News by Subject Technology & Engineering

Scientists at the UCLA Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research and the Stein Eye Institute have been awarded a $5.1 million grant from the California Institute for Regenerative Medicine to advance the development of a novel therapy for blinding retinal conditions.

Personal electronic devices are a growing source of the world's electronic waste. Many of these products use nanomaterials, but little is known about how nanoparticles interact with the environment. Now a research team including Northwestern University chemists has discovered that when certain coated nanoparticles interact with living organisms it results in new properties that cause the nanoparticles to become sticky. Nanoparticles with 5-nanometer diameters form long kelp-like structures that are microns in size. The impact on cells is not known.

A new molecular engineering technique has the potential to double the number of light-sensitive proteins available for studying brain circuits.

A study led by Chalmers University of Technology, Sweden, has shown that carbon fibers can work as battery electrodes, storing energy directly. This opens up new opportunities for structural batteries, where the carbon fiber becomes part of the energy system. The use of this type of multifunctional material can contribute to a significant weight-reduction in the aircraft and vehicles of the future -- a key challenge for electrification.

A team of researchers has developed three-dimensional (3D) human tissue culture models for the central nervous system that mimic structural and functional features of the brain and demonstrate neural activity sustained over a period of many months. With the ability to populate a 3D matrix of silk protein and collagen with cells from patients with Alzheimer's disease, Parkinson's disease, and other conditions, the tissue models allow for the exploration of cell interactions, disease and response to treatment

Researchers from City of Hope have developed a synthetic DNA molecule that is programmed to jump-start the immune system to eradicate genetically distinct types of prostate cancer. Their novel two-step strategy eliminates STAT3 and toll-like receptor 9. The short DNA programmed by City of Hope researchers temporarily lifted the defense shield of tumors and awakened the immune system in human cell and mouse models to eradicate difficult-to-treat prostate cancers.

A new study presents a novel method of using a microfluidic flow cell array to achieve precise and reproducible control of cell deposition onto engineered tissue constructs to produce tunable cell patterns and generate essential integration zones.