Biomedical engineering stands as a multidisciplinary domain within engineering, dedicated to devising solutions and devices tailored for diagnostic, therapeutic, and regenerative objectives in the healthcare sector. By applying engineering principles to the realms of biology and medicine, biomedical engineering forms close collaborations with medical professionals and draws support from various scientific fields including electrical and electronics engineering, computer science, mechanical engineering, materials science, and genetics.In the realm of biomedical engineering, numerous applications are evident. These range from the development of cutting-edge medical imaging systems and software to the creation of tools for the measurement and analysis of biological signals. Furthermore, biomedical engineers play pivotal roles in enhancing clinical diagnostic and treatment apparatus, fabricating biocompatible materials (such as implants), pioneering regenerative tissue engineering techniques, and crafting personalized therapeutic solutions. Moreover, their contributions extend to the production of pharmaceuticals and therapeutic biologicals. Through such diverse applications, biomedical engineers strive to advance healthcare technology and foster improved patient outcomes.