<?xml version="1.0"?>
<doi_batch xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns="http://www.crossref.org/schema/4.4.0" xmlns:fr="http://www.crossref.org/fundref.xsd" xmlns:ct="http://www.crossref.org/clinicaltrials.xsd" xmlns:ai="http://www.crossref.org/AccessIndicators.xsd" xmlns:rel="http://www.crossref.org/relations.xsd" xmlns:jats="http://www.ncbi.nlm.nih.gov/JATS1" version="4.4.0" xsi:schemaLocation="http://www.crossref.org/schema/4.4.0 crossref4.4.0.xsd">
  <head>
    <doi_batch_id>TODENTJ-25-03-2019_TODENTJ-7-68</doi_batch_id>
    <timestamp>1553505460</timestamp>
    <depositor>
      <depositor_name>Bentham Open</depositor_name>
      <email_address>doi@benthamopen.net</email_address>
    </depositor>
    <registrant>Bentham Open</registrant>
  </head>
  <body>
    <journal>
      <journal_metadata language="en">
        <full_title>The Open Dentistry Journal</full_title>
        <abbrev_title>TODENTJ</abbrev_title>
        <issn media_type="print">1874-2106</issn>
      </journal_metadata>
      <journal_issue>
        <publication_date media_type="print">
          <month>7</month>
          <day>26
                </day>
          <year>2013</year>
        </publication_date>
        <journal_volume>
          <volume>7</volume>
        </journal_volume>
        <issue>1</issue>
      </journal_issue>
      <journal_article publication_type="full_text">
        <titles>
          <title>Effect of Cementation Technique of Individually Formed Fiber-Reinforced Composite Post on Bond Strength and Microleakage</title>
        </titles>
        <contributors>
          <person_name contributor_role="author" sequence="first">
            <given_name>Dominika</given_name>
            <surname> Makarewicz</surname>
          </person_name>
          <person_name contributor_role="author" sequence="additional">
            <given_name>Anna-Maria B</given_name>
            <surname>Le Bell-Rönnlöf</surname>
          </person_name>
          <person_name contributor_role="author" sequence="additional">
            <given_name>Lippo V.J.</given_name>
            <surname> Lassila </surname>
          </person_name>
          <person_name contributor_role="author" sequence="additional">
            <given_name>Pekka K. </given_name>
            <surname>Vallittu</surname>
          </person_name>
        </contributors>
        <jats:abstract>
                <jats:sec>
                    <jats:title>Objectives:</jats:title>
                    <jats:p> The aim of this study was to evaluate the effect of two different cementation techniques of individually formed E-glass fiber-reinforced composite (FRC) post on bond strength and microleakage. 
</jats:p>
                </jats:sec>
                <jats:sec>
                    <jats:title>Methods:</jats:title>
                    <jats:p> The crowns of extracted third molars were removed and post preparation was carried out with parapost drills (diameter 1.5 mm). After application of bonding agents individually formed FRC posts (everStick POST, diameter 1.5 mm) were cemented into the post spaces with either ParaCem®Universal or self-adhesive RelyX™Unicem, using two different cementation techniques: 1) an “indirect (traditional) technique” where the post was prepolymerized prior application of luting cement and insertion into the post space or 2) a “direct technique” where the uncured post was inserted to the post space with luting cement and light-polymerized in situ at the same time. After water storage of 48 hours, the roots (n = 10/group) were cut into discs of thickness of 2 mm. A push-out force was applied until specimen fracture or loosening of the post. A microleakage test was carried out on roots which were not subjected to the loading test (n= 32) to evaluate the sealing capacity of the post-canal interface. The microleakage was measured using dye penetration depth under a stereomicroscope. 
</jats:p>
                </jats:sec>
                <jats:sec>
                    <jats:title>Results:</jats:title>
                    <jats:p> Higher bond strength values (p&lt;0.05) and less microleakage (p&lt;0.05) were obtained with the “direct technique” compared to the “indirect technique”. None of the FRC posts revealed any dye penetration between the post and the cement. 
</jats:p>
                </jats:sec>
                <jats:sec>
                    <jats:title>Conclusions:</jats:title>
                    <jats:p> The “direct technique” seems to be beneficial when cementing individually formed FRC posts.
