Litcius/Paper detail

Bioinspired nanocarriers for advanced drug delivery

Kalyani Pathak, Mohammad Zaki Ahmad, Jon Jyoti Sahariah, Manisha Sahariah, Surajit Konwar, Banasri Talukdar, Aparoop Das, Partha Protim Borthakur, Ankur Gogoi

2025Nano Express8 citationsDOIOpen Access PDF

Abstract

Abstract Bioinspired nanocarriersare emerging as transformative tools in drug delivery, leveraging natural biological structures and functions to overcome critical limitations of conventional therapeutic systems. This review critically examines three leading approaches, e.g., cell membrane-coated nanoparticles (CMNPs), exosome-mimicking nanocarriers (EMNCs), and peptide-functionalized nanocarriers, highlighting their design principles, functionalization strategies, and biomedical applications. By systematically analyzing recent advances, we identify common advantages such as improved pharmacokinetics, enhanced targeting specificity, and increased biocompatibility, as well as persistent challenges including rapid clearance, non-specific biodistribution, and suboptimal intracellular delivery. Comparative evaluation reveals that CMNPs excel in immune evasion and circulation time, EMNCs show superior performance in crossing complex biological barriers such as the blood–brain barrier, and peptide-functionalized systems offer enhanced selective accumulation and intracellular delivery of therapeutic agents. We further outline key translational hurdles, including scaling up production, ensuring batch-to-batch consistency, meeting regulatory standards, and long-term stability. Overall, this review provides a framework for integrating biomimetic strategies into next-generation nanomedicine, offering guidance for the rational design of safer, and clinically translatable personalized drug delivery systems.

Topics & Concepts

NanocarriersDrug deliveryDrugNanotechnologyTargeted drug deliveryMedicinePharmacologyMaterials scienceGraphene and Nanomaterials Applications