hydrogel tagged posts

Bioinspired supramolecular fibers drawn from a multiphase self-assembled hydrogel. Proceedings of the National Academy of Sciences, 2017; 201705380 DOI: 10.1073/pnas.1705380114

A team of architects and chemists from the University of Cambridge has designed super-stretchy and strong fibres which are almost entirely composed of water, and could be used to make textiles, sensors and other materials. The fibres, which resemble miniature bungee cords as they can absorb large amounts of energy, are sustainable, non-toxic and can be made at room temperature...

The DN gel and HAp/DN gel implanted in rabbit femurs. The Micro-CT image shows HAp/DN gel has the same contrast as the bone HAp (indicated with the red arrow); the cross-section shows that the boundaries of the bone and the HAp layer are fused. Credit: Nonoyama T., Wada S. et al., Advanced Materials, May 17, 2016

Researchers at Hokkaido University have developed a new kind of hydrogel that bonds spontaneously and strongly to defected bones, suggesting potential use in the treatments of joint injuries. When soft supporting human tissues – including cartilage and ligaments, which are joined firmly to bones – are damaged, they cannot spontaneously repair inside the body. The use of artificial supporting tissues has the potential to significantly ameliorate damage to soft tissues...

A hydrogel made at Rice University consists of custom peptide fibers with spaces – “missing teeth” – that can trap and deliver hydrophobic small-molecule drugs. Credit: I-Che Li/Rice University

Custom hydrogel traps water-avoiding molecules for slow delivery. A gap-toothed peptide created by bioengineers at Rice University may be an efficient way to deliver insoluble drugs to precise locations in the body. Rice bioengineer Jeffrey Hartgerink and his students made a hydrogel of what they call “missing tooth” peptide nanofibers. Gaps in the fibers are designed to hold drug molecules that have hydrophobic properties. The biodegradable gel can be injected where needed and releases the medication over time.

Hydrogels built of custom peptides are a specialty of Hartgerink’s lab, which has introd...

UPV researchers have developed new synthetic models of human tissues that simulate electromagnetic properties of different tissues and organs. Known as phantoms, these models may be of interest for the development of new technologies for use in medical screening and evaluation of 5G mobile communication devices.

Recently, there has been a growing interest in the use of telecomms devices for clinical diagnosis. Tiny sensors and monitoring units can be incorporated into capsules and ingested orally, recording biological data inside the body and transmitting it to the outside. These devices communicate wirelessly, sending electromagnetic waves through the body, which acts as a transmission medium...