Publications (co-)authored by Mark Angelos with students in the Biophysics program

[1] 

Sverre E Aune, Steve T Yeh, Periannan Kuppusamy, M Lakshmi Kuppusamy, Mahmood Khan, and Mark G Angelos
"Sivelestat attenuates myocardial reperfusion injury during brief low flow postischemic infusion."
Oxid Med Cell Longev 2013, 279847 (2013).

[2] 

Steve T Yeh, Sverre E Aune, Traci A Wilgus, Allison E Parent, and Mark G Angelos
"Hyperoxemic reperfusion after prolonged cardiac arrest in a rat cardiopulmonary bypass resuscitation model."
Resuscitation 84, 114-20 (2013).

[3] 

Mark G Angelos, Steve T Yeh, and Sverre E Aune
"Post-cardiac arrest hyperoxia and mitochondrial function."
Resuscitation 82, S48-51 (2011).

[4] 

Sverre E Aune, Steve T Yeh, Daniel P Zelinski, and Mark G Angelos
"Measurement of hydrogen peroxide and oxidant stress in a recirculating whole blood-perfused rat heart model."
Resuscitation 82, 222-7 (2011).

[5] 

Steve T Yeh, Hsin-Ling Lee, Sverre E Aune, Chwen-Lih Chen, Yeong-Renn Chen, and Mark G Angelos
"Preservation of mitochondrial function with cardiopulmonary resuscitation in prolonged cardiac arrest in rats."
J. Mol. Cell. Cardiol. 47, 789-97 (2009).

[6] 

Steve T Yeh, Rebekah J Cawley, Sverre E Aune, and Mark G Angelos
"Oxygen requirement during cardiopulmonary resuscitation CPR to effect return of spontaneous circulation."
Resuscitation 80, 951-5 (2009).

[7] 

Mark G Angelos, Ryan L Butke, Ashish R Panchal, Carlos A A Torres, Alan Blumberg, Jim E Schneider, and Sverre E Aune
"Cardiovascular response to epinephrine varies with increasing duration of cardiac arrest."
Resuscitation 77, 101-10 (2008).

[8] 

Jessica A Falk, Sverre E Aune, Vijay K Kutala, Periannan Kuppusamy, and Mark G Angelos
"Inhibition of peroxynitrite precursors, NO and O2, at the onset of reperfusion improves myocardial recovery."
Resuscitation 74, 508-15 (2007).

[9] 

Jason D Stoner, Thomas L Clanton, Sverre E Aune, and Mark G Angelos
"O2 delivery and redox state are determinants of compartment-specific reactive O2 species in myocardial reperfusion."
Am. J. Physiol. Heart Circ. Physiol. 292, H109-16 (2007).

[10] 

Brian S Palmer, Paul F Klawitter, Peter J Reiser, and Mark G Angelos
"Degradation of rat cardiac troponin I during ischemia independent of reperfusion."
Am. J. Physiol. Heart Circ. Physiol. 287, H1269-75 (2004).

[11] 

Brian S Palmer, Mersiha Hadziahmetovic, Timothy Veci, and Mark G Angelos
"Global ischemic duration and reperfusion function in the isolated perfused rat heart."
Resuscitation 62, 97-106 (2004).

[12] 

Mark G Angelos, Holt N Murray, Robert T Gorsline, and Paul F Klawitter
"Glucose, insulin and potassium GIK during reperfusion mediates improved myocardial bioenergetics."
Resuscitation 55, 329-36 (2002).

[13] 

Paul F Klawitter, Holt N Murray, Thomas L Clanton, Brian S Palmer, and Mark G Angelos
"Low flow after global ischemia to improve postischemic myocardial function and bioenergetics."
Crit. Care Med. 30, 2542-7 (2002).

[14] 

Paul F Klawitter, Holt N Murray, Thomas L Clanton, and Mark G Angelos
"Reactive oxygen species generated during myocardial ischemia enable energetic recovery during reperfusion."
Am. J. Physiol. Heart Circ. Physiol. 283, H1656-61 (2002).

[15] 

M G Angelos, C A Torres, M D Waite, D P Rath, H Zhu, P D Beckley, B S Palmer, and P M Robitaille
"Left ventricular myocardial adenosine triphosphate changes during reperfusion of ventricular fibrillation: the influence of flow and epinephrine."
Crit. Care Med. 28, 1503-8 (2000).

[16] 

M G Angelos, C A Torres, D P Rath, H Zhu, P D Beckley, and P M Robitaille
"In-vivo myocardial substrate alteration during perfused ventricular fibrillation."
Academic emergency medicine : official journal of the Society for Academic Emergency Medicine 6, 581-7 (1999).