SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3038888959> ?p ?o ?g. }

Showing items 1 to 100 of ±159 with 100 items per page.

W3038888959 endingPage "2047" @default.
W3038888959 startingPage "2047" @default.
W3038888959 abstract "Animal studies and the scarce clinical trials available that have been conducted suggest that bioactive surfaces on dental implants could improve the osseointegration of such implants. The purpose of this systematic review was to compare the effectiveness of osseointegration of titanium (Ti) dental implants using bioactive surfaces with that of Ti implants using conventional surfaces such as sandblasted large-grit acid-etched (SLA) or similar surfaces. Applying the guidelines of the Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) statement, the MEDLINE, PubMed Central and Web of Science databases were searched for scientific articles in April 2020. The keywords used were “dental implants”, “bioactive surfaces”, “biofunctionalized surfaces”, and “osseointegration”, according to the question: “Do bioactive dental implant surfaces have greater osseointegration capacity compared with conventional implant surfaces?” Risk of bias was assessed using the Cochrane Collaboration tool. 128 studies were identified, of which only 30 met the inclusion criteria: 3 clinical trials and 27 animal studies. The average STROBE (STrengthening the Reporting of OBservational studies in Epidemiology) and ARRIVE (Animal Research: Reporting of In Vivo Experiments) scores were 15.13 ± 2.08 and 17.7±1.4, respectively. Implant stability quotient (ISQ) was reported in 3 studies; removal torque test (RTT)—in 1 study; intraoral periapical X-ray and microcomputed tomography radiological evaluation (RE)—in 4 studies; shear force (SF)—in 1 study; bone-to-implant contact (BIC)—in 12 studies; and BIC and bone area (BA) jointly—in 5 studies. All animal studies reported better bone-to-implant contact surface for bioactive surfaces as compared to control implants with a statistical significance of p < 0.05. Regarding the bioactive surfaces investigated, the best results were yielded by the one where mechanical and chemical treatment methods of the Ti surfaces were combined. Hydroxyapatite (HA) and calcium–phosphate (Ca–Ph) were the most frequently used bioactive surfaces. According to the results of this systematic review, certain bioactive surfaces have a positive effect on osseointegration, although certain coating biomolecules seem to influence early peri-implant bone formation. Further and more in-depth research in this field is required to reduce the time needed for osseointegration of dental implants." @default.
W3038888959 created "2020-07-10" @default.
W3038888959 creator A5012559922 @default.
W3038888959 creator A5028403646 @default.
W3038888959 creator A5034127217 @default.
W3038888959 creator A5039877909 @default.
W3038888959 creator A5060936591 @default.
W3038888959 creator A5061372311 @default.
W3038888959 date "2020-06-29" @default.
W3038888959 modified "2023-10-02" @default.
W3038888959 title "Bioactive Surfaces vs. Conventional Surfaces in Titanium Dental Implants: A Comparative Systematic Review" @default.
W3038888959 cites W10606231 @default.
W3038888959 cites W1764917471 @default.
W3038888959 cites W1908716399 @default.
W3038888959 cites W1911780912 @default.
W3038888959 cites W1951506620 @default.
W3038888959 cites W1968931033 @default.
W3038888959 cites W1970130930 @default.
W3038888959 cites W1973714798 @default.
W3038888959 cites W1974661733 @default.
W3038888959 cites W1975810455 @default.
W3038888959 cites W1983068332 @default.
W3038888959 cites W1983926265 @default.
W3038888959 cites W1985945187 @default.
W3038888959 cites W1987357574 @default.
W3038888959 cites W1989477419 @default.
W3038888959 cites W1989923198 @default.
W3038888959 cites W1992216439 @default.
W3038888959 cites W1992394172 @default.
W3038888959 cites W1993841449 @default.
W3038888959 cites W1993963133 @default.
W3038888959 cites W2008245485 @default.
W3038888959 cites W2016693437 @default.
W3038888959 cites W2017103564 @default.
W3038888959 cites W2019639357 @default.
W3038888959 cites W2022909442 @default.
W3038888959 cites W2024154817 @default.
W3038888959 cites W2027862199 @default.
W3038888959 cites W2031803047 @default.
W3038888959 cites W2054140759 @default.
W3038888959 cites W2055012480 @default.
W3038888959 cites W2056773589 @default.
W3038888959 cites W2059368890 @default.
W3038888959 cites W2063595983 @default.
W3038888959 cites W206360630 @default.
W3038888959 cites W2063912987 @default.
W3038888959 cites W2066518402 @default.
W3038888959 cites W2079279159 @default.
W3038888959 cites W2082420098 @default.
W3038888959 cites W2084841778 @default.
W3038888959 cites W2116790557 @default.
W3038888959 cites W2116810060 @default.
W3038888959 cites W2120460410 @default.
W3038888959 cites W2125685916 @default.
W3038888959 cites W2125858131 @default.
W3038888959 cites W2128211151 @default.
W3038888959 cites W2128788864 @default.
W3038888959 cites W2132760767 @default.
W3038888959 cites W2132917352 @default.
W3038888959 cites W2151005356 @default.
W3038888959 cites W2153043827 @default.
W3038888959 cites W2161494295 @default.
W3038888959 cites W2166336322 @default.
W3038888959 cites W2177004297 @default.
W3038888959 cites W2187544091 @default.
W3038888959 cites W2275678568 @default.
W3038888959 cites W2314434775 @default.
W3038888959 cites W2331797762 @default.
W3038888959 cites W2402061050 @default.
W3038888959 cites W2412585326 @default.
W3038888959 cites W2581613555 @default.
W3038888959 cites W2763054471 @default.
W3038888959 cites W2763186344 @default.
W3038888959 cites W2775209391 @default.
W3038888959 cites W2778804857 @default.
W3038888959 cites W2780245070 @default.
W3038888959 cites W2896624655 @default.
W3038888959 cites W2900293902 @default.
W3038888959 cites W2904670465 @default.
W3038888959 cites W2906642081 @default.
W3038888959 cites W2920013737 @default.
W3038888959 cites W2921596311 @default.
W3038888959 cites W2944763188 @default.
W3038888959 cites W2948030743 @default.
W3038888959 cites W2955993300 @default.
W3038888959 cites W2980824778 @default.
W3038888959 cites W2989849908 @default.
W3038888959 cites W2991517293 @default.
W3038888959 cites W2999564635 @default.
W3038888959 cites W3005505772 @default.
W3038888959 cites W3008429520 @default.
W3038888959 cites W4239301040 @default.
W3038888959 cites W4285719527 @default.
W3038888959 cites W4298162698 @default.
W3038888959 cites W56302990 @default.
W3038888959 doi "https://doi.org/10.3390/jcm9072047" @default.
W3038888959 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7408888" @default.
W3038888959 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32610687" @default.