SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2918612470> ?p ?o ?g. }

Showing items 1 to 100 of ±167 with 100 items per page.

W2918612470 endingPage "138" @default.
W2918612470 startingPage "126" @default.
W2918612470 abstract "In the last decades, the decellularization (DC) of organs has become an established technique in the field of regenerative medicine to yield complex and vascularized bioscaffolds. Furthermore, it has been demonstrated in vitro that these decellularized scaffolds retain their native tissue-specificity. This is also the case when this tissue-specific extracellular matrix (ECM) is solubilized and used as hydrogels or coatings to create a biomimetic environment. In this study we investigated if this specificity not only remains when applied to distinct tissues but even more, that these differences can be distinguished within the same tissue at different stages of proliferation. To address this question, a sensitive in vitro animal model was used: rabbit embryos at the third day of development were cultured on coatings made from acellular endometrium that was non-proliferating (non-synchronous, NS) and proliferating (synchronous with the embryo, S) and their development was compared. For this, we obtained whole NS and S rabbit uteri and subjected them to an adapted decellularization protocol. The acellular endometrium was carefully separated by microdissection and converted into a pre-gel solution to be used as hydrogels and coatings for in vitro assays. First, the characteristics of these NS and S hydrogels were investigated by proteomic analysis, electron microscopy and gelling kinetics. When used as substrata for day 3 embryos culture, it became apparent that only the acellular ECM from synchronous endometrial coating achieved similar results to the gold standard culture protocols and conditions, possibly because of the slow release of growth factors present in the synchronous/proliferating endometrium. It has been shown by in vitro culture of stem cells, progenitor cells and primary culture cells that decellularized tissues retain their specific functions and biochemical and structural compositions. The present work demonstrates that using a mild SDS and perfusion based decellularization (DC) protocol not only effectively decellularize whole rabbit uteri, adding to the growing field of reproductive tissue engineering, but more importantly that the differences in the proliferating endometrium are translated after DC. This implies that DC not only retains the interspecificity of tissues but also the intraspecificity of a developing hormonally stimulated tissue. For the first time, we demonstrate that the coating from decellularized synchronous endometrium acts as a biological support for in vitro embryo development, achieving comparable results with the current gold standard that only uses serum-containing media." @default.
W2918612470 created "2019-03-11" @default.
W2918612470 creator A5014138630 @default.
W2918612470 creator A5017454107 @default.
W2918612470 creator A5035470054 @default.
W2918612470 creator A5037102206 @default.
W2918612470 creator A5041051156 @default.
W2918612470 creator A5044522096 @default.
W2918612470 creator A5091600128 @default.
W2918612470 date "2019-04-01" @default.
W2918612470 modified "2023-10-14" @default.
W2918612470 title "Tissue-specific decellularized endometrial substratum mimicking different physiological conditions influences in vitro embryo development in a rabbit model" @default.
W2918612470 cites W132584467 @default.
W2918612470 cites W139419163 @default.
W2918612470 cites W1858536302 @default.
W2918612470 cites W1963795951 @default.
W2918612470 cites W1963963106 @default.
W2918612470 cites W1964907874 @default.
W2918612470 cites W1967540288 @default.
W2918612470 cites W1967735289 @default.
W2918612470 cites W1971833758 @default.
W2918612470 cites W1972006944 @default.
W2918612470 cites W1979462929 @default.
W2918612470 cites W1990062453 @default.
W2918612470 cites W1995576889 @default.
W2918612470 cites W2001695225 @default.
W2918612470 cites W2001926428 @default.
W2918612470 cites W2004741469 @default.
W2918612470 cites W2013072786 @default.
W2918612470 cites W2022955538 @default.
W2918612470 cites W2023167946 @default.
W2918612470 cites W2027200579 @default.
W2918612470 cites W2029569090 @default.
W2918612470 cites W2036279456 @default.
W2918612470 cites W2042022714 @default.
W2918612470 cites W2052144873 @default.
W2918612470 cites W2053353431 @default.
W2918612470 cites W2059486645 @default.
W2918612470 cites W2064441872 @default.
W2918612470 cites W2065387405 @default.
W2918612470 cites W2071381090 @default.
W2918612470 cites W2075892088 @default.
W2918612470 cites W2088514277 @default.
W2918612470 cites W2101228997 @default.
W2918612470 cites W2109160378 @default.
W2918612470 cites W2115129497 @default.
W2918612470 cites W2122468557 @default.
W2918612470 cites W2126024920 @default.
W2918612470 cites W2126061952 @default.
W2918612470 cites W2128841559 @default.
W2918612470 cites W2134427620 @default.
W2918612470 cites W2136161517 @default.
W2918612470 cites W2136626461 @default.
W2918612470 cites W2146646647 @default.
W2918612470 cites W2159118740 @default.
W2918612470 cites W2168725031 @default.
W2918612470 cites W2213423782 @default.
W2918612470 cites W2215589249 @default.
W2918612470 cites W2238654667 @default.
W2918612470 cites W2287025129 @default.
W2918612470 cites W2308714122 @default.
W2918612470 cites W2317606418 @default.
W2918612470 cites W2382575049 @default.
W2918612470 cites W2540344707 @default.
W2918612470 cites W2557975987 @default.
W2918612470 cites W2586123813 @default.
W2918612470 cites W2587225206 @default.
W2918612470 cites W2601277777 @default.
W2918612470 cites W2611702286 @default.
W2918612470 cites W2618065155 @default.
W2918612470 cites W2655169797 @default.
W2918612470 cites W2747830013 @default.
W2918612470 cites W2750265290 @default.
W2918612470 cites W2764207949 @default.
W2918612470 cites W2768992437 @default.
W2918612470 cites W2772036742 @default.
W2918612470 cites W2778870388 @default.
W2918612470 cites W2784276418 @default.
W2918612470 cites W2805260639 @default.
W2918612470 cites W2820380293 @default.
W2918612470 cites W4230240787 @default.
W2918612470 doi "https://doi.org/10.1016/j.actbio.2019.03.004" @default.
W2918612470 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30849561" @default.
W2918612470 hasPublicationYear "2019" @default.
W2918612470 type Work @default.
W2918612470 sameAs 2918612470 @default.
W2918612470 citedByCount "39" @default.
W2918612470 countsByYear W29186124702019 @default.
W2918612470 countsByYear W29186124702020 @default.
W2918612470 countsByYear W29186124702021 @default.
W2918612470 countsByYear W29186124702022 @default.
W2918612470 countsByYear W29186124702023 @default.
W2918612470 crossrefType "journal-article" @default.
W2918612470 hasAuthorship W2918612470A5014138630 @default.
W2918612470 hasAuthorship W2918612470A5017454107 @default.
W2918612470 hasAuthorship W2918612470A5035470054 @default.
W2918612470 hasAuthorship W2918612470A5037102206 @default.
W2918612470 hasAuthorship W2918612470A5041051156 @default.