</jats:p>
                </jats:sec>
            </jats:abstract>
        <publication_date>
          <month>7</month>
          <day>26
                </day>
          <year>2013</year>
        </publication_date>
        <pages>
          <first_page>68</first_page>
          <last_page>75</last_page>
        </pages>
        <publisher_item>
          <identifier id_type="sici">TODENTJ-7-68</identifier>
        </publisher_item>
        <crossmark>
          <crossmark_version>1</crossmark_version>
          <crossmark_policy>10.2174/crossmark_policy</crossmark_policy>
          <crossmark_domains>
            <crossmark_domain>
              <domain>opendentistryjournal.com</domain>
            </crossmark_domain>
            <crossmark_domain>
              <domain>benthamopen.com</domain>
            </crossmark_domain>
          </crossmark_domains>
          <crossmark_domain_exclusive>true</crossmark_domain_exclusive>
          <custom_metadata>
            <assertion name="review_status" label="Review Status" group_name="peer_review_details" group_label="Peer Review Details" order="0">Peer Reviewed</assertion>
            <assertion name="review_process" label="Review Process" group_name="peer_review_details" group_label="Peer Review Details" order="1">Single blind</assertion>
            <assertion name="screening_status" label="Screening Status" group_name="plagiarism_screening" group_label="Plagiarism Screening" order="0">Checked with iThenticate</assertion>
            <assertion name="received" label="Received" group_name="publication_history" group_label="Publication History" order="0">2013-1-12</assertion>
            <assertion name="revised" label="Revised" group_name="publication_history" group_label="Publication History" order="1">2013-3-5</assertion>
            <assertion name="accepted" label="Accepted" group_name="publication_history" group_label="Publication History" order="2">2013-3-13</assertion>
            <assertion name="published" label="Published" group_name="publication_history" group_label="Publication History" order="3">2013-7-26
                </assertion>
            <ai:program name="AccessIndicators">
              <ai:license_ref>http://creativecommons.org/licenses/by-nc/3.0/</ai:license_ref>
            </ai:program>
          </custom_metadata>
        </crossmark>
        <doi_data>
          <doi>10.2174/1874210601307010068</doi>
          <timestamp>1553505460</timestamp>
          <resource>https://opendentistryjournal.com/VOLUME/7/PAGE/68/</resource>
          <collection property="crawler-based">
            <item crawler="google">
              <resource>https://opendentistryjournal.com/contents/volumes/V7/TODENTJ-7-68/TODENTJ-7-68.pdf</resource>
            </item>
            <item crawler="msn">
              <resource>https://opendentistryjournal.com/contents/volumes/V7/TODENTJ-7-68/TODENTJ-7-68.pdf</resource>
            </item>
            <item crawler="altavista">
              <resource>https://opendentistryjournal.com/contents/volumes/V7/TODENTJ-7-68/TODENTJ-7-68.pdf</resource>
            </item>
            <item crawler="yahoo">
              <resource>https://opendentistryjournal.com/contents/volumes/V7/TODENTJ-7-68/TODENTJ-7-68.pdf</resource>
            </item>
            <item crawler="scirus">
              <resource>https://opendentistryjournal.com/contents/volumes/V7/TODENTJ-7-68/TODENTJ-7-68.pdf</resource>
            </item>
            <item crawler="iParadigms">
              <resource>https://opendentistryjournal.com/contents/volumes/V7/TODENTJ-7-68/TODENTJ-7-68.pdf</resource>
            </item>
          </collection>
          <collection property="text-mining">
            <item>
              <resource mime_type="application/pdf">https://opendentistryjournal.com/contents/volumes/V7/TODENTJ-7-68/TODENTJ-7-68.pdf</resource>
            </item>
            <item>
              <resource mime_type="application/xml">https://opendentistryjournal.com/contents/volumes/V7/TODENTJ-7-68/TODENTJ-7-68.xml</resource>
            </item>
          </collection>
        </doi_data>
        <citation_list>
          <citation key="refR1">
            <journal_title>Chir Dent Fr</journal_title>
            <author>Duret B</author>
            <volume>60</volume>
            <first_page>69</first_page>
            <cYear>1990</cYear>
            <unstructured_citation>
                    Duret B, Reynaud M, Duret F. 
                    A new concept of corono-radicular reconstruction: the Composipost (2) 
                    Chir Dent Fr  
                    1990; 
                    60
                    : 69-77.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR2">
            <journal_title>J Clin Periodontol</journal_title>
            <author>Sewón LA</author>
            <volume>27</volume>
            <first_page>615</first_page>
            <cYear>2000</cYear>
            <unstructured_citation>
                    Sewón LA, Ampula L, Vallittu PK. 
