Department of Psychology
Department of Psychology

Zoltan Nadasdy


Adjunct ProfessorPh.D., Rutgers University

Adjunct Assistant Professor
Zoltan Nadasdy

Contact

Interests


Grid cells, spatial cognition, gamma oscillations, seizure prediction, neural coding

Biography


My lab's main interest is to understand the fundamental mechanisms of neural coding, the relationship between intrinsic oscillations and spike patterns in particular. I developed computational and experimental tools over years of studying Neuroscience at the Rutgers University (Ph.D.) and during his post-doctoral trainings in electrophysiology at the Hebrew University of Jerusalem and at the California Institute of Technology. Today we apply these methods on human electrophysiology data to study spike sequences, phase coding, seizure initiation and neural correlates of visual perception. 

Courses


PSY 341K • Electrophysiology Of The Human

43234 • Spring 2017
Meets TTH 12:30PM-2:00PM SEA 2.116

This lecture course is designed to provide students with an understanding of the process of braindevelopment from embryogenesis through adulthood with emphasis on the role of the environment in directing this process. Initial lectures will focus on the origins of the central nervous system, including topics such as the organization of the brain, neurogenesis, cellular differentiation, migration and targeting of neurons, synapse formation and refinement of the nervous system. In the second half of the course, lectures will focus on the infant brain and the role of experiences during infancy in modifying brain function. Topics will also include recent advances in our understanding of the role of gene-environment interactions and epigenetic programming and shaping brain development. Finally, the adaptive vs. maladaptive outcomes of environmental modifications to the nervous system will be discussed. Throughout the course, students will be guided through examples of how changes in the developing nervous system lead to behavioral patterns both in infancy and adulthood.

PSY 341K • Electrophysiology Of The Human

42365 • Spring 2016
Meets TTH 2:00PM-3:30PM SEA 4.242

This lecture course is designed to provide students with an understanding of the process of braindevelopment from embryogenesis through adulthood with emphasis on the role of the environment in directing this process. Initial lectures will focus on the origins of the central nervous system, including topics such as the organization of the brain, neurogenesis, cellular differentiation, migration and targeting of neurons, synapse formation and refinement of the nervous system. In the second half of the course, lectures will focus on the infant brain and the role of experiences during infancy in modifying brain function. Topics will also include recent advances in our understanding of the role of gene-environment interactions and epigenetic programming and shaping brain development. Finally, the adaptive vs. maladaptive outcomes of environmental modifications to the nervous system will be discussed. Throughout the course, students will be guided through examples of how changes in the developing nervous system lead to behavioral patterns both in infancy and adulthood.

PSY 341K • Electrophysiology Of The Human

42685 • Spring 2015
Meets TTH 2:00PM-3:30PM SEA 4.242

This lecture course is designed to provide students with an understanding of the process of braindevelopment from embryogenesis through adulthood with emphasis on the role of the environment in directing this process. Initial lectures will focus on the origins of the central nervous system, including topics such as the organization of the brain, neurogenesis, cellular differentiation, migration and targeting of neurons, synapse formation and refinement of the nervous system. In the second half of the course, lectures will focus on the infant brain and the role of experiences during infancy in modifying brain function. Topics will also include recent advances in our understanding of the role of gene-environment interactions and epigenetic programming and shaping brain development. Finally, the adaptive vs. maladaptive outcomes of environmental modifications to the nervous system will be discussed. Throughout the course, students will be guided through examples of how changes in the developing nervous system lead to behavioral patterns both in infancy and adulthood.

PSY 341K • Epilepsy & Alterd Brain States

44052 • Spring 2014
Meets TTH 2:00PM-3:30PM SEA 5.106

This lecture course is designed to provide students with an understanding of the process of braindevelopment from embryogenesis through adulthood with emphasis on the role of the environment in directing this process. Initial lectures will focus on the origins of the central nervous system, including topics such as the organization of the brain, neurogenesis, cellular differentiation, migration and targeting of neurons, synapse formation and refinement of the nervous system. In the second half of the course, lectures will focus on the infant brain and the role of experiences during infancy in modifying brain function. Topics will also include recent advances in our understanding of the role of gene-environment interactions and epigenetic programming and shaping brain development. Finally, the adaptive vs. maladaptive outcomes of environmental modifications to the nervous system will be discussed. Throughout the course, students will be guided through examples of how changes in the developing nervous system lead to behavioral patterns both in infancy and adulthood.

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  • Department of Psychology

    The University of Texas at Austin
    SEA 4.208
    108 E. Dean Keeton Stop A8000
    Austin, TX 78712-1043
    512-471-1157