Journal article
Microfluidic models of the human circulatory system: versatile platforms for exploring mechanobiology and disease modeling
N Nguyen, P Thurgood, NC Sekar, S Chen, E Pirogova, K Peter, S Baratchi, K Khoshmanesh
Biophysical Reviews | SPRINGERNATURE | Published : 2021
Abstract
The human circulatory system is a marvelous fluidic system, which is very sensitive to biophysical and biochemical cues. The current animal and cell culture models do not recapitulate the functional properties of the human circulatory system, limiting our ability to fully understand the complex biological processes underlying the dysfunction of this multifaceted system. In this review, we discuss the unique ability of microfluidic systems to recapitulate the biophysical, biochemical, and functional properties of the human circulatory system. We also describe the remarkable capacity of microfluidic technologies for exploring the complex mechanobiology of the cardiovascular system, mechanistic..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
E.P. acknowledges the National Health and Medical Research Council (NHMRC) for funding "The Australian Centre for Electromagnetic Bioeffects Research" (APP1135076). K.P. acknowledges the NHMRC for a L3 Investigator Fellowship support (GNT1174098). S.B. acknowledges the Australian Research Council (ARC) for Discovery Grants (DE170100239 and DP200101248). K.K. acknowledges the ARC for Discovery Grant (DP180102049).