In this episode, Dr. Faizan is joined with Dr. Keith Lurie as they discussed intrathoracic pressure regulation which is now a new modality to help understand the physiology of CPR.

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Dr. Keith Lurie is a practicing cardiac electrophysiologist and resuscitation scientist who, over the past 25 years, has devoted himself to study novel ways to resuscitate patients experiencing sudden cardiac arrest.  Dr. Lurie earned his bachelors degree at Yale University and his medical degree at Stanford University. He studied cardiovascular medicine at the University of California in San Francisco and later joined the faculty there.  He has been on the faculty at the University of Minnesota since 1991. As one of the leading innovators in the field, he has helped to develop new devices and methods that optimize cardio-pulmonary resuscitation (CPR) and, in turn, improve survival chances following cardiac arrest. In addition, he has become a respected thought leader in developing and implementing a systems-based approach to managing and treating sudden cardiac death events. Some of his most notable contributions include the development and assessment of various resuscitative techniques such as the impedance threshold device (ITD), active compression-decompression (ACD) CPR and the use of intra-thoracic pressure regulation to modulate cerebral and systemic circulation in states of severe hypotension and head injury. He has also helped to develop devices to treat heart failure and abnormal heart rhythms. He has mentored scores of research and clinical fellows over the past 30 years and he actively collaborates with multiple scientist colleagues worldwide. A professor of Emergency Medicine and Internal Medicine at the University of Minnesota, Dr. Lurie also directs an NIH-funded research laboratory at Hennepin County Medical Center in Minneapolis and he is a consultant for Zoll Medical.

Selected Peer-Reviewed Publications (Selected from over 200 publications):

  1. Lurie KG, Nemergut EC, Yannopoulos D, Sweeney M. The physiology of cardiopulmonary resuscitation. Anesth Analg. 11/2015
  2. Kwon Y, Debaty G, Puertas L, Metzger A, Rees J, McKnite S, Yannopoulos D, Lurie K. Effect of regulating airway pressure on intrathoracic pressure and vital organ perfusion pressure during cardiopulmonary resuscitation: A non-randomized interventional cross-over study. Scandinavian journal of trauma, resuscitation and emergency medicine. 2015;23:83
  3. Debaty G, Metzger A, Lurie K. Evaluation of zoll medical’s resqcpr system for cardiopulmonary resuscitation. Expert review of medical devices. 2015;12:505-516
  4. Smith G, Dwork N, O’Connor D, Sikora U, Lurie K, Pauly J, Ellerbee A. Automated, depth resolved estimation of the attenuation coefficient from optical coherence tomography data. IEEE transactions on medical imaging. 2015
  5. Lurie KL, Gurjarpadhye AA, Seibel EJ, Ellerbee AK. Rapid scanning catheterscope for expanded forward-view volumetric imaging with optical coherence tomography. Optics letters. 2015;40:3165-3168
  6. Debaty G, Metzger A, Rees J, McKnite S, Puertas L, Yannopoulos D, Lurie K. Enhanced perfusion during advanced life support improves survival with favorable neurologic function in a porcine model of refractory cardiac arrest. Crit Care Med. 2015;43:1087-1095
  7. Salzman JG, Frascone RJ, Burkhart N, Holcomb R, Wewerka SS, Swor RA, Mahoney BD, Wayne MA, Domeier RM, Olinger ML, Aufderheide TP, Lurie KG. The association of health status and providing consent to continued participation in an out-of-hospital cardiac arrest trial performed under exception from informed consent. Acad Emerg Med. 2015;22:347-353
  8. Metzger A, Rees J, Kwon Y, Matsuura T, McKnite S, Lurie KG. Intrathoracic pressure regulation improves cerebral perfusion and cerebral blood flow in a porcine model of brain injury. Shock. 2015;44 Suppl 1:96-102
  9. Debaty G, Shin SD, Metzger A, Kim T, Ryu HH, Rees J, McKnite S, Matsuura T, Lick M, Yannopoulos D, Lurie K. Tilting for perfusion: Head-up position during cardiopulmonary resuscitation improves brain flow in a porcine model of cardiac arrest. Resuscitation. 2015;87:38-43
  10. Bartos JA, Matsuura TR, Sarraf M, Youngquist ST, McKnite SH, Rees JN, Sloper DT, Bates FS, Segal N, Debaty G, Lurie KG, Neumar RW, Metzger JM, Riess ML, Yannopoulos D. Bundled postconditioning therapies improve hemodynamics and neurologic recovery after 17 min of untreated cardiac arrest. Resuscitation. 2015;87:7-13
  11. Gold B, Puertas L, Davis SP, et al. Awakening after cardiac arrest and post resuscitation hypothermia: are we pulling the plug too early? Resuscitation. Feb 2014;85(2):211-214.
