Division of
EMERGENCY MEDICINE
University of Colorado Denver
School of Medicine
Todd Larabee, MD
Associate Professor of Surgery
Division of Emergency Medicine
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Education:
University of California, San Diego, CA; BA; 1983-1987; Biochemistry/Cell
Biology
University of Basel, Basel, Switzerland; 1989; Doctoral Student
Medical College of Wisconsin, Milwaukee, WI; MD; 1991-1995; Medicine
St. Joseph Hospital, Milwaukee, WI; Internship; 1995-1996; Medicine
Medical College of Wisconsin, Milwaukee, WI; 1996-1999; Emergency
Medicine
Research Interests:
Mechanical adjuncts in cardiac arrest and resuscitation
Thrombolytics in cardiac arrest and resuscitation
Molecular mechanisms in cardiac arrest and resuscitation
Wilderness medicine
Selected Publications:
Larabee TM, Paradis NA, Cheng L, Bartsch J, Little CM. A New Swine Model of Prolonged Pseudo-Pulseless Electrical Activity Induced by Partial Hypoxia. Resuscitation, 2008; 78 (2): 196-199
Aufderheide TP, Larabee TM, and Paradis NA, Special Considerations in Nonfibrillatory Cardiac Arrest, in Cardiac Resuscitation: The Science and Practice of Resuscitation Medicine (2nd edition), Norman A Paradis, ed (2007)
Larabee TM, VonOhlsen J, Kopelove A, Paradis NA, Little CM. Cardiac Synchronization Technology times chest compressions from an external compression device with residual cardiac activity during pseudo-PEA cardiac arrest. Academic Emergency Medicine 2008; 15(5): S92
Larabee, TM, VonOhlsen J, Kopelove A, Paradis NA, Little CM Synchronization of chest compressions with residual systolic cardiac activity is associated with improved coronary perfusion pressures in a swine model of pseudo-pulseless electrical activity cardiac arrest. Academic Emergency Medicine 2008; 15(5): S17
Little CM, VonOhlsen J, Kopelove A, Paradis NA, Larabee TM. EKG-synchronized external chest compressions during diastole worsens subsequent coronary perfusion pressures in pseudo-PEA arrest. Academic Emergency Medicine 2008; 15(5): S91
Larabee TM, Little CM, et.al., A Hands-free, Noninvasive Carotid Doppler Device Differentiates Pseudo-Pulseless Electrical Activity From True Pulseless Electrical Activity in a Swine Model of Cardiac Arrest. Resuscitation (submitted)
