Tethered and battery-powered devices that interface with neural tissues can restrict natural
motions and prevent social interactions in animal models, thereby limiting the utility of these …

Best practices in preclinical algesiometry (pain behaviour testing) have shifted over the past
decade as a result of technological advancements, the continued dearth of translational …

Electronics based on hydrogels can have inherent similarities to biological tissue and are of
potential use in biomedical applications. Ideally, such hydrogel electronics should offer …

Hydrogels consist of a cross-linked porous polymer network and water molecules occupying
the interspace between the polymer chains. Therefore, hydrogels are soft and moisturized …

Fully implantable wireless systems for the recording and modulation of neural circuits that do
not require physical tethers or batteries allow for studies that demand the use of …

With the growing demand for next-generation health care, the integration of electronic
components into implantable medical devices (IMDs) has become a vital factor in achieving …

We develop soft and stretchable fatigue-resistant hydrogel optical fibers that enable
optogenetic modulation of peripheral nerves in naturally behaving animals during persistent …

Medical robots are invaluable players in non‐pharmaceutical treatment of disabilities.
Particularly, using prosthetic and rehabilitation devices with human–machine interfaces can …

Monitoring the flow rate, cumulative loss and temperature of sweat can provide valuable
physiological insights for the diagnosis of thermoregulatory disorders and illnesses related …

Interest in deciphering the fundamental mechanisms and processes of the human mind
represents a central driving force in modern neuroscience research. Activities in support of …