FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4247376412> ?p ?o ?g. }

• W4247376412 endingPage "267" @default.
• W4247376412 startingPage "267" @default.
• W4247376412 abstract "<ns4:p><ns4:bold>Background:</ns4:bold> Bio-electrospray (BES) is a jet-based delivery system driven by an electric field that has the ability to form micro to nano-sized droplets. It holds great potential as a tissue engineering tool as it can be used to place cells into specific patterns. As the human central nervous system (CNS) cannot be studied <ns4:italic>in vivo </ns4:italic>at the cellular and molecular level, <ns4:italic>in vitro</ns4:italic> CNS models are needed. Human neural stem cells (hNSCs) are the CNS building block as they can generate both neurones and glial cells.</ns4:p><ns4:p> <ns4:bold>Methods:</ns4:bold> Here we assessed for the first time how hNSCs respond to BES. To this purpose, different hNSC lines were sprayed at 10 kV and their ability to survive, grow and differentiate was assessed at different time points.</ns4:p><ns4:p> <ns4:bold>Results:</ns4:bold> BES induced only a small and transient decrease in hNSC metabolic activity, from which cells recovered by day 6, and no significant increase in cell death was observed, as assessed by flow cytometry. Furthermore, bio-electrosprayed hNSCs differentiated as efficiently as controls into neurones, astrocytes and oligodendrocytes as shown by morphological, protein and gene expression analysis.</ns4:p><ns4:p> <ns4:bold>Conclusions:</ns4:bold> This study highlights the robustness of hNSCs and identifies BES as a suitable technology that could be developed for the direct deposition of these cells in specific locations and configurations.</ns4:p>" @default.
• W4247376412 created "2022-05-12" @default.
• W4247376412 creator A5004795768 @default.
• W4247376412 creator A5065115094 @default.
• W4247376412 creator A5065445096 @default.
• W4247376412 date "2020-04-17" @default.
• W4247376412 modified "2023-10-16" @default.
• W4247376412 title "Bio-electrosprayed human neural stem cells are viable and maintain their differentiation potential" @default.
• W4247376412 cites W1964350921 @default.
• W4247376412 cites W1967055381 @default.
• W4247376412 cites W1970598372 @default.
• W4247376412 cites W1980217666 @default.
• W4247376412 cites W1987544689 @default.
• W4247376412 cites W1995313165 @default.
• W4247376412 cites W1995745186 @default.
• W4247376412 cites W1996572753 @default.
• W4247376412 cites W1998458266 @default.
• W4247376412 cites W2003792550 @default.
• W4247376412 cites W2008730698 @default.
• W4247376412 cites W2010618323 @default.
• W4247376412 cites W2011976306 @default.
• W4247376412 cites W2022828271 @default.
• W4247376412 cites W2033994361 @default.
• W4247376412 cites W2036122797 @default.
• W4247376412 cites W2054262706 @default.
• W4247376412 cites W2074596377 @default.
• W4247376412 cites W2075971051 @default.
• W4247376412 cites W2078127974 @default.
• W4247376412 cites W2084652685 @default.
• W4247376412 cites W2090755258 @default.
• W4247376412 cites W2099646937 @default.
• W4247376412 cites W2128229035 @default.
• W4247376412 cites W2134151656 @default.
• W4247376412 cites W2140534922 @default.
• W4247376412 cites W2155228504 @default.
• W4247376412 cites W2156923174 @default.
• W4247376412 cites W2167064041 @default.
• W4247376412 cites W2167279371 @default.
• W4247376412 cites W2172339454 @default.
• W4247376412 cites W2331824792 @default.
• W4247376412 cites W2336633679 @default.
• W4247376412 cites W2569612340 @default.
• W4247376412 cites W2750559769 @default.
• W4247376412 cites W2797311865 @default.
• W4247376412 cites W2893115477 @default.
• W4247376412 cites W2939036317 @default.
• W4247376412 doi "https://doi.org/10.12688/f1000research.19901.1" @default.
• W4247376412 hasPublicationYear "2020" @default.
• W4247376412 type Work @default.
• W4247376412 citedByCount "3" @default.
• W4247376412 countsByYear W42473764122022 @default.
• W4247376412 countsByYear W42473764122023 @default.
• W4247376412 crossrefType "journal-article" @default.
• W4247376412 hasAuthorship W4247376412A5004795768 @default.
• W4247376412 hasAuthorship W4247376412A5065115094 @default.
• W4247376412 hasAuthorship W4247376412A5065445096 @default.
• W4247376412 hasBestOaLocation W42473764121 @default.
• W4247376412 hasConcept C136834591 @default.
• W4247376412 hasConcept C169760540 @default.
• W4247376412 hasConcept C28328180 @default.
• W4247376412 hasConcept C86803240 @default.
• W4247376412 hasConcept C95444343 @default.
• W4247376412 hasConceptScore W4247376412C136834591 @default.
• W4247376412 hasConceptScore W4247376412C169760540 @default.
• W4247376412 hasConceptScore W4247376412C28328180 @default.
• W4247376412 hasConceptScore W4247376412C86803240 @default.
• W4247376412 hasConceptScore W4247376412C95444343 @default.
• W4247376412 hasFunder F4320307874 @default.
• W4247376412 hasFunder F4320319990 @default.
• W4247376412 hasFunder F4320321739 @default.
• W4247376412 hasFunder F4320334626 @default.
• W4247376412 hasLocation W42473764121 @default.
• W4247376412 hasLocation W42473764122 @default.
• W4247376412 hasOpenAccess W4247376412 @default.
• W4247376412 hasPrimaryLocation W42473764121 @default.
• W4247376412 hasRelatedWork W1641042124 @default.
• W4247376412 hasRelatedWork W1990804418 @default.
• W4247376412 hasRelatedWork W1993764875 @default.
• W4247376412 hasRelatedWork W2013243191 @default.
• W4247376412 hasRelatedWork W2051339581 @default.
• W4247376412 hasRelatedWork W2082860237 @default.
• W4247376412 hasRelatedWork W2117258802 @default.
• W4247376412 hasRelatedWork W2130076355 @default.
• W4247376412 hasRelatedWork W2151865869 @default.
• W4247376412 hasRelatedWork W4234157524 @default.
• W4247376412 hasVolume "9" @default.
• W4247376412 isParatext "false" @default.
• W4247376412 isRetracted "false" @default.
• W4247376412 workType "article" @default.