Editorial
Introduction to the RSC Advances themed collection on Nanomaterials in drug delivery
Professor Hélder A. Santos and Dr Irina N. Savina introduce the RSC Advances themed collection on Nanomaterials in drug delivery.
Review Article
Exosome-based drug delivery systems and their therapeutic applications
In the past few decades, scientists have actively worked on developing effective drug delivery systems (DDSs) as means to control life-threatening diseases and challenging illnesses.
Review Article
A brief review of mRNA therapeutics and delivery for bone tissue engineering
This review provides an update on the various mRNA preparations, carriers that can deliver these preparations and how they could potentially enhance the bone regeneration.
Review Article
Zein as a versatile biopolymer: different shapes for different biomedical applications
Zein a versatile biomaterial in the biomedical field. Easy to chemically functionalize with good emulsification properties, can be employed in drug delivery, fabrication of bioactive membranes and 3D scaffolds for tissue regeneration.
Paper
Biophysical analysis of gelatin and PLGA nanoparticle interactions with complex biomimetic lung surfactant models
Biodegradable nanoparticles drastically alters lateral organization of lung surfactant lipid- peptide model system.
Paper
Functional block copolymer micelles based on poly (jasmine lactone) for improving the loading efficiency of weakly basic drugs
Block copolymer micelles with a functional core have been synthesized and evaluated for their drug delivery capability. High drug loading was observed due to strong ionic interactions, while cytotoxicity of polymers was found to be low.
Paper
RGD peptide-based lipids for targeted mRNA delivery and gene editing applications
We developed RGD peptide based ionizable lipids, which can be formulated into LNPs for integrin-dependent targeted mRNA delivery and gene editing applications.
Paper
Facile production of quercetin nanoparticles using 3D printed centrifugal flow reactors
A 3D printed reactor-in-a-centrifuge (RIAC) was developed to produce drug nanocrystals. Quercetin nanocrystals were manufactured at varying operational and formulation conditions, and had a small size (190–302 nm) and low size dispersity (PDI < 0.1).
About this collection
RSC Advances is delighted to present this themed collection titled ‘Nanomaterials in drug delivery’. This themed collection explores the latest developments in the design, preparation, and application of nanomaterials for drug delivery, understanding bio-nano interactions and biosystem parameters, assessing the safety of nanomedicine and the potential limitations of nanomedicine fabrication including technical and legal aspects.
This collection has been Guest Edited by Dr Irina Savina (University of Brighton) and Professor Helder Almeida Santos (University of Helsinki & University of Groningen).
We welcome you to contribute to this collection. Please contact the Editorial Office to highlight your interest in submitting to this collection.