Dr. Alexandra (Alie) Wudwud

Dr. Alie Wudwud
Dr. Alexandra (Alie) Wudwud MD, MSc, FRCPC
Lecturer
TOH DEM Roles:
Faculty Simulation Educator
External Roles:
TOH Simulation Patient Safety Program Faculty Physician Simulation Educator

Site: The Ottawa Hospital (TOH)



Biography

Medical school

  • University of Toronto (2020)

Residency

  • Emergency Medicine (RCPSC), University of Ottawa

Fellowships

  • Simulation Fellow (2024-2025)

Academic Focus

  • Simulation
  • Resuscitation

Award Highlights

  • Trauma (EM) Resident Award (2025)
  • PARO Resident Teaching Award (2025)

Selected Publications

  • Wudwud A, Raichura R, Yang S, Nguyen P, Toarta C, Cao G, Vu P, Lee S, Ghaedi B, Gupta P, Thiruganasambandamoorthy V. ACS in the high sensitivity cardiac troponin era: a health records review. CAEP/ACMU 2024 Scientific Abstract. Abstract LO52. Can J Emerg Med 26 (Suppl 1), 1–89 (2024). 
  • Wudwud A, Hendin A, Perry J.Does targeting a higher versus lower MAP improve survival following out-of-hospital cardiac arrest? CJEM; 2023. May: 25(5): 376-377.
     
  • Cheskes S, Wudwud A, Turner L, McLeod S, Summers J, Morrison LJ, Verbeek PR. The impact of double sequential external defibrillation on termination of refractory ventricular fibrillation during  out-of-hospital cardiac arrest. Resuscitation; 2019. May: 139: 275-281.
     
  • Yeung T, Fung O, Bashkurov M, Khandani A, Subedar O, Wudwud A, Shaw P, Clarke B, Bartlett J, Rottapel R, Kapus A. Avoidance of apoptotic death via a hyperploid salvage survival pathway after platinum treatment in high grade serous carcinoma cell line models. Oncotarget. 2019 Nov 19;10(62):6691-6712. 
     
  • Rampersad SN, Wudwud A, Hubert F, Maurice DH. Adaptive phenotypic modulation of human arterial endothelial cells to fluid shear stress-encoded signals: modulation by phosphodiesterase 4D-VE-cadherin signalling. Cell Signal. 2016 Jul;28(7):741-8. 
     
  • Maurice DH, Wilson LS, Rampersad SN, Hubert F, Truong T, Kaczmarek M, Brzezinska P, Freitag SI, Umana MB, Wudwud A. Cyclic nucleotide phosphodiesterases (PDEs): coincidence detectors acting to spatially and temporally integrate cyclic nucleotide and non-cyclic nucleotide signals. Biochem Soc Trans. 2014 Apr;42(2):250-6.


Updated - June 2026