Dr. Paul Garris

Distinguished Professor Emeritus

Office

FSA Felmley Hall of Science Annex 233

Office Phone

(309) 438-2664office
phone

pagarri@ilstu.eduemail

Website

bio.illinoisstate.edu/people/facult... website

About
Education
Selected Research

Biography

B.A. Religion. Earlham College. Richmond, IN. 1983

Ph.D. Physiology and Biophysics. Indiana University School of Medicine. Indianapolis, IN. 1990

Postdoctoral Associate. Analytical Chemistry. University of North Carolina. 1990-1995

Current Courses

BSC 290.013 Research In Biological Sciences

Teaching Interests & Areas

Neuroscience; Animal Physiology; General Biology

Research Interests & Areas

Drugs of abuse; Parkinson's disease; attention deficit hyperactivity disorder; microsensor instrumentation development

Post-Doc Analytical Chemistry

University of North Carolina

Ph D Physiology and Biophysics

Indiana University School of Medicine

Indianapolis, IN

BA Religion

Earlham College

Richmond, IN

Grants and Contracts

Therapeutic psychostimulants, associative learning, and dopamine function

Paul A Garris

URG FRA. May 2017 - August 2017

Book, Chapter

Voltammetric analysis of loss and gain of dopamine function

Garris, P., & Keefe, K.

(2014), 1, 287-309, Compendium of In Vivo Monitoring in Real-Time Molecular Neuroscience, World Scientific Publishing Co

Technological evolution of wireless neurochemical sensing with fast-scan cyclic voltammetry

Covey, D., Bennet, K., Blaha, C., Mohseni, M., Lee, K., & Garris, P.

(2011), 174-164, Integrated Microsystems and Nanotechnology, Artech House

Neurochemistry of addiction: monitoring essential neurotransmitters of addiction

Sandberg, S., & Garris, P.

(2010), 101-136, Frontiers in the Neurobiology of Addiction, CRC Press

Conference Proceeding

An implanted device for wireless FSCV monitoring of dopamine in an ambulatory subject

Roham, M., Covey, D., Daberkow, D., Ramsson, E., Howard, C., Garris, P., & Mohseni, P.

Conf. Proc. IEEE Eng. Med. Biol. Soc., 5322-5325, (2010)

A configurable IC for wireless real-time in vivo monitoring of chemical and electrical neural activity

Roham, M., Blaha, C., Garris, P., Lee, K., & Mohseni, P.

Conf. Proc. IEEE Eng Med. Biol. Soc, 4222-4225, (2009)

A wireless IC for time-share chemical and electrical neural recording

Roham, M., Garris, P., & Mohseni, P.

IEEE Int Solid-state Circuits Conference, 430-431, (2009)

Using fast-scan cyclic voltammetry to evaluate striatal dopamine release elicited by subthalamic nucleus stimulation

Covey, D., & Garris, P.

Conf. Proc. IEEE Eng Med. Biol. Soc., 3306-3309, (2009)

Wireless instantaneous neurotransmitter concentration sensing system (WINCS) for intraoperative neurochemical monitoring

Kimble, C., Johnson, D., Winter, B., Whitlock, S., Kressin, K., Home, A., Robinson, J., Bledsoe, J., Tye, S., Chang, S., Agnesi, F., Griessenauer, C., Covey, D., Shon, Y., Bennet, K., Garris, P., & Lee, K.

Conf. Proc. IEEE Eng Med. Biol. Soc, 4856-4859, (2009)

Journal Article

Compressed Principal Component Regression (C-PCR) Algorithm and FPGA Validation

Zamani, H., Bahrami, H., Garris, P., & Mohseni, P.

IEEE Transactions on Circuits and Systems II: Express Briefs, 67, 3512-3516, (2020)

C-FSCV: Compressive fast-scan cyclic voltammetry for brain dopamine recording

Zamani, H., Bahrami, H., Chalwadi, P., Garris, P., & Mohseni, P.

Transactions on Neural Systems and Rehabilitative Engineering, 26, 51-59, (2018)

Effects of an acute therapeutic or rewarding dose of amphetamine on acquisition of Pavlovian autoshaping and ventral striatal dopamine signaling

Schuweiler, D., Athens, J., Thompson, J., Vazhayil, S., & Garris, P.

Behavioural Brain Research, 336, 191-203, (2018)

Improving in situ electrode calibration with principal component regression for fast-scan cyclic voltammetry

Schuweiler, D., Howard, C., Ramsson, E., & Garris, P.

Analytical Chemistry, 90, 13434-13442, (2018)

On the use of compressive sensing (CS) for brain dopamine recording with fast-scan cyclic voltammetry (FSCV)

Zamani, H., Bahrami, H., Garris, P., & Mohseni, P.

Conf. Proc. IEEE International Conference on Semantic Computing, 310-313, (2017)

Amphetamine elevates nucleus accumbens dopamine via an action potential-dependent mechanism that is modulated by endocannabinoids

Covey, D., Bunner, K., Cheer, J., & Garris, P.

European Journal of Neuroscience, 43, 1661-1673, (2016)

Modafinil activates phasic dopamine signaling in dorsal and ventral striata

Bobak, M., Weber, M., Doellman, M., Schuweiler, D., Athens, J., Juliano, S., & Garris, P.

