"><author><familyName>Miyamoto</familyName> <givenNames>S</givenNames></author>, <author><familyName>Shinmyouzu</familyName> <givenNames>K</givenNames></author>, <author><familyName>Miyamoto</familyName> <givenNames>I</givenNames></author>, <author><familyName>Takeshita</familyName> <givenNames>K</givenNames></author>, <author><familyName>Terada</familyName> <givenNames>T</givenNames></author>, <author><familyName>Takahashi</familyName> <givenNames>T</givenNames></author>. <articleTitle>Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment</articleTitle>. <journalTitle>Clin. Oral Impl. Res.</journalTitle> <vol>24</vol> (Suppl. A100), <pubYear year="2013">2013</pubYear>, <pageFirst>134</pageFirst>–<pageLast>138</pageLast>.</citation></selfCitationGroup><linkGroup><link type="toTypesetVersion" href="file:CLR.CLR2396.pdf"></link></linkGroup></publicationMeta><contentMeta><titleGroup><title type="main">Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment</title><title type="shortAuthors">Miyamoto et al</title></titleGroup><creators><creator affiliationRef="#clr2396-aff-0001" creatorRole="author" xml:id="clr2396-cr-0001"><personName><givenNames>Shinji</givenNames> <familyName>Miyamoto</familyName></personName></creator><creator affiliationRef="#clr2396-aff-0001" creatorRole="author" xml:id="clr2396-cr-0002"><personName><givenNames>Kouhei</givenNames> <familyName>Shinmyouzu</familyName></personName></creator><creator affiliationRef="#clr2396-aff-0001" creatorRole="author" xml:id="clr2396-cr-0003"><personName><givenNames>Ikuya</givenNames> <familyName>Miyamoto</familyName></personName></creator><creator affiliationRef="#clr2396-aff-0001" creatorRole="author" xml:id="clr2396-cr-0004"><personName><givenNames>Kenji</givenNames> <familyName>Takeshita</familyName></personName></creator><creator affiliationRef="#clr2396-aff-0001" creatorRole="author" xml:id="clr2396-cr-0005"><personName><givenNames>Toshihisa</givenNames> <familyName>Terada</familyName></personName></creator><creator affiliationRef="#clr2396-aff-0001" corresponding="yes" creatorRole="author" xml:id="clr2396-cr-0006"><personName><givenNames>Tetsu</givenNames> <familyName>Takahashi</familyName></personName></creator></creators><affiliationGroup><affiliation countryCode="JP" type="organization" xml:id="clr2396-aff-0001"><orgDiv>Division of Oral and Maxillofacial Reconstructive Surgery</orgDiv> <orgDiv>Department of Oral and Maxillofacial Surgery</orgDiv> <orgName>Science of Physical Functions</orgName> <orgName>Kyushu Dental College</orgName> <address><city>Kitakyusyu City</city> <country>Japan</country></address></affiliation></affiliationGroup><keywordGroup type="author"><keyword xml:id="clr2396-kwd-0001">histomorphometry</keyword><keyword xml:id="clr2396-kwd-0002">immunohistochemistry</keyword><keyword xml:id="clr2396-kwd-0003">sinus‐floor augmentation</keyword><keyword xml:id="clr2396-kwd-0004">β‐tricalcium phosphate</keyword></keywordGroup><abstractGroup><abstract type="main" xml:id="clr2396-abs-0001"><title type="main">Abstract</title><section xml:id="clr2396-sec-0001"><title type="main">Objectives</title><p>This study utilized the constitution and expression of Runx2/Cbfa1 to conduct 6‐month‐post‐operation histomorphometrical and histochemical analysis of osteocalcin in bone regeneration following sinus‐floor augmentation procedures using β‐tricalcium phosphate (β‐<fc>TCP</fc>) and autogenous cortical bone.</p></section><section xml:id="clr2396-sec-0002"><title type="main">Material and methods</title><p>Thirteen sinuses of nine patients were treated with sinus‐floor augmentation using 50% β‐<fc>TCP</fc> and 50% autogenous cancellous bone harvested from the ramus of the mandible. Biopsies of augmented sinuses were taken at 6 months for histomorphometric and immunohistochemical measurements.</p></section><section xml:id="clr2396-sec-0003"><title type="main">Results</title><p>Runx2/Cbfa1‐ and osteocalcin‐positive cells were found around <fc>TCP</fc> particles and on the bone surface. Approximately 60% of cells found around <fc>TCP</fc> particles stained positive for Runx2/Cbfa1. Fewer cells stained positive for osteocalcin. These positive cells decreased apically with increasing vertical distance from the maxillary bone surface. Histomorphometric analysis showed that the augmented site close to residual bone and periosteum contained approximately 42% bony tissue and 42% soft connective tissue, and the remaining 16% consisted of <fc>TCP</fc> particles. On the other hand, the augmented bone far from residual bone and periosteum contained 35% bony tissue and 50% soft connective tissue.