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Front Hum Neurosci. 2016 Mar 15;10:102. doi: 10.3389/fnhum.2016.00102. eCollection 2016.

A Diamond-Based Electrode for Detection of Neurochemicals in the Human Brain.

Author information

1
Division of Engineering, Mayo ClinicRochester, MN, USA; Neurologic Surgery, Mayo ClinicRochester, MN, USA; School of Engineering, Deakin UniversityMelbourne, VIC, Australia.
2
Division of Engineering, Mayo ClinicRochester, MN, USA; Neurologic Surgery, Mayo ClinicRochester, MN, USA.
3
Neurologic Surgery, Mayo Clinic Rochester, MN, USA.
4
Physics, University of Texas at El Paso El Paso, TX, USA.
5
School of Engineering, Deakin University Melbourne, VIC, Australia.

Abstract

Deep brain stimulation (DBS), a surgical technique to treat certain neurologic and psychiatric conditions, relies on pre-determined stimulation parameters in an open-loop configuration. The major advancement in DBS devices is a closed-loop system that uses neurophysiologic feedback to dynamically adjust stimulation frequency and amplitude. Stimulation-driven neurochemical release can be measured by fast-scan cyclic voltammetry (FSCV), but existing FSCV electrodes rely on carbon fiber, which degrades quickly during use and is therefore unsuitable for chronic neurochemical recording. To address this issue, we developed durable, synthetic boron-doped diamond-based electrodes capable of measuring neurochemical release in humans. Compared to carbon fiber electrodes, they were more than two orders-of-magnitude more physically-robust and demonstrated longevity in vitro without deterioration. Applied for the first time in humans, diamond electrode recordings from thalamic targets in patients (n = 4) undergoing DBS for tremor produced signals consistent with adenosine release at a sensitivity comparable to carbon fiber electrodes. (Clinical trials # NCT01705301).

KEYWORDS:

carbon fiber microelectrode; deep brain stimulation (DBS); diamond-based electrode; dopamine; fast scan cyclic voltammetry (FSCV); neuromodulation

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