Therapeutic Delivery – News and Features
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A Bright Future for RNA Therapeutics
RNA therapeutics promise rapid, personalized and flexible treatments against multiple diseases. In this article, we will explore whether RNA therapeutics can realize their full potential.
News
Machine Learning Helps Researchers Predict Interactions Between Gold Nanoparticles and Blood Proteins
Machine learning and supercomputer simulations have been used to investigate how tiny gold nanoparticles bind to blood proteins.
News
Common Table Salt Enhances Adhesive Polymer Technology
A FAMU-FSU engineering team discovered that adding sodium chloride to polyzwitterions enhances adhesive strength and flexibility. The study compared bottlebrush and linear polymers, finding that electrostatic interactions drive improved bonding.
News
Microfluidic Device Reveals Tumor Shape Can Predict Aggressiveness
New research has offered insights into how tumor shape can predict cancer cell behavior and aggressiveness.
News
Researchers Make Advancements Towards Inhalable Medications
Researchers outline their improved lipid-polymer nanoparticle for holding mRNA that is stable when nebulized and successfully delivers aerosols (liquid droplets) in mice’s lungs.
News
Microcellular “Drones” Used To Deliver Lung Cancer-Fighting Drugs
Researchers have used microcellular "drones" to deliver antisense oligonucleotide therapeutics to lung cancer cells.
Article
Reclaiming the Narrative for Black Scientists
This article highlights several inspiring men and women working across academia and industry who are breaking barriers and regaining ownership of their own narratives.
News
Could In Utero mRNA Therapy Fix Faulty Genes Before Birth?
A new mouse study shows how a new tool can deliver genetic material to edit faulty genes in developing fetal brain cells.
News
Grain-Sized Soft Robots Developed for Drug Delivery
A team of scientists has developed grain-sized soft robots that can be controlled using magnetic fields for targeted drug delivery.
News
Researchers Develop Groundbreaking Semiconducting Hydrogel for Better Bioelectronics
Researchers have developed a hydrogel that retains the semiconductive ability needed to transmit information between living tissue and machine. It could be used both in implantable medical devices and non-surgical applications.
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