A blackboard of therapeutic innovation: Researchers seek to understand how antisense oligonucleotides can “erase” disorders.
Multifunctional nanomedicine: Developing smarter therapeutics
The Lahann Lab at the University of Michigan discusses how nanomedicine benefits by bridging biology, engineering, and materials.
Biological codes transmitted in small packages
Exploring advances in extracellular vesicles research made in the last ten-years and how its leading to better clinical applications.
How can bioinspired nanofibers regenerate skin and aid wound healing?
Electrospinning is an emerging fabrication technology that holds great promise in advancing skin tissue engineering and in developing an array of novel therapies.
A single drug therapy to fight resistant cancers
One drug, three modes of action: Clinicians combat the drug resistances of some cancer types by using a combination of different drugs.
Encoding molecular interactions: Advancing drug design
Researchers from Freie Universität Berlin explore the impact of 3D pharmacophores on drug discovery, as well as recent developments in the field.
Circular designs made better with spirals
Archimedean spirals for flexible heat actuator-sensor devices.
CRISPR-HOT: A new tool to visualize cells
A new take on CRISPR allows researchers to “paint” cells and observe never-before-seen cellular processes in great detail.
Smart bandage to heal chronic wounds
A new smart bandage is effective in the treatment of chronic wounds brought about by diabetes.
First human trial finds CRISPR-edited cells for cancer treatment are safe and durable
The first human trial using CRISP-edited genes to fight cancer has promising results.