Biosensors are critical tools that provide real-time monitoring and feedback in various biomedical applications, playing a vital role in advancing personalized medicine and tissue engineering. Our research group is focused on developing innovative biosensors that can be integrated into biofabricated tissues and implants to monitor vital physiological parameters, such as pH, oxygen levels, and specific biomarkers, during and after surgical interventions. These biosensors are designed to offer precise, continuous monitoring, allowing clinicians to track the progress of tissue regeneration and detect any potential complications early. By embedding biosensors within bioresorbable scaffolds or bio-printed tissues, we enable a seamless integration of monitoring capabilities, ensuring that the healing process is closely observed and optimized.

One of our key research areas is the development of biosensors that can operate effectively within the challenging environments of the human body, maintaining accuracy and reliability over extended periods. This includes exploring new materials and sensor designs that can withstand the dynamic conditions of tissue healing while providing meaningful data to guide clinical decisions. Our goal is to create biosensors that enhance the safety and effectiveness of regenerative therapies and pave the way for more personalized and adaptive treatment strategies. By integrating these advanced monitoring tools into our fabrication processes, we aim to improve patient outcomes and contribute to the evolution of precision medicine.