Journal article
Microfluidic Skin-on-a-Chip Models: Toward Biomimetic Artificial Skin
E Sutterby, P Thurgood, S Baratchi, K Khoshmanesh, E Pirogova
Small | WILEY-V C H VERLAG GMBH | Published : 2020
Abstract
The role of skin in the human body is indispensable, serving as a barrier, moderating homeostatic balance, and representing a pronounced endpoint for cosmetics and pharmaceuticals. Despite the extensive achievements of in vitro skin models, they do not recapitulate the complexity of human skin; thus, there remains a dependence on animal models during preclinical drug trials, resulting in expensive drug development with high failure rates. By imparting a fine control over the microenvironment and inducing relevant mechanical cues, skin-on-a-chip (SoC) models have circumvented the limitations of conventional cell studies. Enhanced barrier properties, vascularization, and improved phenotypic di..
View full abstractRelated Projects (1)
Grants
Awarded by Australian Centre for Electromagnetic Bioeffects Research
Funding Acknowledgements
K.K. and E.P. contributed equally to this work. S.B. acknowledges the Australian Research Council for Discovery for Early Career Researchers Award and Discovery Grant (DE170100239 and DP200101248). E.P. acknowledges the Australian National Health and Medical Research Council for funding "The Australian Centre for Electromagnetic Bioeffects Research" (NHMRC CRE APP1135076). K.K. acknowledges the Australian Research Council for Discovery Grant (DP180102049).