Simultaneous recording and marking of brain microstructures

Abstract: The vast majority of techniques to study the physiology of the nervous system involve inserting probes into the brain for stimulation, recording, or sampling. Research is increasingly uncovering the fine microstructure of the brain, each of its regions with dedicated functions. Accurate knowledge of the placement of probes interrogating these regions is critical. We have developed a customizable concentric marking electrode (CME) consisting of an iron core within a 125 μm-stainless steel (SS) sheath for co-loc… Show more

“…In contrast, SiO 2 is hydrophilic and is the most commonly used substrate in microfabrication. It has been used extensively in neuronal patterning [12] and as a dielectric and encapsulant for in vivo neuronal probes [13]. Proteins that adsorb onto parylene-C and SiO 2 surfaces have radically different conformational profiles [14].…”

Adhesion and Growth of Neuralized Mouse Embryonic Stem Cells on Parylene-C/SiO2 Substrates

“…In contrast, SiO 2 is hydrophilic and is the most commonly used substrate in microfabrication. It has been used extensively in neuronal patterning [12] and as a dielectric and encapsulant for in vivo neuronal probes [13]. Proteins that adsorb onto parylene-C and SiO 2 surfaces have radically different conformational profiles [14].…”

Adhesion and Growth of Neuralized Mouse Embryonic Stem Cells on Parylene-C/SiO2 Substrates