Robert Rennaker

Texas Instruments Distinguished Chair in Bioengineering
Professor - Behavioral and Brain Sciences
Associate Director, Texas Biomedical Device Center
UTD Webpage
Tags: Cognition and Neuroscience

Professional Preparation

Ph.D. - Bioengineering
Arizona State University - 2002
M.S. - Bioengineering
Arizona State University - 2001
B.S.E. - Bioengineering
Arizona State University - 1997

Research Areas

Research Interests

Dr. Rennaker's research focuses on the development of technoloies to prevenet, detect and treat neurological injury and disease.  


Rennaker RL, Miller J, Tang H, and Wilson DA Minocycline increases quality and longevity of chronic neural recordings. Journal of Neural Engineering, 2007 (4) pp L1-L5 2007 - Publication
Ibrahim T.S., Abraham D, Rennaker R.L.; Electromagnetic power absorption and temperature changes due to brain machine interface operation. Annals of Biomedical Engineering, March 2007 (35) Issue 5, 2007 - Publication
D. Abraham, R.L. Rennaker, T.S. Ibrahim; The Electromagnetics of Wireless Brain Machine Interface Operation. In The Proceedings of The 17th International Zurich Symposium on Electromagnetic Compatibility Meeting, Singapore; 2006 2006 - Publication
S.Anderson, M.P. Kilgard, A.M. Sloan, R.L. Rennaker; Response to broadband repetitive stimuli in auditory cortex of the unanesthetized rat; Hearing Research. 2006 (213): 107-117 2006 - Publication
R.L. Rennaker, A.M. Ruyle, S. Street, A. Sloan: A comparison of chronic multi-channel cortical implantation techniques: manual versus mechanical insertion. J Neuroscience Methods. 2005 Mar 30; 142(2):169-76. 2005 - Publication
R.L. Rennaker, A.M. Ruyle, S. Street, A. Sloan: An economical multi-channel cortical electrode array for extended periods of recording during behavior. J Neuroscience Methods. 2005 Mar 15; 142(1):97-105. 2005 - Publication
D. Abraham, R.L. Rennaker, T.S. Ibrahim; An FDTD Analysis of Wireless Brain-Machine Interface Devices. The Proceedings of The IEEE APS and USNC/CNC/URSI North American Radio Science Meeting, Washington, DC 2005 2005 - Publication
Justin C. Vlhlliams, Robert L. Rennaker, Daggl R. Kipke; Stability of chronic multichannel neural recordings: Implications for a long-term neural interface. Neurocomputing 26-27: 1069-1076 (1999) 1999 - Publication
Justin C. \MIIiams, Robert L. Rennaker, Daryl R. Kipke; Long-term neural recording characteristics of wire microelectrode arrays implanted in cerebral cortex. Brain Research Protocols Vol. 4 Issue 3 December 1999 1999 - Publication


Associate Professor
The University of Texas at Dallas [2018–Present]
Department Chair
The University of Texas at Dallas [2013–Present]
Full Professor
The University of Texas at Dallas [2013–Present]
The University of Texas at Dallas [2012–Present]
Associate Professor
The University of Texas Dallas [2009–Present]
Associate Professor
The University of Oklahoma, Norman Oklahoma [2009–2018]
Vulintus LLC, Saches Texas [2009–Present]
Vulintus LLC [2007–Present]
Post-Doctoral Researcher
The University of Texas at Dallas [2002–2002]
Assistant Professor
The University of Oklahoma [2002–2009]


The effect of MK801 on auditory cortex receptive fields in the awake rat
2018–2018 Sloan AM and Rennaker RL.; TuckerDavis Symposium on Advances and Perspectives in Auditory Neurophysiology; Atlanta, GA.
Fine-grain frequency discrimination thresholds in albino rats.
2008–2008 Dodd D., Rennaker RL; Society for Neuroscience Annual Meeting, Washington DC
Development of a Distributed Neural Interface System
2006–2006 Robert RL, Hutchens C., Ibrahim T., Miller L., Cogan S.; NIH Neural Interface Conference, Cleveland Ohio
Temporal and bandwidth analyses of forward masking in the nonanesthetized rat
2018–2018 Bjorlie J, Sloan AM, and Rennaker RL.; Society for Neuroscience Annual Meeting/Tucker-Davis Symposium on Advances and Perspectives in Auditory Neurophysiology; Atlanta, GA
Effect of minocycline administration on chronic neural interfaces in rats: recording quality and glial response
2018–2018 Sloan AM, Tang H, and Rennaker RL.; Society for Neuroscience Annual Meeting; Atlanta, GA

Additional Information

  • Whitaker Ph.D. Fellowship, Arizona State University 1998
  • Tom J. Love Outstanding Professor, Unlverslty of Oklahoma, 2003
  • Alumni Teaching Award, University of Oklahoma, 2007
  • Presidential Professorship, The University of Oklahoma Presidential Associates 2009
Personal Statement

Dr. Rennaker graduated high school in 1988 and then served in the United States Marine Corps for 5 years. During that time, Dr. Rennaker participated in Operation Sharp Edge in Liberia, Desert Shield/Storm in Kuwait, and Provide Comfort in Yugoslavia. Following his honorable discharge, Dr. Rennaker received his BSE (1997), MS (1999) and Ph.D. (2002) in Biomedical Engineering from Arizona State University. Following graduation Dr. Rennaker spent seven years at the University of Oklahoma in the Aerospace and Mechanical Engineering Department as an Assistant (’02- ’09) and Associate (2009) professor. Dr. Rennaker is a Full professor with appointments in Elecrical Engineering, Neuroscience, and Bioengineering.   Dr. Rennaker is the director of the Texas Biomedical Device Center and Chair of the Bioengineering Department.  Dr. Rennaker and his wife Paula have 3 children.

News Articles

Neural Engineer Appointed to Lead Bioengineering Department
Dr. Robert L. Rennaker II, an expert in the development of neural interfaces, and is the Chair of the Department of Bioengineering,Created in 2010, The Department of Bioengineering grants graduate degrees in biomedical engineering in collaboration with UT Southwestern Medical Center and UT Arlington. The program emphasizes an interdisciplinary approach, combining expertise in electrical, mechanical and materials engineering, coupled with the life sciences. The undergraduate program, based entirely at UT Dallas, is similar, giving students a foundation in engineering and mathematics, complemented with biology, physiology and medical instrumentation.



Vulintus Inc is a biomedical research company located in Dallas.  The company builds preclinical research equipment.

Chief Executive Officer

Optokinetix has developed a system to detect changes in brain function.  The system may be used for detection of concussions, impairment and monitor the efficacy of various therapies.


Consultant for Konan Medical USA


Center for Application of Single-Walled Carbon Nanotubes
$960,000; C0-I (10%) - DOE [2018–2018]
Mechanisms of TPT
$2,400,000 - NIH [2016–2020]
Making Texas Leader in Bioelectronic Medicine
$2,000,000 - W.W. Caruth Jr. Foundation [2016–2017]
4,100,000 - DARPA [2015–2017]
GSK Challenge
200,000 - GSK [2015–2015]