                    Rehabilitation of a periodontal patient with rapidly progressing marginal alveolar bone loss: 1-year follow-up 
                    J Clin Periodontol  
                    2000; 
                    27
                    : 615-9.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR3">
            <journal_title>Biomaterials</journal_title>
            <author>Pegoretti A</author>
            <volume>23</volume>
            <first_page>2667</first_page>
            <cYear>2002</cYear>
            <unstructured_citation>
                    Pegoretti A, Fambri L, Zappini G, Bianchetti M. 
                    Finite element analysis of a glass fibre reinforced composite endodontic post 
                    Biomaterials  
                    2002; 
                    23
                    : 2667-82.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR4">
            <journal_title> J Prosthet Dent</journal_title>
            <author>Vallittu PK</author>
            <volume>91</volume>
            <first_page>241</first_page>
            <cYear>2004</cYear>
            <unstructured_citation>
                    Vallittu PK. 
                    Survival rates of resin-bonded. glass fiber-reinforced composite fixed partial dentures with a mean follow-up of 42 months a pilot study 
                     J Prosthet Dent  
                    2004; 
                    91
                    : 241-6.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR5">
            <journal_title>J Dent Child</journal_title>
            <author>Kargül B</author>
            <volume>72</volume>
            <first_page>109</first_page>
            <cYear>2005</cYear>
            <unstructured_citation>
                    Kargül B, Caglar E, Kabalay U. 
                    Glass fiber-reinforced composite resin as fixed space maintainers in children: 12-month clinical follow-up 
                    J Dent Child  
                    2005; 
                    72
                    : 109-2.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR6">
            <journal_title>Quintessence Int</journal_title>
            <author>Meiers JC</author>
            <volume>37</volume>
            <first_page>449</first_page>
            <cYear>2006</cYear>
            <unstructured_citation>
                    Meiers JC, Freilich MA. 
                    Design and use of a prefabricated fiber-reinforced composite substructure for the chairside replacement of missing premolars 
                    Quintessence Int  
                    2006; 
                    37
                    : 449-54.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR7">
            <journal_title>Int J Prosthodont</journal_title>
            <author>Schmitter M</author>
            <volume>20</volume>
            <first_page>173</first_page>
            <cYear>2007</cYear>
            <unstructured_citation>
                    Schmitter M, Rammelsberg P, Gabbert O, Ohlmann B. 
                    Influence of clinical baseline findings on the survival of 2 post systems a randomized clinical trial 
                    Int J Prosthodont  
                    2007; 
                    20
                    : 173-8.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR8">
            <journal_title>Am J Dent</journal_title>
            <author>Ferrari M</author>
            <volume>13</volume>
            <first_page>15B</first_page>
            <cYear>2000</cYear>
            <unstructured_citation>
                    Ferrari M, Vichi A, García-Godoy F. 
                    Clinical evaluation of fiber-reinforced epoxy resin posts and cast post and cores 
                    Am J Dent  
                    2000; 
                    13
                    : 15B-8.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR9">
            <journal_title>Int J Prosthodont</journal_title>
            <author>Fokkinga WA</author>
            <volume>17</volume>
            <first_page>476</first_page>
            <cYear>2004</cYear>
            <unstructured_citation>
                    Fokkinga WA, Kreulen CM, Vallittu PK, Creugers NHJ. 
                    A structured analysis of in vitro failure loads and failure modes of fiber. metal and ceramic post-and-core systems.  
                    Int J Prosthodont  
                    2004; 
                    17
                    : 476-82.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR10">
            <journal_title>Quintessence Int</journal_title>
            <author>Peroz I</author>
            <volume>36</volume>
            <first_page>737</first_page>
            <cYear>2005</cYear>
            <unstructured_citation>
                    Peroz I, Blankenstein F, Lange K-P, Naumann M. 
                    Restoring endodontically treated teeth with posts and cores-A review 
                    Quintessence Int  
                    2005; 
                    36
                    : 737-46.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR11">
            <journal_title>Dent Mater</journal_title>
            <author>Lassila LVJ</author>
            <volume>20</volume>
            <first_page>29</first_page>
            <cYear>2004</cYear>
            <unstructured_citation>
                    Lassila LVJ, Tanner J, Le Bell A-M, Narva K, Vallittu PK. 
