Blood brain barrier: a tissue engineered microfluidic chip
With the increasing concern of neurological diseases, the improvised therapy for neurodegenerative disorders such as Alzheimer's disease is crucial. Yet, the efficacious delivery of drug across blood-brain barrier (BBB) remains a formidable challenge. BBB acts as a gate keeper to prevent the in...
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sg-ntu-dr.10356-1613902022-08-30T07:31:54Z Blood brain barrier: a tissue engineered microfluidic chip Musafargani, Sikkandhar Mishra, Sachin Gulyás, Miklós Mahalakshmi, P. Archunan, Govindaraju Padmanabhan, Parasuraman Gulyás, Balázs Lee Kong Chian School of Medicine (LKCMedicine) Science::Medicine Blood-Brain Barrier Microfluidics With the increasing concern of neurological diseases, the improvised therapy for neurodegenerative disorders such as Alzheimer's disease is crucial. Yet, the efficacious delivery of drug across blood-brain barrier (BBB) remains a formidable challenge. BBB acts as a gate keeper to prevent the ingress of harmful foreign agents into the brain. It has built a great interest in designing BBB models to boost the field of neurotherapeutics. Recently, microfluidic systems are gaining ground in cell culture and bio-system analysis. It creates a new era of micro engineered laboratory onto a chip by combining the benefits of both in vitro and in vivo models. The high-fidelity microfluidic BBB-on-a-Chip possess the engineered physiological microenvironment for real time monitoring of barrier properties with human derived stem cells. These emerging models have intrinsic merits of regulating micro-scale fluid delivery and versatile fabrication. Moreover, the progress of 3D printing technology and versatility of stem cells assist in fabricating these robust and reproducible models. This review revolves around the various approaches of modelling microfluidic BBBs and emphasises on the limitations of existing models and technology. It contributes to the interdisciplinary engineering aspects of BBB research and its magnificent impact on drug development. Nanyang Technological University Balázs Gulyás and Parasuraman Padmanabhan acknowledge the Lee Kong Chian School of Medicine, Nanyang Technological University MOE Start-Up Grant, NTU Austrian Institute of Technology & Medical University of Vienna internal grant (NAM/15005), Singapore and Nanyang Technological University, Singapore Data Science And Artificial Intelligence Research Centre (DSAIR) grant (Project Reference: ADH-11/2017-DSAIR). Govindaraju Archunan is grateful to University Grants Commission (UGC), New Delhi, India for the award of UGC-BSR Faculty Fellow. 2022-08-30T07:31:54Z 2022-08-30T07:31:54Z 2020 Journal Article Musafargani, S., Mishra, S., Gulyás, M., Mahalakshmi, P., Archunan, G., Padmanabhan, P. & Gulyás, B. (2020). Blood brain barrier: a tissue engineered microfluidic chip. Journal of Neuroscience Methods, 331, 108525-. https://dx.doi.org/10.1016/j.jneumeth.2019.108525 0165-0270 https://hdl.handle.net/10356/161390 10.1016/j.jneumeth.2019.108525 31756396 2-s2.0-85075335873 331 108525 en NAM/15005 ADH-11/2017-DSAIR Journal of Neuroscience Methods © 2019 Elsevier B.V. All rights reserved. |
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Science::Medicine Blood-Brain Barrier Microfluidics |
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Science::Medicine Blood-Brain Barrier Microfluidics Musafargani, Sikkandhar Mishra, Sachin Gulyás, Miklós Mahalakshmi, P. Archunan, Govindaraju Padmanabhan, Parasuraman Gulyás, Balázs Blood brain barrier: a tissue engineered microfluidic chip |
| description |
With the increasing concern of neurological diseases, the improvised therapy for neurodegenerative disorders such as Alzheimer's disease is crucial. Yet, the efficacious delivery of drug across blood-brain barrier (BBB) remains a formidable challenge. BBB acts as a gate keeper to prevent the ingress of harmful foreign agents into the brain. It has built a great interest in designing BBB models to boost the field of neurotherapeutics. Recently, microfluidic systems are gaining ground in cell culture and bio-system analysis. It creates a new era of micro engineered laboratory onto a chip by combining the benefits of both in vitro and in vivo models. The high-fidelity microfluidic BBB-on-a-Chip possess the engineered physiological microenvironment for real time monitoring of barrier properties with human derived stem cells. These emerging models have intrinsic merits of regulating micro-scale fluid delivery and versatile fabrication. Moreover, the progress of 3D printing technology and versatility of stem cells assist in fabricating these robust and reproducible models. This review revolves around the various approaches of modelling microfluidic BBBs and emphasises on the limitations of existing models and technology. It contributes to the interdisciplinary engineering aspects of BBB research and its magnificent impact on drug development. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Musafargani, Sikkandhar Mishra, Sachin Gulyás, Miklós Mahalakshmi, P. Archunan, Govindaraju Padmanabhan, Parasuraman Gulyás, Balázs |
| format |
Article |
| author |
Musafargani, Sikkandhar Mishra, Sachin Gulyás, Miklós Mahalakshmi, P. Archunan, Govindaraju Padmanabhan, Parasuraman Gulyás, Balázs |
| author_sort |
Musafargani, Sikkandhar |
| title |
Blood brain barrier: a tissue engineered microfluidic chip |
| title_short |
Blood brain barrier: a tissue engineered microfluidic chip |
| title_full |
Blood brain barrier: a tissue engineered microfluidic chip |
| title_fullStr |
Blood brain barrier: a tissue engineered microfluidic chip |
| title_full_unstemmed |
Blood brain barrier: a tissue engineered microfluidic chip |
| title_sort |
blood brain barrier: a tissue engineered microfluidic chip |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161390 |
| _version_ |
1743119616523108352 |