SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3170518124> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W3170518124 endingPage "3798" @default.
W3170518124 startingPage "3787" @default.
W3170518124 abstract "Restoration of a wound is a common surgical procedure in clinic. Currently, the skin required for clinical use is taken from the patient's own body. However, it can be difficult to obtain enough skin sources for large-sized wounds and thus surgeons have started using commercial skin substitutes. The current commercial skin, which includes epidermis substitute, dermis substitute, and bilateral skin substitute, has been popularized in clinic. However, the application is limited by the occurrence of ischemia necrosis after transplantation. Recent studies suggest the use of pre-vascularized skin substitutes for wound healing is a promising area in the research field of skin tissue engineering. Pre-vascularization can be induced by changes in cultivation periods, exertion of mechanical stimuli, or coculture with endothelial cells and various factors. However, few methods could control the formation of vascular branches in engineering tissue in a self-assembly way. In this study, we use three-dimensional (3D) printing technology to confirm that a mechanical force can control the growth of blood vessels in the direction of mechanical stimulation with no branches, and that Yes-associated protein activity is involved in the regulatory progress. In vivo experiments verified that the blood vessels successfully function for blood circulation, and maintain the same direction. Results provide a theoretical basis for products of pre-vascularized skin tissues and other organs created by 3D bioprinting." @default.
W3170518124 created "2021-06-22" @default.
W3170518124 creator A5005914891 @default.
W3170518124 creator A5009988205 @default.
W3170518124 creator A5021239979 @default.
W3170518124 creator A5029695887 @default.
W3170518124 creator A5047925626 @default.
W3170518124 creator A5050260140 @default.
W3170518124 creator A5050365312 @default.
W3170518124 creator A5050868729 @default.
W3170518124 creator A5053785414 @default.
W3170518124 creator A5058727059 @default.
W3170518124 creator A5088604778 @default.
W3170518124 creator A5088903822 @default.
W3170518124 creator A5091622325 @default.
W3170518124 date "2021-06-26" @default.
W3170518124 modified "2023-10-02" @default.
W3170518124 title "Mechano‐regulation of vascular network formation without branches in 3D bioprinted cell‐laden hydrogel constructs" @default.
W3170518124 cites W1485823898 @default.
W3170518124 cites W1985268553 @default.
W3170518124 cites W1988507067 @default.
W3170518124 cites W1991959563 @default.
W3170518124 cites W1992112921 @default.
W3170518124 cites W2012377264 @default.
W3170518124 cites W2015714126 @default.
W3170518124 cites W2020907858 @default.
W3170518124 cites W2040074755 @default.
W3170518124 cites W2041911911 @default.
W3170518124 cites W2057027407 @default.
W3170518124 cites W2061058076 @default.
W3170518124 cites W2071018332 @default.
W3170518124 cites W2076089547 @default.
W3170518124 cites W2084026893 @default.
W3170518124 cites W2090434435 @default.
W3170518124 cites W2119063295 @default.
W3170518124 cites W2121162934 @default.
W3170518124 cites W2123079531 @default.
W3170518124 cites W2146337514 @default.
W3170518124 cites W2149162919 @default.
W3170518124 cites W2161491446 @default.
W3170518124 cites W2277369732 @default.
W3170518124 cites W2286771936 @default.
W3170518124 cites W2293269085 @default.
W3170518124 cites W2319562462 @default.
W3170518124 cites W2528067999 @default.
W3170518124 cites W2560213782 @default.
W3170518124 cites W2560409429 @default.
W3170518124 cites W2602329525 @default.
W3170518124 cites W2603296898 @default.
W3170518124 cites W2742951203 @default.
W3170518124 cites W2751416667 @default.
W3170518124 cites W2758838459 @default.
W3170518124 cites W2760638133 @default.
W3170518124 cites W2763891537 @default.
W3170518124 cites W2767369251 @default.
W3170518124 cites W2790169228 @default.
W3170518124 cites W2791975433 @default.
W3170518124 cites W2799514453 @default.
W3170518124 cites W280244527 @default.
W3170518124 cites W2883536623 @default.
W3170518124 cites W2896683157 @default.
W3170518124 cites W2898455202 @default.
W3170518124 cites W2900977923 @default.
W3170518124 cites W2912145890 @default.
W3170518124 cites W2947227601 @default.
W3170518124 cites W2957203663 @default.
W3170518124 cites W2974381971 @default.
W3170518124 cites W2996237383 @default.
W3170518124 cites W3108023538 @default.
W3170518124 cites W3132494318 @default.
W3170518124 doi "https://doi.org/10.1002/bit.27854" @default.
W3170518124 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34110009" @default.
W3170518124 hasPublicationYear "2021" @default.
W3170518124 type Work @default.
W3170518124 sameAs 3170518124 @default.
W3170518124 citedByCount "9" @default.
W3170518124 countsByYear W31705181242022 @default.
W3170518124 countsByYear W31705181242023 @default.
W3170518124 crossrefType "journal-article" @default.
W3170518124 hasAuthorship W3170518124A5005914891 @default.
W3170518124 hasAuthorship W3170518124A5009988205 @default.
W3170518124 hasAuthorship W3170518124A5021239979 @default.
W3170518124 hasAuthorship W3170518124A5029695887 @default.
W3170518124 hasAuthorship W3170518124A5047925626 @default.
W3170518124 hasAuthorship W3170518124A5050260140 @default.
W3170518124 hasAuthorship W3170518124A5050365312 @default.
W3170518124 hasAuthorship W3170518124A5050868729 @default.
W3170518124 hasAuthorship W3170518124A5053785414 @default.
W3170518124 hasAuthorship W3170518124A5058727059 @default.
W3170518124 hasAuthorship W3170518124A5088604778 @default.
W3170518124 hasAuthorship W3170518124A5088903822 @default.
W3170518124 hasAuthorship W3170518124A5091622325 @default.
W3170518124 hasConcept C105702510 @default.
W3170518124 hasConcept C118552586 @default.
W3170518124 hasConcept C136229726 @default.
W3170518124 hasConcept C141071460 @default.
W3170518124 hasConcept C171056886 @default.
W3170518124 hasConcept C175933922 @default.