                    Flexural properties of fiber reinforced root canal posts 
                    Dent Mater  
                    2004; 
                    20
                    : 29-36.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR12">
            <journal_title>Quintessence Int</journal_title>
            <author>Bitter K</author>
            <volume>38</volume>
            <first_page>121</first_page>
            <cYear>2007</cYear>
            <unstructured_citation>
                    Bitter K, Noetzel Neumann K, Kielbassa AM. 
                    Effect of silanization on bond strengths of fiber posts to various resin cements 
                    Quintessence Int  
                    2007; 
                    38
                    : 121-8.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR13">
            <journal_title>Dent Mater</journal_title>
            <author>Le Bell-Rönnlöf A-M</author>
            <volume>27</volume>
            <first_page>e107</first_page>
            <cYear>2011</cYear>
            <unstructured_citation>
                    Le Bell-Rönnlöf A-M, Lassila LVJ, Kangasniemi I, Vallittu PK. 
                    Load-bearing capacity of human incisor restored with various fiber-reinforced composite posts 
                    Dent Mater  
                    2011; 
                    27
                    : e107-5.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR14">
            <journal_title>Int J Prosthodont</journal_title>
            <author>Le Bell A-M</author>
            <volume>16</volume>
            <first_page>403</first_page>
            <cYear>2003</cYear>
            <unstructured_citation>
                    Le Bell A-M, Tanner J, Lassila LVJ, Kangasniemi I, Vallittu PK. 
                    Depth of light-initiated polymerization of glass fiber reinforced composite in a simulated root canal 
                    Int J Prosthodont  
                    2003; 
                    16
                    : 403-8.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR15">
            <journal_title>Int Endod J</journal_title>
            <author>Mannocci F</author>
            <volume>38</volume>
            <first_page>46</first_page>
            <cYear>2005</cYear>
            <unstructured_citation>
                    Mannocci F, Sheriff M, Watson TF, Vallittu PK. 
                    Penetration of bonding resins into fibre-reinforced composite posts: a confocal microscopic study 
                    Int Endod J  
                    2005; 
                    38
                    : 46-51.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR16">
            <journal_title> Am Chem Soc</journal_title>
            <author>Sperling LH</author>
            <volume>vol. 356</volume>
            <first_page>3</first_page>
            <cYear>1994</cYear>
            <unstructured_citation>
                    Sperling LH, Klempner D, Sperling LH, Utracki LA. 
                    Interpenetrating polymer networks: an overview.In: Interpenetrating Polymer Networks. 1st ed. Washington 
                     Am Chem Soc  
                    1994; 
                    vol. 356
                    : 3-39.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR17">
            <journal_title> Leiden. VSP</journal_title>
            <author>Vallittu PK</author>
            <first_page>63</first_page>
            <cYear>2009</cYear>
            <unstructured_citation>
                    Vallittu PK, Matinlinna JP, Mittal KL. 
                    Interpenetrating polymer networks (IPNs) in dental polymers and composites.In Adhesion aspects in dentistry 
                     Leiden VSP  
                    2009; 
                    63-74.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR18">
            <unstructured_citation>
                    Le Bell-Rönnlöf A-M, Ed. 
                    Fibre-reinforced composites as root canal posts.PhD dissertaion 
                    Finland.: Dept. of Biomaterials Science. University of Turku  2007.
                    
                    
                </unstructured_citation>
          </citation>
          <citation key="refR19">
            <journal_title>Int J Prosthodont</journal_title>
            <author>Torbjörner A</author>
            <volume>17</volume>
            <first_page>369</first_page>
            <cYear>2004</cYear>
            <unstructured_citation>
                    Torbjörner A, Fransson B. 
                    A literature review on the prosthetic treatment of structurally compromised teeth 
                    Int J Prosthodont  
                    2004; 
                    17
                    : 369-76.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR20">
            <journal_title>Int Endodont J</journal_title>
            <author>Mannocci F</author>
            <volume>38</volume>
            <first_page>46</first_page>
            <cYear>2005</cYear>
            <unstructured_citation>
                    Mannocci F, Sheriff M, Watson TF, Vallittu PK. 
                    Penetration of bonding resins into fibre-reinforced composite posts a confocal microscopic study 
                    Int Endodont J  
                    2005; 
                    38
                    : 46-51.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR21">
            <journal_title>J Prosthet Dent</journal_title>
            <author>Vallittu PK</author>
            <volume>78</volume>
            <first_page>194</first_page>
            <cYear>1997</cYear>
            <unstructured_citation>
                    Vallittu PK, Ruyter IE. 
