A recent article in Nature Chemical Engineering presented a microscale, soft, and flexible lithium-ion droplet battery (LiDB), developed using lipid-supported droplets synthesized from a biocompatible ...

A Johns Hopkins materials scientist and collaborators have developed a tiny device that may hold promise for restoring mobility to those with lower limb paralysis, a condition affecting approximately ...

In the expanding field of peptide-based research, a combination of two bioactive molecules—BPC‑157 and TB‑500—has garnered ...

Advancements in optoelectronic biointerfaces have revolutionized healthcare by enabling targeted stimulation and monitoring of cells, tissues, and organs. Photostimulation, a key application, offers ...

Researchers at Johns Hopkins Medicine say they have used a "zap-and-freeze" technology to watch hard-to-see brain cell communications in living brain tissue from mice and humans. Findings from the new ...

As a noninvasive neuromodulation method, transcranial magnetic stimulation (TMS) shows great potential to treat a range of mental and psychiatric diseases, including major depression. Stimulating the ...

MIT researchers are using living cells to target diseased brain areas and deliver tiny electronic devices that can modulate ...

A team of researchers led by Kath Bogie, a biomedical engineer and associate professor of orthopaedics and biomedical engineering at Case Western Reserve University School of Medicine, has received a ...

An implantable device could offer a safer alternative to the neuron-activating electrodes used to treat Parkinson’s and other diseases. Implanted electrodes that deliver electrical pulses deep in the ...

The 8-channel neural stimulation chip includes a waveform generator, high voltage output stage, and charge balancer, tested using electrode model, PBS solution, and animal, respectively. The chip ...