Home Newsletters ESC & iPSC News Design and Evaluation of an In Vitro Mild Traumatic Brain Injury Modeling...

Design and Evaluation of an In Vitro Mild Traumatic Brain Injury Modeling System Using 3D Printed Mini Impact Device on the 3D Cultured Human iPSC Derived Neural Progenitor Cells

By
Justin.choi
-
0
Researchers report an in vitro mild traumatic brain injury modeling system based on 3D cultured human iPSC derived neural progenitor cells to evaluate consequences of single and repetitive mild traumatic brain injury using a 3D printed mini weight‐drop impact device.
[Advanced Healthcare Materials]
6606345 {6606345:S4LT6GHT} apa 50 1 161654 https://www.stemcellsciencenews.com/wp-content/plugins/zotpress/
%7B%22status%22%3A%22success%22%2C%22updateneeded%22%3Afalse%2C%22instance%22%3A%22zotpress-f0a52c0cbba212f06abc3d49c5c2be03%22%2C%22meta%22%3A%7B%22request_last%22%3A0%2C%22request_next%22%3A0%2C%22used_cache%22%3Atrue%7D%2C%22data%22%3A%5B%7B%22key%22%3A%22S4LT6GHT%22%2C%22library%22%3A%7B%22id%22%3A6606345%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Shi%20et%20al.%22%2C%22numChildren%22%3A1%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%202%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EShi%2C%20W.%2C%20Dong%2C%20P.%2C%20Kuss%2C%20M.%20A.%2C%20Gu%2C%20L.%2C%20Kievit%2C%20F.%2C%20Kim%2C%20H.%20J.%2C%20%26amp%3B%20Duan%2C%20B.%20%28n.d.%29.%20Design%20and%20Evaluation%20of%20an%20In%20Vitro%20Mild%20Traumatic%20Brain%20Injury%20Modeling%20System%20Using%203D%20Printed%20Mini%20Impact%20Device%20on%20the%203D%20Cultured%20Human%20iPSC%20Derived%20Neural%20Progenitor%20Cells.%20%3Ci%3EAdvanced%20Healthcare%20Materials%3C%5C%2Fi%3E%2C%20%3Ci%3En%5C%2Fa%3C%5C%2Fi%3E%28n%5C%2Fa%29%2C%202100180.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2Fhttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1002%5C%2Fadhm.202100180%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2Fhttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1002%5C%2Fadhm.202100180%3C%5C%2Fa%3E%20%3Ca%20title%3D%27Cite%20in%20RIS%20Format%27%20class%3D%27zp-CiteRIS%27%20href%3D%27https%3A%5C%2F%5C%2Fwww.stemcellsciencenews.com%5C%2Fwp-content%5C%2Fplugins%5C%2Fzotpress%5C%2Flib%5C%2Frequest%5C%2Frequest.cite.php%3Fapi_user_id%3D6606345%26amp%3Bitem_key%3DS4LT6GHT%27%3ECite%3C%5C%2Fa%3E%20%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Design%20and%20Evaluation%20of%20an%20In%20Vitro%20Mild%20Traumatic%20Brain%20Injury%20Modeling%20System%20Using%203D%20Printed%20Mini%20Impact%20Device%20on%20the%203D%20Cultured%20Human%20iPSC%20Derived%20Neural%20Progenitor%20Cells%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Wen%22%2C%22lastName%22%3A%22Shi%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Pengfei%22%2C%22lastName%22%3A%22Dong%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mitchell%20A.%22%2C%22lastName%22%3A%22Kuss%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Linxia%22%2C%22lastName%22%3A%22Gu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Forrest%22%2C%22lastName%22%3A%22Kievit%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hyung%20Joon%22%2C%22lastName%22%3A%22Kim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Bin%22%2C%22lastName%22%3A%22Duan%22%7D%5D%2C%22abstractNote%22%3A%22Despite%20significant%20progress%20in%20understanding%20the%20disease%20mechanism%20of%20traumatic%20brain%20injury%20%28TBI%29%2C%20promising%20preclinical%20therapeutics%20have%20seldom%20been%20translated%20into%20successful%20clinical%20outcomes%2C%20partially%20because%20the%20model%20animals%20have%20physiological%20and%20functional%20differences%20in%20the%20central%20nervous%20system%20%28CNS%29%20compared%20to%20humans.%20Human%20relevant%20models%20are%20thus%20urgently%20required.%20Here%2C%20an%20in%20vitro%20mild%20TBI%20%28mTBI%29%20modeling%20system%20is%20reported%20based%20on%203D%20cultured%20human%20induced%20pluripotent%20stem%20cells%20%28iPSC%29%20derived%20neural%20progenitor%20cells%20%28iPSC-NPCs%29%20to%20evaluate%20consequences%20of%20single%20and%20repetitive%20mTBI%20using%20a%203D%20printed%20mini%20weight-drop%20impact%20device.%20Computational%20simulation%20is%20performed%20to%20understand%20the%20single%5C%2Fcumulative%20effects%20of%20weight-drop%20impact%20on%20the%20NPC%20differentiated%20neurospheres.%20Experimental%20results%20reveal%20that%20neurospheres%20show%20reactive%20astrogliosis%20and%20glial%20scar%20formation%20after%20repetitive%20%2810%20hits%29%20mild%20impacts%2C%20while%20no%20astrocyte%20activation%20is%20found%20after%20one%20or%20two%20mild%20impacts.%20A%203D%20co-culture%20model%20of%20human%20microglia%20cells%20with%20neurospheres%20is%20further%20developed.%20It%20is%20found%20that%20astrocyte%20response%20is%20promoted%20even%20after%20two%20mild%20impacts%2C%20possibly%20caused%20by%20the%20chronic%20neuroinflammation%20after%20microglia%20activation.%20The%20in%20vitro%20mTBI%20modeling%20system%20recapitulates%20several%20hallmarks%20of%20the%20brain%20impact%20injury%20and%20might%20serve%20as%20a%20good%20platform%20for%20future%20drug%20screening.%22%2C%22date%22%3A%22%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1002%5C%2Fadhm.202100180%22%2C%22ISSN%22%3A%222192-2659%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fonlinelibrary.wiley.com%5C%2Fdoi%5C%2Fabs%5C%2F10.1002%5C%2Fadhm.202100180%22%2C%22collections%22%3A%5B%5D%2C%22dateModified%22%3A%222021-04-28T21%3A18%3A41Z%22%7D%7D%5D%7D
Shi, W., Dong, P., Kuss, M. A., Gu, L., Kievit, F., Kim, H. J., & Duan, B. (n.d.). Design and Evaluation of an In Vitro Mild Traumatic Brain Injury Modeling System Using 3D Printed Mini Impact Device on the 3D Cultured Human iPSC Derived Neural Progenitor Cells. Advanced Healthcare Materials, n/a(n/a), 2100180. https://doi.org/https://doi.org/10.1002/adhm.202100180 Cite
Abstract

RELATED ARTICLES

Exit mobile version