One postdoctoral research position is available at the NeuroImaging and Electrophysiology Lab (www.tandonlab.org) in the Department of Neurosurgery at the University of Texas Medical School in Houston. This position is funded by a recently awarded BRAIN Initiative U01 grant for which Dr. Tandon is the PI. The project uses intracranial EEG (iEEG) recordings on a large cohort (n=80) to evaluate psycho-linguistic models of reading and speech production with the goal being to create network level representation of language. Collaborators on the project with whom the post-doc will work closely are Nathan Crone (Hopkins), Greg Hickok (UCI), Stanislas Dehaene (College de France), Xaq Pitkow (Baylor) and Josh Breier (UT Houston).
This is a close multi center collaboration that brings together investigators with established track records in iEEG recordings, neuroscience of language and computational neuroscience to better understand the uniquely human behavior of reading and producing language. More details about the U01 grant are online at NIH Reporter. The post-doc will benefit from a close interaction with several experts in the fields of reading, semantics, and speech production.
The selected individual is expected to be a highly motivated, team player that has the passion to study cognitive processes using direct recordings in humans. He or she will be responsible for 1) optimizing and refining paradigms for use in the project, 2) data collection in the epilepsy monitoring unit and in the MRI scanner, 3) iEEG data analysis using a analysis pipelines existent in the lab and via the development of innovative strategies, and 4) data presentation at conferences, manuscript and grant writing.
The selected individual must have a Ph.D. in one or more of the following - neuroscience, psychology, cognitive science, mathematics, electrical engineering or computer science. Previous experience in neural time series data analysis or functional imaging studies of reading or speech production is highly desirable. Crucial is the ability to independently code in either or all of the following – MATLAB, R or Python. Given the multiple unpredictable variables and privacy issues around data collection in human patients, the individual must possess high ethical and professionalism standards, be able to adapt to a changing environment, reorganize schedules dynamically, and work with tight deadlines. The individual must possess the ability to work effectively independently, yet collaborate effectively on projects with multiple investigators. A strong publication record and excellent prior academic credentials are highly desirable.
Additional Salary Information: Health Care included, can be eligible for vision, and dental as well.
About University of Texas Health Sciences Center at Houston
Welcome to the functional and structural neuro-imaging and intra-cranial electrophysiology lab in the neurological surgery department at the University of Texas Medical School at Houston.
This lab focuses on the study of cognitive functions using imaging and invasive electrophysiology. We are particularly interested in higher cognitive functions, including language, memory and executive contro...l. We study these processes in normal humans and in patients undergoing resection for epilepsy or brain tumors. Diffusion tractography, functional MRI and behavioral testing are carried out prior to and after resections. In many patients, we also study cortical processes using intracranial electro-physiologic techniques. These electrocortico-graphic and cortical stimulation data are also compared with the functional and structural imaging data to better delineate the network underlying these disseminated cognitive operations.