SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3100309182> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W3100309182 endingPage "607" @default.
W3100309182 startingPage "607" @default.
W3100309182 abstract "Background and objective: The aim of the present study was to establish a new differentiation protocol using cannabidiol (CBD) and vitamin D3 (Vit. D3) for a better and faster osteogenic differentiation of dental tissue derived mesenchymal stem cells (MSCs). Materials and methods: MSCs were harvested from dental follicle (DFSCs), dental pulp (DPSCs), and apical papilla (APSCs) of an impacted third molar of a 17-year old patient. The stem cells were isolated and characterized using flow cytometry; reverse transcription polymerase chain reaction (RT-PCR); and osteogenic, chondrogenic, and adipogenic differentiation. The effects of CBD and Vit. D3 on osteogenic differentiation of dental-derived stem cell were evaluated in terms of viability/metabolic activity by alamar test, expression of collagen1A, osteopontin (OP), osteocalcin (OC), and osteonectin genes and by quantification of calcium deposits by alizarin red assay. Results: Stem cell characterization revealed more typical stemness characteristics for DFSCs and DPSCs and atypical morphology and markers expression for APSCs, a phenotype that was confirmed by differences in multipotential ability. The RT-PCR quantification of bone matrix proteins expression revealed a different behavior for each cell type, APSCs having the best response for CBD. DPSCs showed the best osteogenic potential when treated with Vit. D3. Cultivation of DFSC in standard stem cell conditions induced the highest expression of osteogenic genes, suggesting the spontaneous differentiation capacity of these cells. Regarding mineralization, alizarin red assay indicated that DFSCs and APSCs were the most responsive to low doses of CBD and Vit. D3. DPSCs had the lowest mineralization levels, with a slightly better response to Vit. D3. Conclusions: This study provides evidence that DFSCs, DPSCs, and APSCs respond differently to osteoinduction stimuli and that CBD and Vit. D3 can enhance osteogenic differentiation of these types of cells under certain conditions and doses." @default.
W3100309182 created "2020-11-23" @default.
W3100309182 creator A5022574538 @default.
W3100309182 creator A5025159378 @default.
W3100309182 creator A5026329148 @default.
W3100309182 creator A5030227717 @default.
W3100309182 creator A5035987098 @default.
W3100309182 creator A5050838428 @default.
W3100309182 creator A5054569695 @default.
W3100309182 creator A5064374408 @default.
W3100309182 creator A5064582725 @default.
W3100309182 creator A5065055908 @default.
W3100309182 creator A5089670304 @default.
W3100309182 date "2020-11-12" @default.
W3100309182 modified "2023-10-18" @default.
W3100309182 title "Cannabidiol and Vitamin D3 Impact on Osteogenic Differentiation of Human Dental Mesenchymal Stem Cells" @default.
W3100309182 cites W1166458116 @default.
W3100309182 cites W1827855608 @default.
W3100309182 cites W1872022504 @default.
W3100309182 cites W1970924172 @default.
W3100309182 cites W1971040809 @default.
W3100309182 cites W1988634174 @default.
W3100309182 cites W1988986529 @default.
W3100309182 cites W1990210398 @default.
W3100309182 cites W1992013550 @default.
W3100309182 cites W2010972120 @default.
W3100309182 cites W2016901545 @default.
W3100309182 cites W2019635786 @default.
W3100309182 cites W2025371271 @default.
W3100309182 cites W2036963690 @default.
W3100309182 cites W2045574035 @default.
W3100309182 cites W2062758275 @default.
W3100309182 cites W2096377797 @default.
W3100309182 cites W2108580248 @default.
W3100309182 cites W2128061107 @default.
W3100309182 cites W2130516299 @default.
W3100309182 cites W2135036101 @default.
W3100309182 cites W2143825529 @default.
W3100309182 cites W2156163245 @default.
W3100309182 cites W2161351679 @default.
W3100309182 cites W2165884167 @default.
W3100309182 cites W2187067654 @default.
W3100309182 cites W2197098174 @default.
W3100309182 cites W2216632465 @default.
W3100309182 cites W2292674130 @default.
W3100309182 cites W2593848038 @default.
W3100309182 cites W2605179268 @default.
W3100309182 cites W2616495003 @default.
W3100309182 cites W2620407926 @default.
W3100309182 cites W2633476566 @default.
W3100309182 cites W2639351011 @default.
W3100309182 cites W2774398092 @default.
W3100309182 cites W2794133103 @default.
W3100309182 cites W2799666301 @default.
W3100309182 cites W2899145776 @default.
W3100309182 cites W2899178445 @default.
W3100309182 cites W2900516297 @default.
W3100309182 cites W2909956080 @default.
W3100309182 cites W2911396079 @default.
W3100309182 cites W2933360032 @default.
W3100309182 cites W2944076101 @default.
W3100309182 cites W2959268805 @default.
W3100309182 cites W2967000035 @default.
W3100309182 cites W2991140285 @default.
W3100309182 cites W2998014803 @default.
W3100309182 cites W2999953066 @default.
W3100309182 cites W3013716232 @default.
W3100309182 cites W3014357407 @default.
W3100309182 cites W3034589513 @default.
W3100309182 cites W3036346690 @default.
W3100309182 cites W3053938843 @default.
W3100309182 cites W3093290030 @default.
W3100309182 doi "https://doi.org/10.3390/medicina56110607" @default.
W3100309182 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7697067" @default.
W3100309182 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33198232" @default.
W3100309182 hasPublicationYear "2020" @default.
W3100309182 type Work @default.
W3100309182 sameAs 3100309182 @default.
W3100309182 citedByCount "17" @default.
W3100309182 countsByYear W31003091822021 @default.
W3100309182 countsByYear W31003091822022 @default.
W3100309182 countsByYear W31003091822023 @default.
W3100309182 crossrefType "journal-article" @default.
W3100309182 hasAuthorship W3100309182A5022574538 @default.
W3100309182 hasAuthorship W3100309182A5025159378 @default.
W3100309182 hasAuthorship W3100309182A5026329148 @default.
W3100309182 hasAuthorship W3100309182A5030227717 @default.
W3100309182 hasAuthorship W3100309182A5035987098 @default.
W3100309182 hasAuthorship W3100309182A5050838428 @default.
W3100309182 hasAuthorship W3100309182A5054569695 @default.
W3100309182 hasAuthorship W3100309182A5064374408 @default.
W3100309182 hasAuthorship W3100309182A5064582725 @default.
W3100309182 hasAuthorship W3100309182A5065055908 @default.
W3100309182 hasAuthorship W3100309182A5089670304 @default.
W3100309182 hasBestOaLocation W31003091821 @default.
W3100309182 hasConcept C104317684 @default.
W3100309182 hasConcept C131075544 @default.
W3100309182 hasConcept C142724271 @default.