Nanotherapeutics in Kidney Disease

Abstract The treatment and management of kidney disease present a significant global challenge, affecting over 800 million individuals and necessitating innovative therapeutic strategies that transcend symptomatic relief. The application of nanotechnology to renal therapies, while still in its early stages, holds transformative potential for improving treatment outcomes. Recent advancements in nanoparticle-based drug delivery leverage the unique physicochemical properties of nanoparticles for targeted and controlled therapeutic delivery to the kidneys. Current research is focused on understanding the functional and phenotypic changes in kidney cells during both acute and chronic conditions, allowing for the identification of optimal target cells. Additionally, the development of tailored nanomedicines enhances their retention and binding to key renal membranes and cell populations, ultimately improving localization, tolerability, and efficacy. However, significant barriers remain, including inconsistent nanoparticle synthesis and the complexity of kidney-specific targeting. To overcome these challenges, the field requires advanced synthesis techniques, refined targeting strategies, and the establishment of animal models that accurately reflect human kidney disease. These efforts are critical for the clinical application of nanotherapeutics, which promise novel solutions for kidney disease management. This review evaluates a substantial body of in vivo research, highlighting the prospects, challenges, and opportunities presented by nanotechnology-mediated therapies and their potential to transform kidney disease treatment.