Harvard affiliates developed a silicon chip that successfully mapped more than 70,000 synaptic connections from 2,000 rat neurons, advancing a new recording technology to complement existing neural ...

The agarose provided a low adsorption surface to form neural spheroid, and Pt wire electrode was pre-inserted to obtain interior signal recording without damage. The device allows for ...

Neural organoids have been heralded as having huge potential for advancing our knowledge of the brain in several fields. These include exploring the responses of brain tissue to drugs, investigating ...

To map the mammalian brain and its various functions with increasing precision, neuroscientists rely on high-resolution imaging techniques and other advanced experimental tools. These include ...

The advent of high-density recording technologies, such as Neuropixels and large-scale calcium imaging, has provided an unprecedented look into the ...

A research group from the Institute for Research on Next-generation Semiconductor and Sensing Science (IRES²) at Toyohashi University of Technology developed an innovative in vivo electrophysiological ...

Bioengineering researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have developed a soft, thin, stretchable bioelectronic device that can be implanted into a ...

Measuring brain activity with precision is essential to developing further understanding of diseases such as epilepsy and disorders that affect brain function and motor control. Neural probes with ...