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What Are Some Recent Advances in Microengineering for Toxicology?
Recent advances in microengineering have led to the development of more sophisticated models and devices:
Multi-organ-on-chip
systems, which connect several organ models to study interactions between different tissues.
3D bioprinting
techniques that create complex tissue structures for more realistic toxicological assessments.
Microelectromechanical systems (MEMS)
for studying the mechanical properties of cells under the influence of toxins.
Lab-on-a-chip
platforms that integrate multiple laboratory functions on a single chip for comprehensive analysis.
Frequently asked queries:
What is Microengineering?
How is Microengineering Used in Toxicology?
What are the Benefits of Using Microengineering in Toxicology?
What Challenges Does Microengineering Face in Toxicology?
What Are Some Recent Advances in Microengineering for Toxicology?
What is the Future of Microengineering in Toxicology?
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