In recent years, microfluidics has advanced significantly and is rapidly becoming a key tool in the pharmaceutical industry and medicine. Its use in the discovery and development of new drugs, personalized medicine, production and testing of biological and chemical samples at the point of care is revolutionising our approach to healthcare. Microfluidic devices enable precise control and manipulation of fluids in a closed environment through custom-designed microchannels, which is crucial in complex pharmaceutical processes, as well as in advanced diagnostics and drug delivery. The thesis presents the used materials, manufacturing methods and applications of microfluidic devices in the pharmaceutical industry and medicine. The main advantages of microfluidic technology compared to traditional techniques and the challenges that still need to be addressed in the future for its full implementation for industrial purposes are highlighted.
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