Recent Advances in Multimodal Nanostructured Bioaerogels for Smart Drug Delivery

The convergence of nanotechnology and bioaerogels has paved the way for the development of multimodal nanostructured bioaerogels with remarkable potential in smart drug delivery systems. These advanced biomaterials integrate multiple functionalities, including sensing, targeting, and therapeutic actions, to enhance drug efficacy, minimize systemic side effects, and enable real-time monitoring of therapeutic responses. This review provides a comprehensive analysis of the structural design, physicochemical properties, and fabrication strategies of multimodal bioaerogels. It further explores their role in responsive drug delivery, emphasizing stimuli-responsive mechanisms such as pH, temperature, and enzymatic triggers. The incorporation of nanomaterials, including metallic nanoparticles, carbon-based nanostructures, and polymeric nanocarriers, has endowed bioaerogels with tunable porosity, controlled drug release, and bioactive functionalities. Additionally, their application in precision medicine, particularly for cancer therapy, antimicrobial treatments, and tissue engineering, is critically examined. Challenges related to scalability, biocompatibility, and regulatory compliance are also discussed, alongside future perspectives on advancing these bioaerogels toward clinical translation. By integrating interdisciplinary insights, this review underscores the transformative potential of multimodal nanostructured bioaerogels in the next generation of intelligent drug delivery systems.