                    The swelling phenomenon of acrylic resin polymer teeth at the interface with denture base polymers 
                    J Prosthet Dent  
                    1997; 
                    78
                    : 194-9.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR22">
            <journal_title>J Mater Sci. Mater Med</journal_title>
            <author>Lastumäki T</author>
            <volume>14</volume>
            <first_page>803</first_page>
            <cYear>2003</cYear>
            <unstructured_citation>
                    Lastumäki T, Lassila LVJ, Vallittu PK. 
                    The semi-interpenetrating polymer network matrix of fiber-reinforced composite and its effect on the surface adhesive properties 
                    J Mater Sci Mater Med  
                    2003; 
                    14
                    : 803-9.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR23">
            <journal_title>J Adh Dent</journal_title>
            <author>Le Bell A-M</author>
            <volume>6</volume>
            <first_page>319</first_page>
            <cYear>2004</cYear>
            <unstructured_citation>
                    Le Bell A-M, Tanner J, Lassila LVJ, Kangasniemi I, Vallittu PK. 
                    Bonding of composite resin luting cement to fiber-reinforced composite root canal posts 
                    J Adh Dent  
                    2004; 
                    6
                    : 319-25.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR24">
            <journal_title>J Dent</journal_title>
            <author>Le Bell A-M</author>
            <volume>33</volume>
            <first_page>533</first_page>
            <cYear>2005</cYear>
            <unstructured_citation>
                    Le Bell A-M, Lassila LVJ, Kangasniemi I, Vallittu PK. 
                    Bonding of fibre-reinforced composite post to root canal dentin 
                    J Dent  
                    2005; 
                    33
                    : 533-9.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR25">
            <journal_title> Int Dent S Afr</journal_title>
            <author>Vallittu PK</author>
            <volume>8</volume>
            <first_page>20</first_page>
            <cYear>2006</cYear>
            <unstructured_citation>
                    Vallittu PK. 
                    Fibre-reinforced composites in root canal anchoring: mechanical requirements. structure and properties of the fibre-reinforced composite 
                     Int Dent S Afr  
                    2006; 
                    8
                    : 20-7.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR26">
            <journal_title>J Adh Sci Technol</journal_title>
            <author>Vallittu PK</author>
            <volume>23</volume>
            <first_page>961</first_page>
            <cYear>2009</cYear>
            <unstructured_citation>
                    Vallittu PK. 
                    Interpenetrating polymer networks (IPNs) in dental polymers and composites 
                    J Adh Sci Technol  
                    2009; 
                    23
                    : 961-72.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR27">
            <journal_title>Dent Mater</journal_title>
            <author>Alander P</author>
            <volume>21</volume>
            <first_page>347</first_page>
            <cYear>2005</cYear>
            <unstructured_citation>
                    Alander P, Lassila LVJ, Vallittu PK. 
                    The span length and cross-sectional design affect values of strength 
                    Dent Mater  
                    2005; 
                    21
                    : 347-53.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR28">
            <journal_title>Dent Mater</journal_title>
            <author>Tezvergil A</author>
            <volume>19</volume>
            <first_page>471</first_page>
            <cYear>2003</cYear>
            <unstructured_citation>
                    Tezvergil A, Lassila LVJ, Vallittu PK. 
                    The effect of fiber orientation on the thermal expansion coefficients of the fiber reinforced composites 
                    Dent Mater  
                    2003; 
                    19
                    : 471-7.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR29">
            <journal_title>Dent Mater</journal_title>
            <author>Anttila E</author>
            <volume>24</volume>
            <first_page>1720</first_page>
            <cYear>2008</cYear>
            <unstructured_citation>
                    Anttila E, Krintilä O, Laurila T, Lassila LVJ, Vallittu PK, Hernberg R. 
                    Polymerization shrinkage and hygroscopic expansion of fiber reinforced composite using fiber Bragg grating sensors 
                    Dent Mater  
                    2008; 
                    24
                    : 1720-7.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR30">
            <journal_title>Dent Mater</journal_title>
            <author>Tezvergil A</author>
            <volume>22</volume>
            <first_page>610</first_page>
            <cYear>2006</cYear>
            <unstructured_citation>
                    Tezvergil A, Lassila LVJ, Vallittu PK. 
