Ali Zaher Kamel ALKALEEL

Asst. Prof. Dr. ALI ZAHER KAMEL AL-KALEEL

Faculty of Medicine

Telephone number +90 392 671 11 11
Extension 2563
Office MD106
Other information

CURRICULUM VITAE

Education
  • Ondokuz Mayis University Faculty of Medicine / Physiology Department (PhD, 2020)
  • Cairo University Faculty of Medicine (Undergraduate, 2009)
Publications

Articles published in peer reviewed international journals (SCI,SSCI,Arts and Humanities)

  • THE effect of general anesthetics on genetic absence epilepsy in WAG/Rij rats. - 2022
  • The effect of Madopar on absence‑like seizures in WAG/Rij rats - 2022
  • Vitamin D may prevent COVID-19 induced pregnancy complication - 2021

Papers presented in National conferences and printed as proceedings

  • The Effect of Hemopressin on Epileptiform Activity in Pentylenetetrazol Kindling Model of Epilepsy in Rats. - 2019
  • The Effect of CB1 Receptor Agonist and Antagonist on the Epileptiform Activity in Pentylenetetrazol Kindling Model of Epilepsy in Rats. - 2019
  • Ağar. The Effect of Isoflurane and Ketamine/Xylazine on Epileptiform Activity in a Rat Model with Genetic Absence Epilepsy (WAG\Rij). - 2019
  • The role of CB1 receptor agonist ACEA on the inhibitory effect of hemopressin on absence-like seizures in WAG / Rij rats. - 2017

Papers presented in international conferences and printed as proceedings

  • The effect of hemopressin on ECoG activity of absence epilepsy model in WAG/Rij rats. - 2017
Projects
  • The Effect of Idebenone on absence seizure in WAG/Rij rat model.
  • The effect of Metformin on absence seizure in WAG/Rij rat model
  • The effect of Madopar® on absence epilepsy [WAG/Rij rats].
  • The effect of general anaesthetics on genetic absence epilepsy rats WAG/Rij.
  • Investigating the effect of hemopressin and its relationship with the cannabinoid type 1 receptor in the absence model of epilepsy (WAG/Rij rats).
  • Investigating the effect of hemopressin on PTZ kindling model of epilepsy, and its relationship with the CB1 receptor.
Awards
  • First Poster Prize (2017)
Research Areas
  • Neurpphysiology
  • Epilepsy
  • Electrophysiology
  • COVID-19