Paving the way for bacteria-based drug delivery: biohybrid microrobots emerging from microrobotics and synthetic biology.
Journal:
Advanced drug delivery reviews
PMID:
40250568
Abstract
Advances in microrobotics and synthetic biology are paving the way for innovative solutions to long-standing challenges in drug delivery. Both fields have independently worked on engineering bacteria as a therapeutic system, focusing on enhancing propulsion, cargo delivery, detection, and biocompatibility. Bacteria, with their inherent adaptability and functional versatility, serve as an ideal foundation for these efforts, enabling them to navigate complex biological environments such as the human body. This review explores the convergence of microrobotics and synthetic biology, which has catalysed the development of biohybrid bacterial microrobots that integrate the strengths of both disciplines. By incorporating external control modalities - such as light, ultrasound, and magnetic fields - these hybrid systems address the limitations of purely microrobotic or biological approaches, offering new opportunities to enhance precision and efficacy in targeted therapies. However, realising the full potential of biohybrid bacterial microrobots requires overcoming critical challenges, such as ensuring compatibility between biological and synthetic components, scaling manufacturing processes, and defining regulatory pathways tailored to living therapeutics. Addressing these hurdles through joint, interdisciplinary research efforts, can unlock the transformative possibilities of these systems in modern medicine.