                    The effect of fiber orientation on the polymerization shrinkage strain of fiber reinforced composite 
                    Dent Mater  
                    2006; 
                    22
                    : 610-.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR31">
            <journal_title>Dent Mater</journal_title>
            <author>Garoushi SK</author>
            <volume>24</volume>
            <first_page>211</first_page>
            <cYear>2008</cYear>
            <unstructured_citation>
                    Garoushi SK, Vallittu PK, Watts DC, Lassila LVJ. 
                    Polymerization shrinkage of experimental short glass fiber reinforced composite with semi-interpenetrating polymer network matrix 
                    Dent Mater  
                    2008; 
                    24
                    (2
                )
                    : 211-5.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR32">
            <journal_title>J Dent Res</journal_title>
            <author>Feilzer AJ</author>
            <volume>66</volume>
            <first_page>1636</first_page>
            <cYear>1987</cYear>
            <unstructured_citation>
                    Feilzer AJ, De Gee AL, Davidson CL. 
                    Setting stress in composite resin in relation to configuration of the restoration 
                    J Dent Res  
                    1987; 
                    66
                    : 1636-9.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR33">
            <journal_title>Eur J Prosthodont Restor Dent</journal_title>
            <author>De la Macorra JC</author>
            <volume>4</volume>
            <first_page>29</first_page>
            <cYear>1996</cYear>
            <unstructured_citation>
                    De la Macorra JC, Gomez-Fernandez S. 
                    Quantification of the configuration factor in Class I and Class II cavities and simulated cervical erosions 
                    Eur J Prosthodont Restor Dent  
                    1996; 
                    4
                    : 29-33.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR34">
            <journal_title>J Endodont</journal_title>
            <author>Tay F</author>
            <volume>31</volume>
            <first_page>564</first_page>
            <cYear>2005</cYear>
            <unstructured_citation>
                    Tay F, Lousbinen RJ, Lambrechts P, Weller RN, Pashley DH. 
                    Geometric factor affecting dentine bonding in root canals: a theorethical modelling approach 
                    J Endodont  
                    2005; 
                    31
                    : 564-88.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR35">
            <journal_title>Dent Mater</journal_title>
            <author>Lehtinen J</author>
            <volume>24</volume>
            <first_page>1324</first_page>
            <cYear>2008</cYear>
            <unstructured_citation>
                    Lehtinen J, Laurila T, Lassila LVJ, et al. 
                    Optical characterization of bisphenol-A-glycidyldimethacrylate-triethylene glycoldimethacryalate monomers and copolymers 
                    Dent Mater  
                    2008; 
                    24
                    (10
                )
                    : 1324-8.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR36">
            <journal_title>J Biomed Mater Res Part B Appl Biomater</journal_title>
            <author>Bouillaguet S</author>
            <volume>76</volume>
            <first_page>98</first_page>
            <cYear>2006</cYear>
            <unstructured_citation>
                    Bouillaguet S, Schutt A, Alander P. 
                    Hydrothermal and mechanical stresses degarde fiber-matrix interfacial bond strength in dental fiber-reinforced composites 
                    J Biomed Mater Res Part B Appl Biomater  
                    2006; 
                    76
                    : 98-105.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR37">
            <journal_title>Dent Mater</journal_title>
            <author>Pastila P</author>
            <volume>23</volume>
            <first_page>878</first_page>
            <cYear>2007</cYear>
            <unstructured_citation>
                    Pastila P, Lassila LVJ, Jokinen M, Vuorinen J, Vallittu PK, Mäntylä T. 
                    Effect of short-term water storage on the elsatic properties of some dental restorative materials: an ultrasound spectroscopy study 
                    Dent Mater  
                    2007; 
                    23
                    (7
                )
                    : 878-4.
                    
                </unstructured_citation>
          </citation>
          <citation key="refR38">
            <journal_title>J Biomater Sci Polym Ed</journal_title>
            <author>Viljanen EK</author>
            <volume>16</volume>
            <first_page>1219</first_page>
            <cYear>2005</cYear>
            <unstructured_citation>
                    Viljanen EK, Skrifvars M, Vallittu PK. 
                    Dendrimer/methyl methacrylate copolymers: residual methyl methacrylate and degree of conversion 
                    J Biomater Sci Polym Ed  
                    2005; 
                    16
                    : 1219-31.
                    
                </unstructured_citation>
          </citation>
        </citation_list>
      </journal_article>
    </journal>
  </body>
</doi_batch>