Journal of Pharmacology and Experimental Therapeutics, 359, 460-470, (2016)

Neurochemostat: a neural interface SoC with integrated chemometrics for close-loop regulation of brain dopamine

Bozorgzadeh, B., Schuweiler, D., Bobak, M., Garris, P., & Mohseni, P.

IEEE Transactions on Biomedical Circuits and Systems, 10, 654-667, (2016)

FPGA implementation of principal component regression (PCR) for real-time differentiation of dopamine from interferents

Bozorgzadeh, B., Covey, D., Garris, P., & Mohseni, P.

Conf. Proc. IEEE Eng. Med. Biol. Soc., 5151-5154, (2015)

Neurochemical thermostat: a neural interface SoC with integrated chemometrics for close-loop regulation of brain dopamine

Bozorgzadeh, B., Schuweiler, D., Bobak, M., Garris, P., & Mohseni, P.

Dig. Tech. Papers IEEE Symp. VLSI Circuits, 110-111, (2015)

Real-time monitoring of electrically evoked catecholamine signals in the songbird striatum using in vivo fast-scan cyclic voltammetry

Smith, A., Garris, P., & Casto, J.

Journal of Chemical Neuroanatomy, 66-67, 28-39, (2015)

A neurochemical pattern generator SoC with switched-electrode management for single-chip electrical stimulation and 9.3µW, 78pArms, 400V/s FSCV sensing

Bozorgzadeh, B., Covey, D., Howard, C., Garris, P., & Mohseni, P.

IEEE Journal of Solid-State Circuits, 49, 881-895, (2014)

Illicit dopamine transients: reconciling actions of abused drugs

Covey, D., & Garris, P.

Trends in Neurosciences, 37, 200-210, (2014)

Methamphetamine-induced neurotoxicity disrupts pharmacologically evoked dopamine transients in the dorsomedial and dorsolateral striatum

Robinson, J., Christopher, H., Byers, D., Pastuzyn, E., Keefe, K., & Garris, P.

Neurotoxicity Research, 26, 152-167, (2014)

Real-time processing of fast-scan cyclic voltammetry (FSCV) data using a field-programmable gate array (FPGA)

Bozorgzadeh, B., Covey, D., Heidenreich, PhD, B., Garris, P., & Mohseni, P.

Conf. Proc. IEEE Eng. Med. Biol. Soc., 2036-3039, (2014)

A neurochemical pattern generator SoC with switched-electrode management for single-chip electrical stimulation and 9.3µW, 78pArms, 400V/s FSCV sensing

Bozorgzadeh, B., Covey, D., Howard, C., Garris, P., & Mohseni, P.

Dig. Tech. Papers IEEE Symp. VLSI Circuits, C-1, 50-51, (2013)

Amphetamine augments vesicular dopamine release in the dorsal and ventral striatum through different mechanisms. Journal of Neurochemistry

Avelar , A., Juliano, S., & Garris, P.

Journal of Neurochemistry, 125, 373-385, (2013)

Amphetamine elicits opposing actions on readily releasable and reserve pools for dopamine

Dan, C., Juliano, J., & Garris, P.

PLoS, 8, e60763, (2013)

Amphetamine paradoxically augments exocytotic dopamine release and phasic dopamine signals.

Daberkow, D., Brown, H., Bunner, K., Kraniotis, S., Doellman, M., Ragozino, M., Garris, P., & Roitman, M.

Journal of Neuroscience, 33, 452-463, (2013)

Characterization of ultrananocrystalline diamond microsensors for in vivo dopamine detection

Arumugam, P., Zeng, H., Siddiqui, S., Covey, D., & Garris, P.

Applied Physics Letters, 102, 253107(1-5), (2013)

Methamphetamine-induced neurotoxicity disrupts naturally occuring phasic dopamine signaling

Howard, C., Daberkow, D., Ramsson, E., Keefe, K., & Garris, P.

European Journal of Neuroscience, 38, 2078-2088, (2013)

Phasic-like stimulation of the medial forebrain bundle augments striatal gene expression despite methamphetamine-induced partial dopamine denervation

Howard, C., Pastuzyn, E., Barker-Halisk, M., Garris, P., & Keefe, K.

Journal of Neurochemistry, 125, 555-565, (2013)

Wireless fast-scan cyclic voltammetry to monitor adenosine in patients with essential tremor during deep brain stimulation

Chang, S., Kim, I., Marsh, M., Jang, D., Hwang, S., Van Gompel, J., Goerss, S., Kimble, C., Bennet, K., Garris, P., Blaha, C., & Lee, K.

Mayo Clinic Proceedings, 87, 760-765, (2012)

Amphetamine augments action potential-dependent dopaminergic signaling in the striatum in vivo

Ramsson, E., Covey, D., Daberkow, D., Litherland, M., Juliano, S., & Garris, P.

Journal of Neurochemistry, (117), 937-948, (2011)

Functional reorganization of the presynaptic dopaminergic terminal in parkinsonism

Bergstrom, B., Sandberg, S., Andersson, M., Mithyantha, J., Carroll, F., & Garris, P.

Neuroscience, (193), 310-322, (2011)

Other

Emerging techniques for elucidating mechanism of action of Deep Brain Stimulation

Lee, K., Chang, S., Jang, D., Kim, I., Goerss, S., Van Gompel, J., Min, P., Arora, K., Marsh, M., Hwang, S., Kimble, C., Garris, P., Blaha, C., & Bennet, K.

Conf. Proc. IEEE Eng. Med. Biol. Soc., 677-680, (2011)