Biomedical engineering merges engineering principles with biological sciences to innovate diagnostics, therapeutic devices, and regenerative solutions. The discipline supports scaffold design, imaging systems, and microfluidic platforms that mimic in vivo conditions for tissue development. Biomedical engineers are now integrating biosensors with cellular constructs to monitor healing in real time. Tools such as lab-on-a-chip and organ-on-chip are reshaping how researchers model disease and test regenerative therapies. In the context of clinical applications, Biomedical Engineering contributes to designing biocompatible implants, enhancing rehabilitation technologies, and streamlining regenerative workflows. Its impact spans across tissue mechanics, cellular responses, and translational efficacy, making it indispensable to modern regenerative medicine.