Pedro Irazoqui, Ph.D.

Affiliations: 
Biomedical Engineering Purdue University, West Lafayette, IN, United States 
Area:
Implantable Devices, Epilepsy, Prosthetics, Implantable Electrodes
Website:
https://engineering.purdue.edu/BME/People/viewPersonById?resource_id=20328
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"Pedro Irazoqui"
Bio:

Dr. Irazoqui received his B.Sc. and M.Sc. degrees in Electrical Engineering from the University of New Hampshire, Durham in 1997 and 1999 respectively, and the Ph.D. in Neuroengineering from the University of California at Los Angeles in 2003.

Currently he is an assistant professor in the Weldon School of Biomedical Engineering at Purdue University, and director of the Center for Implantable Devices pursuing research into a modular approach to the design of biological implants. Devices are applied to the clinical treatment of physiological disorders, using miniature, wireless, implantable systems. Specific research and clinical applications explored iinclude: epilepsy, glaucoma, cardiology, and neural interfaces.

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Parents

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Istvan Mody grad student 2003 UCLA
 (Transcutaneous inductively powered neural recording system.)

Children

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Eric Y. Chow grad student 2009 Purdue
Travis J. Hassell grad student 2010 Purdue
Shriram Raghunathan grad student 2010 Purdue
Brooke L. Beier grad student 2011 Purdue
Pooja Rajdev grad student 2011 Purdue
Ian D. Dryg grad student 2012-2013 Purdue
Oren Z. Gall grad student 2014 Purdue
Jimin Maeng grad student 2014 Purdue

Collaborators

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John Gordon Ralph Jefferys collaborator 2012- Oxford
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Publications

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Shah JV, Quinkert CJ, Collar BJ, et al. (2022) A Highly Miniaturized, Chronically Implanted ASIC for Electrical Nerve Stimulation. Ieee Transactions On Biomedical Circuits and Systems
Bhamra H, Huang Y, Yuan Q, et al. (2020) An Ultra-Low Power 2.4 GHz Transmitter for Energy Harvested Wireless Sensor Nodes and Biomedical Devices Ieee Transactions On Circuits and Systems Ii-Express Briefs. 1-1
Collar B, Simón G, Yuan Q, et al. (2019) Semi-permanent transcorneal filter support and in vivo surgical implantation technique for open-angle glaucoma treatment. Biomedical Microdevices. 21: 92
Gall OZ, Meng C, Bhamra H, et al. (2018) A Batteryless Energy Harvesting Storage System for Implantable Medical Devices Demonstrated In Situ Circuits, Systems, and Signal Processing. 38: 1360-1373
Bhamra H, Tsai JW, Huang YW, et al. (2017) A Subcubic Millimeter Wireless Implantable Intraocular Pressure Monitor Microsystem. Ieee Transactions On Biomedical Circuits and Systems. 11: 1204-1215
Bhamra H, Lynch J, Ward M, et al. (2017) A Noise-Power-Area Optimized Biosensing Front End for Wireless Body Sensor Nodes and Medical Implantable Devices Ieee Transactions On Very Large Scale Integration (Vlsi) Systems. 25: 2917-2928
Mei H, Thackston K, Bercich R, et al. (2016) Cavity Resonator Wireless Power Transfer System for Freely Moving Animal Experiments. Ieee Transactions On Bio-Medical Engineering
Maeng J, Kim YJ, Meng C, et al. (2016) Three-Dimensional Microcavity Array Electrodes for High-Capacitance All-Solid-State Flexible Micro-Supercapacitors. Acs Applied Materials & Interfaces
Kim YJ, Maeng J, Irazoqui PP. (2015) Eyeglasses-powered, contact lens-like platform with high power transfer efficiency. Biomedical Microdevices. 17: 9979
Nagaraj V, Lee ST, Krook-Magnuson E, et al. (2015) Future of seizure prediction and intervention: closing the loop. Journal of Clinical Neurophysiology : Official Publication of the American Electroencephalographic Society. 32: 194-206
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