SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4367188931> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W4367188931 endingPage "423" @default.
W4367188931 startingPage "413" @default.
W4367188931 abstract "Among the greatest general challenges in bioengineering is to mimic human physiology. Advanced efforts in tissue engineering have led to sophisticated 'brain-on-chip' (BoC) microfluidic devices that can mimic structural and functional aspects of brain tissue. BoC may be used to understand the biochemical pathways of neurolgical pathologies and assess promising therapeutic agents for facilitating regenerative medicine. We evaluated the potential of microfluidic BoC devices in various neurological pathologies, such as Alzheimer's, glioblastoma, traumatic brain injury, stroke and epilepsy. We also discuss the principles, limitations and future considerations of BoC technology. Results suggest that BoC models can help understand complex neurological pathologies and augment drug testing efforts for regenerative applications. However, implementing organ-on-chip technology to clinical practice has some practical limitations that warrant greater attention to improve large-scale applicability. Nevertheless, they remain to be versatile and powerful tools that can broaden our understanding of pathophysiological and therapeutic uncertainties to neurological diseases.In this paper, the authors describe the role of microfluidic ‘brain-on-chip’ systems as a tool to model and study the human brain. While animal studies have provided significant insights, they lack the complexity of human brain tissue in order to verify the effects of drugs on patients, study complex physiological pathways or personalize regenerative therapies. This makes studying diseases of complex human organs challenging. Microfluidics is a field of study that can address these challenges by developing sophisticated and miniaturized devices that can chamber human tissue. These devices could allow scientists to better study diseases on a model that is accurate and controllable, allowing researchers to better understand complex diseases, assess drug efficacy to specific areas of the brain and potentially accelerate the development of new therapies. Herein, we characterize the principles, development and challenges of microfluidics and the role they have served in different neurological diseases." @default.
W4367188931 created "2023-04-28" @default.
W4367188931 creator A5023265009 @default.
W4367188931 creator A5034976743 @default.
W4367188931 creator A5042019964 @default.
W4367188931 creator A5050618591 @default.
W4367188931 creator A5057117740 @default.
W4367188931 creator A5074842328 @default.
W4367188931 creator A5077053157 @default.
W4367188931 creator A5082091821 @default.
W4367188931 creator A5084176535 @default.
W4367188931 creator A5083238059 @default.
W4367188931 date "2023-05-01" @default.
W4367188931 modified "2023-10-01" @default.
W4367188931 title "Microfluidic ‘brain-on chip’ systems to supplement neurological practice: development, applications and considerations" @default.
W4367188931 cites W1491450727 @default.
W4367188931 cites W1601599625 @default.
W4367188931 cites W1970550910 @default.
W4367188931 cites W1973814657 @default.
W4367188931 cites W1995202691 @default.
W4367188931 cites W2008654270 @default.
W4367188931 cites W2009780495 @default.
W4367188931 cites W2017844996 @default.
W4367188931 cites W2036564583 @default.
W4367188931 cites W2063590950 @default.
W4367188931 cites W2070160283 @default.
W4367188931 cites W2085086734 @default.
W4367188931 cites W2113711897 @default.
W4367188931 cites W2140839142 @default.
W4367188931 cites W2155868202 @default.
W4367188931 cites W2176311229 @default.
W4367188931 cites W2189355713 @default.
W4367188931 cites W2278512977 @default.
W4367188931 cites W2346064008 @default.
W4367188931 cites W2472346278 @default.
W4367188931 cites W2522811111 @default.
W4367188931 cites W2551814827 @default.
W4367188931 cites W2574784626 @default.
W4367188931 cites W2612807147 @default.
W4367188931 cites W2737454091 @default.
W4367188931 cites W2752626168 @default.
W4367188931 cites W2753590073 @default.
W4367188931 cites W2770285636 @default.
W4367188931 cites W2776272325 @default.
W4367188931 cites W2781721202 @default.
W4367188931 cites W2790542892 @default.
W4367188931 cites W2796356102 @default.
W4367188931 cites W2803629105 @default.
W4367188931 cites W2809913775 @default.
W4367188931 cites W2889054400 @default.
W4367188931 cites W2891353627 @default.
W4367188931 cites W2901016591 @default.
W4367188931 cites W2901931360 @default.
W4367188931 cites W2921139978 @default.
W4367188931 cites W2968107452 @default.
W4367188931 cites W2982293381 @default.
W4367188931 cites W3003745332 @default.
W4367188931 cites W3007262342 @default.
W4367188931 cites W3082210034 @default.
W4367188931 cites W3106191702 @default.
W4367188931 cites W3107828718 @default.
W4367188931 cites W3131552452 @default.
W4367188931 cites W3181691429 @default.
W4367188931 cites W4200319729 @default.
W4367188931 cites W4200463443 @default.
W4367188931 cites W4210344197 @default.
W4367188931 cites W4220746814 @default.
W4367188931 cites W4281875217 @default.
W4367188931 cites W4289109795 @default.
W4367188931 doi "https://doi.org/10.2217/rme-2022-0212" @default.
W4367188931 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37125510" @default.
W4367188931 hasPublicationYear "2023" @default.
W4367188931 type Work @default.
W4367188931 citedByCount "0" @default.
W4367188931 crossrefType "journal-article" @default.
W4367188931 hasAuthorship W4367188931A5023265009 @default.
W4367188931 hasAuthorship W4367188931A5034976743 @default.
W4367188931 hasAuthorship W4367188931A5042019964 @default.
W4367188931 hasAuthorship W4367188931A5050618591 @default.
W4367188931 hasAuthorship W4367188931A5057117740 @default.
W4367188931 hasAuthorship W4367188931A5074842328 @default.
W4367188931 hasAuthorship W4367188931A5077053157 @default.
W4367188931 hasAuthorship W4367188931A5082091821 @default.
W4367188931 hasAuthorship W4367188931A5083238059 @default.
W4367188931 hasAuthorship W4367188931A5084176535 @default.
W4367188931 hasConcept C10854531 @default.
W4367188931 hasConcept C165932988 @default.
W4367188931 hasConcept C169760540 @default.
W4367188931 hasConcept C171250308 @default.
W4367188931 hasConcept C192562407 @default.
W4367188931 hasConcept C2776194525 @default.
W4367188931 hasConcept C2779974597 @default.
W4367188931 hasConcept C28328180 @default.
W4367188931 hasConcept C41008148 @default.
W4367188931 hasConcept C502942594 @default.
W4367188931 hasConcept C512399662 @default.
W4367188931 hasConcept C54355233 @default.
W4367188931 hasConcept C71924100 @default.