Publications

Found 9 results
Author Title [ Type(Asc)] Year
Filters: Author is Ma, Hongtao  [Clear All Filters]
Journal Article
Niemeyer JE, Gadamsetty P, Chun C, Sylvester S, Lucas JP, Ma H, Schwartz TH, Aksay ERF.  2022.  Seizures initiate in zones of relative hyperexcitation in a zebrafish epilepsy model.. Brain.
Liou J-Y, Ma H, Wenzel M, Zhao M, Baird-Daniel E, Smith EH, Daniel A, Emerson R, Yuste R, Schwartz TH et al..  2018.  Role of inhibitory control in modulating focal seizure spread.. Brain. 141(7):2083-2097.
Li J, Yang F, Zhan F, Estin J, Iyer A, Zhao M, Niemeyer JE, Luo P, Li D, Lin W et al..  2024.  Mesoscopic mapping of hemodynamic responses and neuronal activity during pharmacologically induced interictal spikes in awake and anesthetized mice.. J Cereb Blood Flow Metab. :271678X241226742.
Ming Q, Liou J-Y, Yang F, Li J, Chu C, Zhou Q, Wu D, Xu S, Luo P, Liang J et al..  2020.  Isoflurane-Induced Burst Suppression Is a Thalamus-Modulated, Focal-Onset Rhythm With Persistent Local Asynchrony and Variable Propagation Patterns in Rats.. Front Syst Neurosci. 14:599781.
Hoffman CE, Parker WE, Rapoport BI, Zhao M, Ma H, Schwartz TH.  2020.  Innovations in the Neurosurgical Management of Epilepsy.. World Neurosurg. 139:775-788.
Nagappan S, Liu L, Fetcho R, Nguyen J, Nishimura N, Radwanski RE, Lieberman S, Baird-Daniel E, Ma H, Zhao M et al..  2019.  In Vivo Femtosecond Laser Subsurface Cortical Microtransections Attenuate Acute Rat Focal Seizures.. Cereb Cortex. 29(8):3415-3426.
Baird-Daniel E, Daniel AGS, Wenzel M, Li D, Liou J-Y, Laffont P, Zhao M, Yuste R, Ma H, Schwartz TH.  2017.  Glial Calcium Waves are Triggered by Seizure Activity and Not Essential for Initiating Ictal Onset or Neurovascular Coupling.. Cereb Cortex. 27(6):3318-3330.
Luo P, Yang F, Li J, Niemeyer JE, Zhan F, Estin J, Zhao M, Li D, Lin W, Liou J-Y et al..  2023.  Excitatory-inhibitory mismatch shapes node recruitment in an epileptic network. Epilepsia.
Liou J-Y, Baird-Daniel E, Zhao M, Daniel A, Schevon CA, Ma H, Schwartz TH.  2019.  Burst suppression uncovers rapid widespread alterations in network excitability caused by an acute seizure focus.. Brain. 142(10):3045-3058.