Fully flexible implantable neural probes for electrophysiology recording and controlled neurochemical modulation  

作　　者：Mohammad Hassan Malekoshoaraie Bingchen Wu Daniela DKrahe Zabir Ahmed Stephen Pupa Vishal Jain Xinyan Tracy Cui Maysamreza Chamanzar 

机构地区：[1]Electrical and Computer Engineering,Carnegie Mellon University,Pittsburgh,PA 15213,USA [2]Bioengineering,University of Pittsburgh,Pittsburgh,PA 15260,USA [3]Center for Neural Basis of Cognition,University of Pittsburgh and Carnegie Mellon University,Pittburgh 15213,USA [4]McGowan Institute for Regenerative Medicine,University of Pittsburgh,Pittsburgh 15219,USA [5]Carnegie Mellon Neuroscience Institute,Carnegie Mellon University,Pittsburgh 15213,USA

出　　处：《Microsystems & Nanoengineering》2024年第3期317-333,共17页微系统与纳米工程（英文）

基　　金：supported in part by the National Science Foundation,Integrative Strategies for Understanding Neural and Cognitive Systems(NSF-NCS)under Grant Nos.1926804 and 1926756;in part by the National Institute of Neurological Disorders and Stroke of the National Institutes of Health under Award Number R01NS110564 and 1RF1NS113303;support of the Carnegie Mellon Nanotechnology facility.

摘　　要：Targeted delivery of neurochemicals and biomolecules for neuromodulation of brain activity is a powerful technique that,in addition to electrical recording and stimulation,enables a more thorough investigation of neural circuit dynamics.We have designed a novel,flexible,implantable neural probe capable of controlled,localized chemical stimulation and electrophysiology recording.The neural probe was implemented using planar micromachining processes on Parylene C,a mechanically flexible,biocompatible substrate.The probe shank features two large microelectrodes(chemical sites)for drug loading and sixteen small microelectrodes for electrophysiology recording to monitor neuronal response to drug release.To reduce the impedance while keeping the size of the microelectrodes small,poly(3,4-ethylenedioxythiophene)(PEDOT)was electrochemically coated on recording microelectrodes.In addition,PEDOT doped with mesoporous sulfonated silica nanoparticles(SNPs)was used on chemical sites to achieve controlled,electrically-actuated drug loading and releasing.Different neurotransmitters,including glutamate(Glu)and gamma-aminobutyric acid(GABA),were incorporated into the SNPs and electrically triggered to release repeatedly.An in vitro experiment was conducted to quantify the stimulated release profile by applying a sinusoidal voltage(0.5 V,2 Hz).The flexible neural probe was implanted in the barrel cortex of the wild-type Sprague Dawley rats.As expected,due to their excitatory and inhibitory effects,Glu and GABA release caused a significant increase and decrease in neural activity,respectively,which was recorded by the recording microelectrodes.This novel flexible neural probe technology,combining on-demand chemical release and high-resolution electrophysiology recording,is an important addition to the neuroscience toolset used to dissect neural circuitry and investigate neural network connectivity.

关 键 词：PARYLENE RECORDING RELEASE 

分 类 号：TP183[自动化与计算机技术—控制理论与控制工程]