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Microphysiological Systems: Next Generation Systems For Assessing Toxicity And Therapeutic Effects Of Nanomaterials

Authors :
Mercedes Brianna Cornelius
Rumeysa Tutar
Martin C. Hartel
Marcus J. Goudie
Junmin Lee
Betül Çelebi-Saltik
Nureddin Ashammakhi
Ali Khademhosseini
Mohammad Ali Darabi
Mehmet R. Dokmeci
Saber M. Hussein
Source :
Small Methods
Publication Year :
2020
Publisher :
Aperta, 2020.

Abstract

Microphysiological systems, also known as organ-on-a-chip platforms, show promise for the development of new testing methods that can be more accurate than both conventional two-dimensional (2D) cultures and costly animal studies. The development of more intricate microphysiological systems can help to better mimic the human physiology and highlight the systemic effects of different drugs and materials. Nanomaterials are among a technologically important class of materials used for diagnostic, therapeutic, and monitoring purposes; all of which can be tested using new organ-on-a-chip systems. In addition, the toxicity of nanomaterials which have entered the body from ambient air or diet can have deleterious effects on various body systems. This in turn can be studied in newly developed microphysiological systems. While organ-on-a-chip models can be useful, they cannot pick up secondary and systemic toxicity. Thus, the utilization of multiorgan-on-a-chip systems for advancing nanotechnology will largely be reflected in the future of drug development, toxicology studies, and precision medicine. Various aspects of related studies, current challenges, and future perspectives are discussed in this paper.

Details

Database :
OpenAIRE
Journal :
Small Methods
Accession number :
edsair.doi.dedup.....ddba8236e7a4cd5f7e4ca08836edda17