</p></section><section xml:id="clr2396-sec-0004"><title type="main">Conclusions</title><p>Our data suggest that <fc>TCP</fc> particles attract osteoprogenitor cells that migrate into the interconnecting micropores of the bone‐substitute material by 6 months. The augmented site close to residual bone contained a higher proportion of bony tissue and a lower proportion of soft connective tissue than did the augmented site far from residual bone.</p></section></abstract></abstractGroup></contentMeta></header></component></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment</title></titleInfo><titleInfo type="alternative" contentType="CDATA" lang="en"><title>Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment</title></titleInfo><name type="personal"><namePart type="given">Shinji</namePart><namePart type="family">Miyamoto</namePart><affiliation>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Kouhei</namePart><namePart type="family">Shinmyouzu</namePart><affiliation>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Ikuya</namePart><namePart type="family">Miyamoto</namePart><affiliation>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Kenji</namePart><namePart type="family">Takeshita</namePart><affiliation>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Toshihisa</namePart><namePart type="family">Terada</namePart><affiliation>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Tetsu</namePart><namePart type="family">Takahashi</namePart><affiliation>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, Kitakyusyu City, Japan</affiliation><affiliation>Division of Oral and Maxillofacial Reconstructive Surgery, Department of Oral and Maxillofacial Surgery, Science of Physical Functions, Kyushu Dental College, 2‐6‐1, Manazuru, Kokurakita‐ku, Kitakyushu, 803‐8580, JAPANTel.: +81 93 582 1131Fax: +81 93 582 6000e‐mail:</affiliation><affiliation>E-mail: tetsu@kyu-dent.ac.jp</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><dateIssued encoding="w3cdtf">2013-08</dateIssued><dateCreated encoding="w3cdtf">2011-12-03</dateCreated><dateValid encoding="w3cdtf">2011-11-19</dateValid><edition>Miyamoto S, Shinmyouzu K, Miyamoto I, Takeshita K, Terada T, Takahashi T. Histomorphometric and immunohistochemical analysis of human maxillary sinus‐floor augmentation using porous β‐tricalcium phosphate for dental implant treatment. Clin. Oral Impl. Res. 24 (Suppl. A100), 2013, 134–138.</edition><copyrightDate encoding="w3cdtf">2013</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><abstract>This study utilized the constitution and expression of Runx2/Cbfa1 to conduct 6‐month‐post‐operation histomorphometrical and histochemical analysis of osteocalcin in bone regeneration following sinus‐floor augmentation procedures using β‐tricalcium phosphate (β‐TCP) and autogenous cortical bone.</abstract><abstract>Thirteen sinuses of nine patients were treated with sinus‐floor augmentation using 50% β‐TCP and 50% autogenous cancellous bone harvested from the ramus of the mandible. Biopsies of augmented sinuses were taken at 6 months for histomorphometric and immunohistochemical measurements.</abstract><abstract>Runx2/Cbfa1‐ and osteocalcin‐positive cells were found around TCP particles and on the bone surface. Approximately 60% of cells found around TCP particles stained positive for Runx2/Cbfa1. Fewer cells stained positive for osteocalcin. These positive cells decreased apically with increasing vertical distance from the maxillary bone surface. Histomorphometric analysis showed that the augmented site close to residual bone and periosteum contained approximately 42% bony tissue and 42% soft connective tissue, and the remaining 16% consisted of TCP particles. On the other hand, the augmented bone far from residual bone and periosteum contained 35% bony tissue and 50% soft connective tissue.</abstract><abstract>Our data suggest that TCP particles attract osteoprogenitor cells that migrate into the interconnecting micropores of the bone‐substitute material by 6 months. The augmented site close to residual bone contained a higher proportion of bony tissue and a lower proportion of soft connective tissue than did the augmented site far from residual bone.</abstract><subject><genre>keywords</genre><topic>histomorphometry</topic><topic>immunohistochemistry</topic><topic>sinus‐floor augmentation</topic><topic>β‐tricalcium phosphate</topic></subject><relatedItem type="host"><titleInfo><title>Clinical Oral Implants Research</title></titleInfo><titleInfo type="abbreviated"><title>Clin. Oral Impl. 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