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Role of Ventilation during CPR: Embracing the Science OR Bracing for Science?

Role of Ventilation during CPR: Embracing the Science OR Bracing for Science?. Tom Rea MD, MPH King County Emergency Medical Services Harborview Medical Center University of Washington. Disclosures.

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Role of Ventilation during CPR: Embracing the Science OR Bracing for Science?

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  1. Role of Ventilation during CPR:Embracing the ScienceORBracing for Science? Tom Rea MD, MPH King County Emergency Medical Services Harborview Medical Center University of Washington

  2. Disclosures Investigator in an ongoing randomized trial of dispatcher-assisted CPR comparing chest compression alone versus chest compression plus ventilation. Trial is supported in part by the Laerdal Foundation and the Medic One Foundation.

  3. Disclaimers I don’t know?……….

  4. What do we know?

  5. Normal Physiology Effective coupling of heart and lung

  6. Cardiac Arrest?

  7. Cardiac arrest due to a heart cause TIME Agonal respirations which may help facilitate some oxygenation, ventilation, and forward flow of blood. This mechanism is present in only a percentage. Agonal respirations dissipate over the course of several minutes.

  8. Cardiac arrest due to non-cardiac cause Increasing hypoxemia and hypercarbia over time TIME 0

  9. Population distribution of etiology What is the etiology underlying pathology? Cardiac Pulmonary

  10. What do we know about CPR?

  11. Modeled after normal physiology – coupling of heart and lung What do we know about CPR?

  12. Mechanism of CPR benefit Traditional Paradigm Compressions and decompressions (and ventilations) push some measure of oxygenated blood forward to the critical end-organ tissues.

  13. Evolving Paradigms Mechanical effect Compressions (and ventilations) decompress the stretched, overfilled right ventricle enabling the left ventricle to fill. Post-ischemic conditioning (metabolic effect) Compressions (and ventilations) upregulate protective pathways to protect against reperfusion injury. Mechanism of CPR benefit Chamberlain et al Resuscitation 2008 Rea et al Resuscitation 2008

  14. How does CPR work? Combination of traditional and evolving paradigms(?) Different mechanisms for different persons(?) ………….So what(?)

  15. The Great Debate Chest compression alone (CC) vs Chest compression plus ventilation (CC+V)

  16. Animal Studies Animal studies provide conflicting results. Several show comparability or superiority for CC

  17. 150 125 p<0.04 RR 2 100 RR 10 p<0.04 75 Carotid Blood Flow (ml x min-1) 50 25 0 Baseline CPR CPR plus ITD Carotid Blood flow However some indicate superiority of CC + V RR = 2 RR = 10 Lurie et al Respiratory Care in press

  18. Challenges of Translation

  19. Translation – You Pick’em Animal evidence….. Always Often Seldom Never translates to the human cardiac arrest experience.

  20. Translation – You Pick’em Animal evidence….. Always Often Seldom Never translates to the human cardiac arrest experience

  21. Translation – You Pick’em Animal evidence….. SOMETIMES translates to the human cardiac arrest experience.

  22. Challenges of Translation Differences? (No comments please)

  23. VS Etiology of Arrest Cardiac……………………..……...Pulmonary Anatomy andPhysiology of Arrest Airway anatomy and agonal breathing Challenges to Delivering Care Differences?

  24. HUMAN EVIDENCE

  25. Human Experience Changing physiology over time TIME 0 Changing ventilation effectiveness over time Bystander EMS EMS Mouth-to-Mouth BVM ETT

  26. Human Experience VS Single level 1 study (RCT) – Dispatch CPR CC aloneCC + V Survival 14.6% 10.4% (p = 0.1) ~4% absolute difference Hallstrom et al NEngl J Med 2000

  27. What else do we know? VS Restricted to cardiac etiology – Trend in the opposite direction for non-cardiac etiology If you include non-cardiac etiology the absolute Difference decreases from 4% to 2% EMS response in the study community is extremely quick (3-4 minutes)

  28. Human Experience Changing physiology over time Hallstrom Study TIME 0 Changing ventilation effectiveness over time Bystander EMS EMS Mouth-to-Mouth BVM ETT

  29. Summary Human cardiac arrest is heterogeneous and the role of hypoxia may be an important contributor to the arrest. A combination of ventilation and compression is the standard based on normal physiology and careful work by resuscitation scientists. CPR benefit may occur by a variety of different mechanisms. (We do not completely understand how CPR works in humans) Animal studies provide mixed results. Challenges in translating animal to human experiences.

  30. Summary Paucity of high-level, rigorous human evaluation. The single human RCT showed no difference and one must consider the chllenge of generalizability.

  31. Round 2 The Rebuttal

  32. The Rebuttal The observational studies comparing bystander CC vs CC + V are important.

  33. The Rebuttal They are nice additions but …….. 1. No survival difference between the 2 types of CPR 2. Important limitations - Substantial confounding (not RCTs) - Generalizability Iwami Circulation 2007 - Restricted to witnessed arrest due to heart disease. Excluded 80% of treated cases which accounted for ~ 50% of their survivors.

  34. The Rebuttal The observational before-and-after studies of EMS CPR indicate CC alone is superior.

  35. The Rebuttal • They are provocative additions but …….. • There were multiple interventions and a new (likely unprecedented) attention to care. • 2. King County experience • VF survival 33% to 46% with specific changes • BUT maintained a 15:2 ratio (now 30:2) • Other communities have reported substantial improvement in survival by instituting active tracking and QA without specific protocol changes. • Toronto VF survival - 10% to 20% with QA (no other specific changes)

  36. The Rebuttal How about a bipartisan approach?

  37. An improved approach Consider Community A “Pool” of Cardiac Arrest Victims N = 1000

  38. Survivors No CPR “Pool” of Cardiac Arrest victims N = 1000 Survivors N = 50

  39. Survivors Chest compression alone “Pool” of Cardiac Arrest victims N = 1000 Survivors N = 100

  40. Survivors Chest compression plus ventilation “Pool” of Cardiac Arrest victims N = 1000 Survivors N = 100

  41. Are we saving different patients? CC alone vs CC plus ventilation “Pool” of Cardiac Arrest victims N = 1000 CC alone CC + V

  42. Are we saving different patients? CC alone vs CC plus ventilation “Pool” of Cardiac Arrest victims N = 1000 CC alone CC + V 70% N=70 N = 30 N = 30

  43. Correctly allocate care to the crescents CC alone vs CC plus ventilation Survival = 70 + 30 + 30 = 130 30% improvement in outcome 70% N=70 CC alone CC + V N = 30 N = 30

  44. Conclusions The approach of CC + V attempts to mirror normal physiology and is derived from careful work by resuscitation scientists. Evidence from animal results are mixed and may not translate directly to human experience. Observational studies have major limitations and to date demonstrate no difference between CC vs CC+V. Sufficient, methodologically-rigorous human data are largely lacking…….the field needs this high level of evidence to make genuine progress.

  45. What’s the best approach? I don’t actually know but…….. For now, CPR with ventilations especially among trained persons is a reasonable approach. Let’s brace for and then embrace rigorous human evidence.

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