  12. Metzger A, Rees J, Segal N, et al. “Fluidless” resuscitation with permissive hypotension via impedance threshold device therapy compared with normal saline resuscitation in a porcine model of severe hemorrhage. The journal of trauma and acute care surgery. Aug 2013;75(2 Suppl 2):S203-209.
  13. Frascone RJ, Wayne MA, Swor RA, et al. Treatment of non-traumatic out-of-hospital cardiac arrest with active compression decompression cardiopulmonary resuscitation plus an impedance threshold device. Sep 2013;84(9):1214-1222.
  14. Yannopoulos D, Segal N, Matsuura T, et al. Ischemic post-conditioning and vasodilator therapy during standard cardiopulmonary resuscitation to reduce cardiac and brain injury after prolonged untreated ventricular fibrillation. Aug 2013;84(8):1143-1149.
  15. Sarraf M, Sharma A, Caldwell E, McKnite S, Aufderheide T, Lurie K, Neumar R, Riess M, Yannopoulos D. Postconditioning with inhaled sevoflurane at the initiation of cpr improves hemodynamics and mitigates post-cardiac arrest myocardial injury after 15 min of untreated ventricular fibrillation. Crit Care Med. 2012;40:1-328
  16. Yannopoulos D, Segal N, McKnite S, Aufderheide TP, Lurie KG. Controlled pauses at the initiation of sodium nitroprusside-enhanced cardiopulmonary resuscitation facilitate neurological and cardiac recovery after 15 mins of untreated ventricular fibrillation. Crit Care Med. 2012;40:1562-1569
  17. Segal N, Matsuura T, Caldwell E, Sarraf M, McKnite S, Zviman M, Aufderheide TP, Halperin HR, Lurie KG, Yannopoulos D. Ischemic postconditioning at the initiation of cardiopulmonary resuscitation facilitates functional cardiac and cerebral recovery after prolonged untreated ventricular fibrillation. Resuscitation. 2012;83:1397-1403
  18. Convertino VA, Parquette B, Zeihr J, Traynor K, Baia D, Baumblatt M, Vartanian L, Suresh M, Metzger A, Gerhardt RT, Lurie KG, Lindstrom D. Use of respiratory impedance in prehospital care of hypotensive patients associated with hemorrhage and trauma: A case series. The journal of trauma and acute care surgery. 2012;73:S54-59
  19. Yannopoulos D, Matsuura T, Schultz J, et al. Sodium nitroprusside enhanced cardiopulmonary resuscitation improves survival with good neurological function in a porcine model of prolonged cardiac arrest. Crit Care Med. Jun 2011;39(6):1269-1274.
  20. Yannopoulos D, Kotsifas K, Lurie KG. Advances in cardiopulmonary resuscitation. Heart Fail Clin. Apr 2011;7(2):251-268, ix.
  21. Lurie KG, Coffeen P, Shultz J, McKnite S, Detloff B, Mulligan K. Improving active compression-decompression cardiopulmonary resuscitation with an inspiratory impedance valve. Circulation 1995;91(6):1629-32.
