APPLICATION OF ADVANCED COMPUTATIONAL FLUID DYNAMICS IN THE DESIGN OF BIOMIMETIC MICROFLUIDIC ORGANS-ON-CHIPS FOR DRUG TOXICITY AND PHARMACOKINETIC STUDIES

IAEME Journals

Go Back Research Article January, 2025

International Journal of Bioengineering Research and Development

APPLICATION OF ADVANCED COMPUTATIONAL FLUID DYNAMICS IN THE DESIGN OF BIOMIMETIC MICROFLUIDIC ORGANS-ON-CHIPS FOR DRUG TOXICITY AND PHARMACOKINETIC STUDIES

IAEME Journals

Abstract

The integration of computational fluid dynamics (CFD) in the design of biomimetic organs-on-chips has revolutionized drug toxicity and pharmacokinetic studies. This paper explores the role of advanced CFD techniques in optimizing microfluidic systems for simulating human physiology. By leveraging 2023 advancements in CFD modeling and microfluidic engineering, it highlights how these technologies improve drug testing efficiency and reliability.

Keywords

Computational Fluid Dynamics Biomimetic Design Organs-on-chips Microfluidics Pharmacokinetics

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Volume 2

Issue 1

Pages 1-6

ISSN 6798-4751

APPLICATION OF ADVANCED COMPUTATIONAL FLUID DYNAMICS IN THE DESIGN OF BIOMIMETIC MICROFLUIDIC ORGANS-ON-CHIPS FOR DRUG TOXICITY AND PHARMACOKINETIC STUDIES

Abstract

Keywords

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