SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311689596> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W4311689596 endingPage "114140" @default.
W4311689596 startingPage "114140" @default.
W4311689596 abstract "Large skin defects caused by accidents or disease can cause fluid loss, water and electrolyte disorders, hypoproteinemia and serious infection and remain a difficult problem in clinical practice. In situ bioprinting is a promising, recently developed technology that involves timely, customized, and morphologically adapted bioprinting of bioink into tissue defects to promote the recovery of human tissues or organs. During this process, bioink is a key factor. In this study, we synthesized a biocompatible, photosensitive hydrogel material comprising gelatin methacrylate (GelMA) for robot-assisted in situ bioprinting of skin wounds. The results showed that GelMA demonstrated good printability of that supported the proliferation of skin-derived precursors (SKPs) and maintained their properties. Furthermore, in situ bioprinting of GelMA hydrogels with epidermal stem cells (Epi-SCs) and SKPs onto skin wounds showed complete wound healing and functional tissue skin regeneration. The regenerated skin contains epidermis, dermis, blood vessels, hair follicles, and sebaceous glands and resembling native skin. These results provide an effective strategy for skin repair through the combined application of GelMA hydrogels, Epi-SCs, SKPs and in situ bioprinting and its promising clinical translational potential for further applications." @default.
W4311689596 created "2022-12-28" @default.
W4311689596 creator A5059343631 @default.
W4311689596 creator A5064400084 @default.
W4311689596 creator A5072157204 @default.
W4311689596 creator A5074578838 @default.
W4311689596 creator A5079248227 @default.
W4311689596 creator A5081656092 @default.
W4311689596 date "2023-02-01" @default.
W4311689596 modified "2023-10-17" @default.
W4311689596 title "Robot-assisted in situ bioprinting of gelatin methacrylate hydrogels with stem cells induces hair follicle-inclusive skin regeneration" @default.
W4311689596 cites W1481145212 @default.
W4311689596 cites W1739944755 @default.
W4311689596 cites W1937091029 @default.
W4311689596 cites W1963586205 @default.
W4311689596 cites W1975784203 @default.
W4311689596 cites W1977656499 @default.
W4311689596 cites W1984693616 @default.
W4311689596 cites W1987407032 @default.
W4311689596 cites W2011160761 @default.
W4311689596 cites W2011202983 @default.
W4311689596 cites W2018449783 @default.
W4311689596 cites W2020969391 @default.
W4311689596 cites W2026185209 @default.
W4311689596 cites W2027186108 @default.
W4311689596 cites W2043950060 @default.
W4311689596 cites W2048644480 @default.
W4311689596 cites W2062836206 @default.
W4311689596 cites W2063333995 @default.
W4311689596 cites W2064698710 @default.
W4311689596 cites W2065465240 @default.
W4311689596 cites W2080015819 @default.
W4311689596 cites W2087759495 @default.
W4311689596 cites W2095158937 @default.
W4311689596 cites W2099064177 @default.
W4311689596 cites W2110507992 @default.
W4311689596 cites W2112226869 @default.
W4311689596 cites W2132670761 @default.
W4311689596 cites W2138562294 @default.
W4311689596 cites W2156316333 @default.
W4311689596 cites W2162140499 @default.
W4311689596 cites W2169427531 @default.
W4311689596 cites W2416445148 @default.
W4311689596 cites W2461744008 @default.
W4311689596 cites W2488465026 @default.
W4311689596 cites W2547699807 @default.
W4311689596 cites W2560213782 @default.
W4311689596 cites W2565825022 @default.
W4311689596 cites W2621963256 @default.
W4311689596 cites W2622347629 @default.
W4311689596 cites W2769238697 @default.
W4311689596 cites W2789046845 @default.
W4311689596 cites W2794091348 @default.
W4311689596 cites W2797542451 @default.
W4311689596 cites W2905659679 @default.
W4311689596 cites W2912301972 @default.
W4311689596 cites W2922147290 @default.
W4311689596 cites W2942484081 @default.
W4311689596 cites W2970769725 @default.
W4311689596 cites W2982419308 @default.
W4311689596 cites W3006514131 @default.
W4311689596 cites W3011813593 @default.
W4311689596 cites W3028768728 @default.
W4311689596 cites W3040936984 @default.
W4311689596 cites W3156009634 @default.
W4311689596 cites W3164124285 @default.
W4311689596 cites W3191421060 @default.
W4311689596 cites W3197032571 @default.
W4311689596 cites W4214661456 @default.
W4311689596 cites W4297093139 @default.
W4311689596 doi "https://doi.org/10.1016/j.biopha.2022.114140" @default.
W4311689596 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36535200" @default.
W4311689596 hasPublicationYear "2023" @default.
W4311689596 type Work @default.
W4311689596 citedByCount "3" @default.
W4311689596 countsByYear W43116895962023 @default.
W4311689596 crossrefType "journal-article" @default.
W4311689596 hasAuthorship W4311689596A5059343631 @default.
W4311689596 hasAuthorship W4311689596A5064400084 @default.
W4311689596 hasAuthorship W4311689596A5072157204 @default.
W4311689596 hasAuthorship W4311689596A5074578838 @default.
W4311689596 hasAuthorship W4311689596A5079248227 @default.
W4311689596 hasAuthorship W4311689596A5081656092 @default.
W4311689596 hasBestOaLocation W43116895961 @default.
W4311689596 hasConcept C108586683 @default.
W4311689596 hasConcept C136229726 @default.
W4311689596 hasConcept C141071460 @default.
W4311689596 hasConcept C142724271 @default.
W4311689596 hasConcept C171056886 @default.
W4311689596 hasConcept C175933922 @default.
W4311689596 hasConcept C185592680 @default.
W4311689596 hasConcept C188027245 @default.
W4311689596 hasConcept C190567982 @default.
W4311689596 hasConcept C192562407 @default.
W4311689596 hasConcept C2777459323 @default.
W4311689596 hasConcept C2777624698 @default.
W4311689596 hasConcept C2778823387 @default.
W4311689596 hasConcept C2779718196 @default.