• Band specific changes in thalamocortical synchrony in field potentials after Cardiac Arrest induced global hypoxia
    with A. Maybhate, C. Chen, Y. Akbari, D. L. Sherman, K. Shen, and N. V. Thakor
    Cardiac Arrest leads to a global hypoxic-ischemic injury in the brain leading to a poor neurological outcome. Understanding the mechanisms of functional disruption in various regions of the brain may be essential for the development of improved diagnostic and therapeutic solutions. Using controlled laboratory experiment with animal models of CA, our primary focus here is on understanding the functional changes in the thalamus and the cortex, associated with the injury and acute recovery upon res…Read more