Controlled drug delivery systems represent a dynamic field that integrates materials science, engineering and pharmacology to achieve precise therapeutic outcomes. These systems are designed to ...

Nanogels are increasingly used in drug delivery systems for their ability to encapsulate a wide range of therapeutic agents and release them in a controlled, targeted manner. Recent developments have ...

Hydrogels are among the most widely studied biomaterials in modern drug delivery research. Their high hydrophilicity, ...

A recent study published in Nature Communications showcased a breakthrough in transdermal drug delivery. Scientists have developed an electrically activated patch with biocompatible metallic membranes ...

Robotic dog on show at the Barbican. — © Image by Tim Sandle. Robotic dog on show at the Barbican. — © Image by Tim Sandle. Grain-sized soft robots that can be ...

A recent review by a collaborative team from Sun Yat-sen University and Jinan University systematically summarizes the latest advances in biomacromolecule-loaded microneedles for treating various ...

The delivery of drugs to patients is one of the most crucial parts of the pharmaceutical industry. The specific method of drug delivery can have a major impact on the effectiveness and applicability ...

Controlled release systems deliver medication and other bioactive compounds to the ideal spot inside a body and over a specific time. New research from the University of Arkansas and the University of ...

Researchers have developed a potential new peptide-based drug delivery system by repurposing fibrils that contribute to Alzheimer’s disease pathogenesis. Researchers at the University of North ...

Encapsulating drugs within biocompatible polymers allows for controlled release and extended circulation time, optimizing treatment efficacy. These systems also offer tailored formulations, ...