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Microfluidics
     
 

BPN824: Investigation of Dengue Infectionís Neurological Complications via a Comprehensive In Vitro Brain Model

Project ID BPN824
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Start Date Wed 2016-Jan-27 16:23:23
Last Updated Sun 2017-Jan-29 23:58:43
Abstract Dengue fever is one of global health concerns as two fifth of world population are considered to expose to the infection risk and 20K patients results in death per year. Even after successful recovery from the febrile disease, it often causes secondary neurological complications including encephalopathy, residual brain damage and seizures. However, unclear etiological details of neurological disorders still inhibit to uncover suitable treatments of the complications. Herein, we develop an in-vitro brain model for the comprehensive systematic analysis of neurological complications due to of the Dengue infections. Our new minibrains-on- a-chip concept will allow to mature brain tissue mimicking in-vivo tissue complex in an interstitial fluidic dynamics and to monitor electrophysiological phenotypes in an in-situ manner. By administrating various etiological factors found in dengue virus (DENV) infection along with the dynamic flow, we will be able to address phenotypic connections of individual etiological factors. Our integrated in- vitro brain model analysis platform for Dengue infections will potentially provide a diagnostic and therapeutic frame for various levels of neurological disease associated with DENV infection.
Status Continuing
Funding Source PCARI
IAB Research Area Microfluidics
Researcher(s) SoonGweon Hong, Minsun Song
Advisor(s) Luke P. Lee
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