FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2076223208> ?p ?o ?g. }

• W2076223208 endingPage "87" @default.
• W2076223208 startingPage "78" @default.
• W2076223208 abstract "Background: The importance of the surface properties of implants for a successful osseointegration has been emphasized. It is generally known that bone response to implant surfaces is considerably related to the various surface properties. Purpose: The purpose of this study was to investigate bone tissue reactions to multifactorial biocompatibility of the surface oxide of electrochemically oxidized titanium implants. The ultimate objective was to improve surface quality, resulting in enhancement of clinical outcomes of osseointegrated implants. Materials and Methods: Three different surface types of commercially pure titanium (c.p. Ti) implants were prepared. Turned implants were used for controls and test implants were prepared by the micro arc oxidation (MAO) method, either in sulphuric acid (S implants) or in phosphoric acid (P implants). Implants were inserted in the femur and tibia of 10 mature New Zealand White rabbits. The bone response was evaluated by biomechanical tests, histology, and histomorphometry. The follow-up time was 6 weeks. Results: The mean peak values of the removal torque showed significant differences between control and test S implants (p =.022) but showed no significant differences between control and test P implants (p =.195) or between test S and test P implants (p =.457). In addition, the histomorphometric comparisons of the bone-to-metal contact around entire implants demonstrated 186% increase in S implants (p =.028) and 232% increase in P implants (p =.028) compared with the paired control groups. Quantification of the bone area in the threads did not show any significant differences. Conclusions: The present results suggest that the primary mode of action in strong bone response to S implants is mechanical interlocking, and to P implants, it is biochemical interaction. It is possible that the phosphate groups in the titanium oxide of P implants provide potential chemical bonding sites for calcium ions and hydroxyapatite of the bone matrix during biologic mineralization." @default.
• W2076223208 created "2016-06-24" @default.
• W2076223208 creator A5052148012 @default.
• W2076223208 creator A5058826098 @default.
• W2076223208 creator A5063092896 @default.
• W2076223208 creator A5065429125 @default.
• W2076223208 creator A5075045502 @default.
• W2076223208 date "2002-07-01" @default.
• W2076223208 modified "2023-10-16" @default.
• W2076223208 title "Bone Reactions to Oxidized Titanium Implants with Electrochemical Anion Sulphuric Acid and Phosphoric Acid Incorporation" @default.
• W2076223208 cites W1510953254 @default.
• W2076223208 cites W152831221 @default.
• W2076223208 cites W1966497400 @default.
• W2076223208 cites W1986053269 @default.
• W2076223208 cites W1993683023 @default.
• W2076223208 cites W2012408429 @default.
• W2076223208 cites W2018656172 @default.
• W2076223208 cites W2026286211 @default.
• W2076223208 cites W2032358882 @default.
• W2076223208 cites W2044023464 @default.
• W2076223208 cites W2054127989 @default.
• W2076223208 cites W2061412471 @default.
• W2076223208 cites W2085435492 @default.
• W2076223208 cites W2104672007 @default.
• W2076223208 cites W2107941406 @default.
• W2076223208 cites W2107986553 @default.
• W2076223208 cites W2141542020 @default.
• W2076223208 cites W2146463539 @default.
• W2076223208 cites W4246420801 @default.
• W2076223208 doi "https://doi.org/10.1111/j.1708-8208.2002.tb00156.x" @default.
• W2076223208 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/12121607" @default.
• W2076223208 hasPublicationYear "2002" @default.
• W2076223208 type Work @default.
• W2076223208 sameAs 2076223208 @default.
• W2076223208 citedByCount "101" @default.
• W2076223208 countsByYear W20762232082012 @default.
• W2076223208 countsByYear W20762232082013 @default.
• W2076223208 countsByYear W20762232082014 @default.
• W2076223208 countsByYear W20762232082015 @default.
• W2076223208 countsByYear W20762232082016 @default.
• W2076223208 countsByYear W20762232082017 @default.
• W2076223208 countsByYear W20762232082018 @default.
• W2076223208 countsByYear W20762232082019 @default.
• W2076223208 countsByYear W20762232082020 @default.
• W2076223208 countsByYear W20762232082021 @default.
• W2076223208 countsByYear W20762232082022 @default.
• W2076223208 countsByYear W20762232082023 @default.
• W2076223208 crossrefType "journal-article" @default.
• W2076223208 hasAuthorship W2076223208A5052148012 @default.
• W2076223208 hasAuthorship W2076223208A5058826098 @default.
• W2076223208 hasAuthorship W2076223208A5063092896 @default.
• W2076223208 hasAuthorship W2076223208A5065429125 @default.
• W2076223208 hasAuthorship W2076223208A5075045502 @default.
• W2076223208 hasConcept C101414908 @default.
• W2076223208 hasConcept C136229726 @default.
• W2076223208 hasConcept C141071460 @default.
• W2076223208 hasConcept C191897082 @default.
• W2076223208 hasConcept C192562407 @default.
• W2076223208 hasConcept C199343813 @default.
• W2076223208 hasConcept C2776622989 @default.
• W2076223208 hasConcept C2777230088 @default.
• W2076223208 hasConcept C2777236700 @default.
• W2076223208 hasConcept C2781411149 @default.
• W2076223208 hasConcept C506065880 @default.
• W2076223208 hasConcept C71924100 @default.
• W2076223208 hasConceptScore W2076223208C101414908 @default.
• W2076223208 hasConceptScore W2076223208C136229726 @default.
• W2076223208 hasConceptScore W2076223208C141071460 @default.
• W2076223208 hasConceptScore W2076223208C191897082 @default.
• W2076223208 hasConceptScore W2076223208C192562407 @default.
• W2076223208 hasConceptScore W2076223208C199343813 @default.
• W2076223208 hasConceptScore W2076223208C2776622989 @default.
• W2076223208 hasConceptScore W2076223208C2777230088 @default.
• W2076223208 hasConceptScore W2076223208C2777236700 @default.
• W2076223208 hasConceptScore W2076223208C2781411149 @default.
• W2076223208 hasConceptScore W2076223208C506065880 @default.
• W2076223208 hasConceptScore W2076223208C71924100 @default.
• W2076223208 hasIssue "2" @default.
• W2076223208 hasLocation W20762232081 @default.
• W2076223208 hasLocation W20762232082 @default.
• W2076223208 hasOpenAccess W2076223208 @default.
• W2076223208 hasPrimaryLocation W20762232081 @default.
• W2076223208 hasRelatedWork W1914206384 @default.
• W2076223208 hasRelatedWork W2001764992 @default.
• W2076223208 hasRelatedWork W2122914998 @default.
• W2076223208 hasRelatedWork W2176597632 @default.
• W2076223208 hasRelatedWork W2393655250 @default.
• W2076223208 hasRelatedWork W2480464219 @default.
• W2076223208 hasRelatedWork W2519784353 @default.
• W2076223208 hasRelatedWork W2808996660 @default.
• W2076223208 hasRelatedWork W3036179086 @default.
• W2076223208 hasRelatedWork W4206186875 @default.
• W2076223208 hasVolume "4" @default.
• W2076223208 isParatext "false" @default.
• W2076223208 isRetracted "false" @default.
• W2076223208 magId "2076223208" @default.
• W2076223208 workType "article" @default.