As a result of the enormous potentials of microfluidic technology, researchers can control fewer samples and reagents with greater efficiencies and generate results faster than traditional methods In the field of in-vitro diagnostics, Microfluidics is a new technology. Increased adoption of point-of-care diagnostics in various medical fields, as well as the emergence of 3D cell culture systems based on microfluidics, such as organ-on-a-chip, are driving the global Point-of-care devices are small, portable instruments that are used to diagnose a variety of diseases.
Diagnostic testing can be reduced in size, cost, and assay time by using microfluidics-based biosensors in proof-of-concept devices.The emergence of 3D microfluidic cell culture systems, such as organ-on-a-chip systems, is one of the new emerging applications of Microfluidics. Traditional animal studies and in-vitro culture systems have been helpful in understanding viral infection pathogenesis and facilitating vaccine development. However, there are still no models that closely resemble human responses to specific disease conditions.
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