SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2989761520> ?p ?o ?g. }

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

W2989761520 endingPage "45510" @default.
W2989761520 startingPage "45498" @default.
W2989761520 abstract "Recent reports suggest the utility of extracellular matrix (ECM) molecules as raw components in scaffolding of engineered materials. However, rapid and tunable manufacturing of ECM molecules into fibrous structures remains poorly developed. Here we report on an immersion rotary jet-spinning (iRJS) method to show high-throughput manufacturing (up to ∼1 g/min) of hyaluronic acid (HA) and other ECM fiber scaffolds using different spinning conditions and postprocessing modifications. This system allowed control over a variety of scaffold material properties, which enabled the fabrication of highly porous (70–95%) and water-absorbent (swelling ratio ∼2000–6000%) HA scaffolds with soft-tissue mimetic mechanical properties (∼0.5–1.5 kPa). Tuning these scaffolds’ properties enabled the identification of porosity (∼95%) as a key facilitator for rapid and in-depth cellular ingress in vitro. We then demonstrated that porous HA scaffolds accelerated granulation tissue formation, neovascularization, and reepithelialization in vivo, altogether potentiating faster wound closure and tissue repair. Collectively, this scalable and versatile manufacturing approach enabled the fabrication of tunable ECM-mimetic nanofiber scaffolds that may provide an ideal first building block for the design of all-in-one healing materials." @default.
W2989761520 created "2019-12-05" @default.
W2989761520 creator A5005933860 @default.
W2989761520 creator A5009903303 @default.
W2989761520 creator A5028204678 @default.
W2989761520 creator A5030496067 @default.
W2989761520 creator A5037978981 @default.
W2989761520 creator A5043563920 @default.
W2989761520 creator A5051127019 @default.
W2989761520 date "2019-11-22" @default.
W2989761520 modified "2023-10-06" @default.
W2989761520 title "Porous Biomimetic Hyaluronic Acid and Extracellular Matrix Protein Nanofiber Scaffolds for Accelerated Cutaneous Tissue Repair" @default.
W2989761520 cites W1963900841 @default.
W2989761520 cites W1968580733 @default.
W2989761520 cites W1971657252 @default.
W2989761520 cites W1982808845 @default.
W2989761520 cites W1984685797 @default.
W2989761520 cites W1986644386 @default.
W2989761520 cites W1989439022 @default.
W2989761520 cites W1995602590 @default.
W2989761520 cites W1995707214 @default.
W2989761520 cites W1996929894 @default.
W2989761520 cites W1998869888 @default.
W2989761520 cites W2006431507 @default.
W2989761520 cites W2012840507 @default.
W2989761520 cites W2013100565 @default.
W2989761520 cites W2016372084 @default.
W2989761520 cites W2029497643 @default.
W2989761520 cites W2030517834 @default.
W2989761520 cites W2034636584 @default.
W2989761520 cites W2037584098 @default.
W2989761520 cites W2037747858 @default.
W2989761520 cites W2037810763 @default.
W2989761520 cites W2041016801 @default.
W2989761520 cites W2041492726 @default.
W2989761520 cites W2042654987 @default.
W2989761520 cites W2045295282 @default.
W2989761520 cites W2045813821 @default.
W2989761520 cites W2047288490 @default.
W2989761520 cites W2055827549 @default.
W2989761520 cites W2056064788 @default.
W2989761520 cites W2056104115 @default.
W2989761520 cites W2063909975 @default.
W2989761520 cites W2064297038 @default.
W2989761520 cites W2068845888 @default.
W2989761520 cites W2084772555 @default.
W2989761520 cites W2085293124 @default.
W2989761520 cites W2089415384 @default.
W2989761520 cites W2099707643 @default.
W2989761520 cites W2100856679 @default.
W2989761520 cites W2136904680 @default.
W2989761520 cites W2139908236 @default.
W2989761520 cites W2140062330 @default.
W2989761520 cites W2140461693 @default.
W2989761520 cites W2143691028 @default.
W2989761520 cites W2144000876 @default.
W2989761520 cites W2152622918 @default.
W2989761520 cites W2157929811 @default.
W2989761520 cites W2160467540 @default.
W2989761520 cites W2195739420 @default.
W2989761520 cites W2279201664 @default.
W2989761520 cites W2315234938 @default.
W2989761520 cites W2320550104 @default.
W2989761520 cites W2325727928 @default.
W2989761520 cites W2402202411 @default.
W2989761520 cites W2488863215 @default.
W2989761520 cites W2528258136 @default.
W2989761520 cites W2529142035 @default.
W2989761520 cites W2552754421 @default.
W2989761520 cites W2574879741 @default.
W2989761520 cites W2588065412 @default.
W2989761520 cites W2602613907 @default.
W2989761520 cites W2606627786 @default.
W2989761520 cites W2783749957 @default.
W2989761520 cites W2791257083 @default.
W2989761520 cites W2792066971 @default.
W2989761520 cites W2809252818 @default.
W2989761520 cites W2884444313 @default.
W2989761520 cites W2888809265 @default.
W2989761520 cites W2940846275 @default.
W2989761520 cites W2981015863 @default.
W2989761520 doi "https://doi.org/10.1021/acsami.9b17322" @default.
W2989761520 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31755704" @default.
W2989761520 hasPublicationYear "2019" @default.
W2989761520 type Work @default.
W2989761520 sameAs 2989761520 @default.
W2989761520 citedByCount "51" @default.
W2989761520 countsByYear W29897615202020 @default.
W2989761520 countsByYear W29897615202021 @default.
W2989761520 countsByYear W29897615202022 @default.
W2989761520 countsByYear W29897615202023 @default.
W2989761520 crossrefType "journal-article" @default.
W2989761520 hasAuthorship W2989761520A5005933860 @default.
W2989761520 hasAuthorship W2989761520A5009903303 @default.
W2989761520 hasAuthorship W2989761520A5028204678 @default.
W2989761520 hasAuthorship W2989761520A5030496067 @default.
W2989761520 hasAuthorship W2989761520A5037978981 @default.
W2989761520 hasAuthorship W2989761520A5043563920 @default.