  22. Plaisance P, Lurie KG, Vicaut E, Adnet F, Petit JL, Epain D, Ecollan P, Gruat R, Cavagna P, Biens J and others. A comparison of standard cardiopulmonary resuscitation and active compression-decompression resuscitation for out-of-hospital cardiac arrest. French Active Compression-Decompression Cardiopulmonary Resuscitation Study Group. N Engl J Med 1999;341(8):569-75.
  23. Lurie KG, Voelckel WG, Zielinski T, McKnite S, Lindstrom P, Peterson C, Wenzel V, Lindner KH, Samniah N, Benditt D. Improving standard cardiopulmonary resuscitation with an inspiratory impedance threshold valve in a porcine model of cardiac arrest. Anesth Analg 2001;93(3):649-55.
  24. Lurie KG, Zielinski T, McKnite S, Aufderheide T, Voelckel W. Use of an inspiratory impedance valve improves neurologically intact survival in a porcine model of ventricular fibrillation. Circulation 2002;105(1):124-9.
  25. Aufderheide TA, Sigurdsson G, Pirrallo RG, Yannopoulos D, McKnite S, van Briesen C, Sparks C, Conrad CJ, Provo CA, Lurie KG. Hyperventilation-induced hypotension during CPR. 2004;109:1960-65.
  26. Aufderheide TP, Pirrallo RG, Provo TA, Lurie KG. Clinical evaluation of an inspiratory impedance threshold device during standard cardiopulmonary resuscitation in patients with out-of-hospital cardiac arrest. Critical Care Medicine. 2005, Apr;33(4):734-40.
  27. Pirrallo RG, Aufderheide TP, Provo TA, Lurie KG. Effect of an inspiratory impedance threshold device on hemodynamics during conventional manual cardiopulmonary resuscitation. 2005 Jul;66(1):13-20.
  28. Aufderheide T, Alexander C, Lick C, Myers B, Romig L, Vartanian L, Stothert J, S. M, Matsuura T, Yannopoulos D and others. From laboratory science to six emergency medical services systems: New understanding of the physiology of cardiopulmonary resuscitation increases survival rates after cardiac arrest. Crit Care Med 2008;36(Suppl):S397-S404.
  29. Lurie KG, Yannopoulos D, McKnite SH, Herman ML, Idris AH, Nadkarni VM, Tang W, Gabrielli A, Barnes TA, Metzger AK. Comparison of a 10-breaths-per-minute versus a 2-breaths-per-minute strategy during cardiopulmonary resuscitation in a porcine model of cardiac arrest. Respir Care 2008;53(7):862-70.
  30. Metzger A, Yannopoulos D, Lurie KG. Instrumental Management of CPR. Severe Acute Heart Failure Syndromes:  A Practical Approach for Physicians. Mebazaa, A., Gheorghiade, M., Zannad, F., Parrillo, J.E. (eds.). Springer-Verlag, London Ltd. 2008, pp. 43-51.
  31. Metzger A, Lurie K. Harnessing Cardiopulmonary Interactions to Improve Circulation and Outcomes After Cardiac Arrest and Other States of Low Blood Pressure. In: Iaizzo PA, editor. Handbook of Cardiac Anatomy, Physiology, and Devices: Springer Science; 2009. p 583-604.
  32. Nichol G, Aufderheide TP, Eigel B, Neumar RW, Lurie KG, Bufalino VJ, Callaway CW, Menon V, Bass RR, Abella BS and others. Regional systems of care for out-of-hospital cardiac arrest: A policy statement from the American Heart Association. Circulation;121(5):709-29.
  33. Yannopoulos D, Matsuura T, McKnite S, Goodman N, Idris A, Tang W, Aufderheide TP, Lurie KG. No assisted ventilation cardiopulmonary resuscitation and 24-hour neurological outcomes in a porcine model of cardiac arrest. Crit Care Med;38(1):254-60.

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