Drug-free macromolecular therapeutic systems can target and kill cancer cells without causing the side-effects of the drugs currently in clinical use.
Biopolymers Murray Goodman Memorial Prize Winner 2017: William F. DeGrado
Recognizing his seminal contributions to the de novo design of peptides, proteins and pharmaceutically-active small molecules, we are thrilled to present Professor William F. DeGrado with the 2017 Biopolymers Murray Goodman Memorial Prize.
Targeted Drug Delivery through Microswimmers
Soft microswimmers that use a combination of acoustic and magnetic fields to demonstrate motion with precise manoeuvrability in a blood vessel.
5th International Symposium on Phospholipids in Pharmaceutical Research
The Phospholipid Research Center Heidelberg, organised already its “5th International Symposium on Phospholipids in Pharmaceutical Research” from 18th – 19th September 2017 at the University of Heidelberg, Germany.
Drug Nanocrystals for Cancer Therapy
Drug nanocrystals deliver drugs via oral, intravenous, and local administration and show promise towards treating cancer more effectively.
The Fourth Dimension: Fabricating Artificial Blood Vessels with 4D Bioprinting
An advanced 4D bioprinting approach uses shape-morphing, biopolymer hydrogels to form the basis for blood vessels and other tubular structures in artificial tissues and organs.
Cancer Therapy with Magnetic RNA Interference Nanoparticles
A team of researchers from National Sun Yat-sen University report on microscale RNA interference using iron oxide nanoparticle-modified lentivirus.
Cancer Reports – New Broad Scope Journal for Cancer Research
A new broad scope journal dedicated to publishing data-driven, scientifically rigorous findings at every stage of basic, translational, clinical and interdisciplinary research in cancer development, progression, treatment, care and outcome.
Cover Art – Featuring Centrifugal Lithography, Wound Dressings and Biosensors
This week’s Advanced Healthcare Materials covers.
Reaching for the Stars at a Microscopic Level
A microscopic light-fueled microhand designed to capture microscopic objects.