SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2002808485> ?p ?o ?g. }

Showing items 1 to 100 of ±110 with 100 items per page.

W2002808485 endingPage "6505" @default.
W2002808485 startingPage "6496" @default.
W2002808485 abstract "Three types of bioactive polymethylmethacrylate (PMMA)-based bone cement containing nano-sized titania (TiO2) particles were prepared, and their mechanical properties and osteoconductivity are evaluated. The three types of bioactive bone cement were T50c, ST50c, and ST60c, which contained 50 wt% TiO2, and 50 and 60 wt% silanized TiO2, respectively. Commercially available PMMA cement (PMMAc) was used as a control. The cements were inserted into rat tibiae and allowed to solidify in situ. After 6 and 12 weeks, tibiae were removed for evaluation of osteoconductivity using scanning electron microscopy (SEM), contact microradiography (CMR), and Giemsa surface staining. SEM revealed that ST60c and ST50c were directly apposed to bone while T50c and PMMAc were not. The osteoconduction of ST60c was significantly better than that of the other cements at each time interval, and the osteoconduction of T50c was no better than that of PMMAc. The compressive strength of ST60c was equivalent to that of PMMAc. These results show that ST60c is a promising material for use as a bone substitute." @default.
W2002808485 created "2016-06-24" @default.
W2002808485 creator A5015645132 @default.
W2002808485 creator A5028295470 @default.
W2002808485 creator A5055622982 @default.
W2002808485 creator A5058544252 @default.
W2002808485 creator A5062017208 @default.
W2002808485 creator A5073923559 @default.
W2002808485 creator A5086485936 @default.
W2002808485 creator A5089320111 @default.
W2002808485 date "2005-11-01" @default.
W2002808485 modified "2023-10-18" @default.
W2002808485 title "Bioactive bone cements containing nano-sized titania particles for use as bone substitutes" @default.
W2002808485 cites W109479770 @default.
W2002808485 cites W144948099 @default.
W2002808485 cites W169161945 @default.
W2002808485 cites W1957982496 @default.
W2002808485 cites W1967772773 @default.
W2002808485 cites W1979552958 @default.
W2002808485 cites W1982119449 @default.
W2002808485 cites W1990919557 @default.
W2002808485 cites W2002564144 @default.
W2002808485 cites W2010181429 @default.
W2002808485 cites W2012963487 @default.
W2002808485 cites W2021211055 @default.
W2002808485 cites W2022075397 @default.
W2002808485 cites W2033130198 @default.
W2002808485 cites W2033506481 @default.
W2002808485 cites W2035851075 @default.
W2002808485 cites W2036562701 @default.
W2002808485 cites W2042566803 @default.
W2002808485 cites W2045702479 @default.
W2002808485 cites W2047416882 @default.
W2002808485 cites W2054551124 @default.
W2002808485 cites W2075997312 @default.
W2002808485 cites W2078246069 @default.
W2002808485 cites W2083271457 @default.
W2002808485 cites W2118139713 @default.
W2002808485 cites W2118380779 @default.
W2002808485 cites W2150628505 @default.
W2002808485 cites W2181955543 @default.
W2002808485 cites W2288312232 @default.
W2002808485 cites W39154245 @default.
W2002808485 doi "https://doi.org/10.1016/j.biomaterials.2005.04.044" @default.
W2002808485 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/15941580" @default.
W2002808485 hasPublicationYear "2005" @default.
W2002808485 type Work @default.
W2002808485 sameAs 2002808485 @default.
W2002808485 citedByCount "101" @default.
W2002808485 countsByYear W20028084852012 @default.
W2002808485 countsByYear W20028084852013 @default.
W2002808485 countsByYear W20028084852014 @default.
W2002808485 countsByYear W20028084852015 @default.
W2002808485 countsByYear W20028084852016 @default.
W2002808485 countsByYear W20028084852017 @default.
W2002808485 countsByYear W20028084852018 @default.
W2002808485 countsByYear W20028084852019 @default.
W2002808485 countsByYear W20028084852020 @default.
W2002808485 countsByYear W20028084852021 @default.
W2002808485 countsByYear W20028084852022 @default.
W2002808485 countsByYear W20028084852023 @default.
W2002808485 crossrefType "journal-article" @default.
W2002808485 hasAuthorship W2002808485A5015645132 @default.
W2002808485 hasAuthorship W2002808485A5028295470 @default.
W2002808485 hasAuthorship W2002808485A5055622982 @default.
W2002808485 hasAuthorship W2002808485A5058544252 @default.
W2002808485 hasAuthorship W2002808485A5062017208 @default.
W2002808485 hasAuthorship W2002808485A5073923559 @default.
W2002808485 hasAuthorship W2002808485A5086485936 @default.
W2002808485 hasAuthorship W2002808485A5089320111 @default.
W2002808485 hasBestOaLocation W20028084852 @default.
W2002808485 hasConcept C136229726 @default.
W2002808485 hasConcept C159985019 @default.
W2002808485 hasConcept C192562407 @default.
W2002808485 hasConcept C26771246 @default.
W2002808485 hasConcept C2778891590 @default.
W2002808485 hasConcept C30407753 @default.
W2002808485 hasConcept C523993062 @default.
W2002808485 hasConcept C71924100 @default.
W2002808485 hasConceptScore W2002808485C136229726 @default.
W2002808485 hasConceptScore W2002808485C159985019 @default.
W2002808485 hasConceptScore W2002808485C192562407 @default.
W2002808485 hasConceptScore W2002808485C26771246 @default.
W2002808485 hasConceptScore W2002808485C2778891590 @default.
W2002808485 hasConceptScore W2002808485C30407753 @default.
W2002808485 hasConceptScore W2002808485C523993062 @default.
W2002808485 hasConceptScore W2002808485C71924100 @default.
W2002808485 hasIssue "33" @default.
W2002808485 hasLocation W20028084851 @default.
W2002808485 hasLocation W20028084852 @default.
W2002808485 hasLocation W20028084853 @default.
W2002808485 hasOpenAccess W2002808485 @default.
W2002808485 hasPrimaryLocation W20028084851 @default.
W2002808485 hasRelatedWork W1483029066 @default.
W2002808485 hasRelatedWork W1964049316 @default.
W2002808485 hasRelatedWork W1987981811 @default.
W2002808485 hasRelatedWork W2046086292 @default.
W2002808485 hasRelatedWork W2074431595 @default.