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CPR in the ED: R U Ok?

CPR in the ED: R U Ok?. Mike McEvoy, PhD, RN, CCRN, NRP Resuscitation Committee Chair and Sr. Staff Nurse CTICU – Albany Medical Center EMS Coordinator – Saratoga County, NY EMS Editor – Fire Engineering magazine www.mikemcevoy.com. Outline. CPR 2010: that was then, this is now…

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CPR in the ED: R U Ok?

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  1. CPR in the ED: R U Ok? Mike McEvoy, PhD, RN, CCRN, NRP Resuscitation Committee Chair and Sr. Staff Nurse CTICU – Albany Medical Center EMS Coordinator – Saratoga County, NY EMS Editor – Fire Engineering magazine www.mikemcevoy.com

  2. Outline • CPR 2010: that was then, this is now… • Show me the money: is there proof? • What matters? • Why measure? • How to assessquality CPR • Unique hospitalissues • Future solutions

  3. Adult Chain of Survival: 2010 • Immediate recognition and activation of emergency response system • Early CPR with emphasis onchest compressions • Rapid defibrillation • Effective ALS • Integrated post-cardiac arrest care

  4. CPR Sequence Change • A-B-C to C-A-B • Initiate chest compressions before ventilations Why? • Reduce delay to compressions • Can be started immediately • Emphasizes importance of chest compressions

  5. So, What Matters in CPR? And how should we assess effectiveness?

  6. Let’s Get One Thing Straight: Where do most cardiac arrests occur? • ~ 175,000 per year out of hospital • ROC data (Nichol et al, JAMA 2008) • ~ 200,000 per year in hospital • 2003-2007 GWTG-R data Merchant, Yang, Becker,Berg, Nadkarni, Nichol, Carr, Mitra, Bradley, Abella, Groeneveld, CCM 2011 Attention American Heart Association: You need to focus more effort on IHCA

  7. Chest Compressions 2010 2005 38 – 51 mm (1.5 – 2”) 100 per minute • > 50 mm ( > 2”) • At least 100 per minute Most Common Errors: Too slow Not deep enough Prolonged interruptions Leaning

  8. Chest Compressions • ROC: survival associated with  depth • Abella et al: 100-120/min =  survival • Recommendations are LOE 4 & 5(just do it, because we like it) • In truth: • Ideal actual depth of CPR unknown • Probably lies near 50 mm • Best rate for CPR unknown • Is likely about 100/min

  9. CPR Rate vs. ROSC p < 0.0083 Abella et al. Circulation. 2005;111:428-434

  10. Probability of ROSC Stiell et al. Crit Care Med 2012; 40:1192-1198

  11. One Day Survival Stiell et al. Crit Care Med 2012; 40:1192-1198

  12. Survival to Discharge Stiell et al. Crit Care Med 2012; 40:1192-1198

  13. Effective CPR? • How do you measure the effectiveness of CPR? • End tidal carbon dioxide • Feedback devices • Measurement of CPR effectiveness is a proposed U.S. TJC future standard

  14. Waveform Capnography Attaches to ET tube, measures CO2

  15. Physiology of Metabolism Oxygen Lungs  alveoli  blood Oxygen Breath CO2 Muscles + Organs Lungs Oxygen CO2 Cells ENERGY Blood Oxygen + Glucose CO2

  16. Measuring Exhaled CO2 Colorimetric Capnometry Capnography

  17. Measuring Exhaled CO2 Colorimetric Capnometry Capnography

  18. Measuring Exhaled CO2 Colorimetric Capnometry Capnography

  19. Carbon Dioxide (CO2) Production

  20. What If…

  21. But, with High-Quality CPR…

  22. Meet Howard Snitzer • 54-years old, collapsed Jan 5, 2011 outside Don’s Foods in Goodhue, MN (pop. 900) • 2 dozen rescuers took turns providing CPR for 96 minutes • 6 shocks with first responder AED, 6 more shocks by Mayo Clinic Air Flight Medics • Transported to Mayo Clinic Cardiac Cath Lab

  23. Why Not Quit? • Thrombectomy, stent to LAD • 10 days inpatient • “The capnography told us not to give up” • EtCO2 averaged 35 (range 32 – 37)

  24. So What’s the Goal During CPR? • Try to maintain a minimum EtCO2 of 10 mmHg (1.4 kPa) • Push • HARD(> 2” or 5 cm) • FAST(at least 100) • Change rescuer • Every 2 minutes

  25. Guidelines 2010 • Continuous quantitative waveform capnography recommended for intubated patients throughout peri-arrest period. In adults: • Confirm ETT placement • Monitor CPR quality • Detect ROSC with EtCO2 values

  26. Guidelines 2005 EtCO2 recommended to confirm ET tube placement

  27. EtCO2 detects ROSC • 90 pre-hospital intubated arrest patients • 16 survivors • 13 survivors: rapid rise in exhaled CO2 was the earliest indicator of ROSC • Before pulse or blood pressure were palpable Wayne MA, Levine RL, Miller CC. “Use of End-tidal Carbon Dioxide to Predict Outcome in Prehospital Cardiac Arrest” . Annals of Emergency Medicine. 1995; 25(6):762-767. Levine RL., Wayne MA., Miller CC. “End-tidal carbon dioxide and outcome of out-of-hospital cardiac arrest.” New England Journal of Medicine. 1997;337(5):301-306.

  28. Capnography = Results, not process

  29. CPR is Complicated!

  30. Hospital Issues: • Bed Height • Optimal = bed at knee level of person administering chest compressionsCho et al, Emerg Med J. 2009;26:807-810 • Air Mattresses • No need to deflate mattress for CPRPerkins et al, Inten Care Med. 2003;29:2330-2335 • Backboards • No evidence of benefit with backboard Perkins et al, Inten Care Med. 2003;29:2330-2335

  31. AHA Guidelines - 2013 Pre, Intra, Post arrest recommendations: • Real time feedback at the point of care • Shock early, don’t interrupt CPR, avoid hyperventilation, optimize depth • BENCHMARK

  32. What About Quality? In-Hospital Arrests, Dec 2004 – Dec 2005

  33. Audiovisual CPR Feedback • Incorporated into monitor/defibrillator • Real time • Accelerometer-based

  34. Handheld Feedback Device Handheld accelerometer-based audiovisual device

  35. Generation of Feedback

  36. Post Code Reviews (Code Stat ™)

  37. EMS Feedback = ROSC • FDNY uses audio-visual feedback • Deactivated audio feedback for 1 week • ROSC  20% NY State EMS Council Report Jan 2012

  38. But Hospitals ≠ EMS • How effective are feedback systems?

  39. We have a problem:

  40. Accelerometer CPR Depth Perkins et al. Resuscitation 2009;80:79-82

  41. The Mattress Issue: • Mattress compression = 35 – 40% of total compression depth • Accelerometer feedback devices fail to account for mattress compression • Use of a backboard fails to compensate for mattress compression Perkins et al. Resuscitation 2009;80:79-82

  42. CPR on Mattress

  43. CPR with a Backboard

  44. The Solution: Directly measurethe true compression depth.

  45. Triaxial Field Induction • Two end points • Direct measurement of distance (magnetic) • Discrimination of X, Y, Z 1 2

  46. TFI versus ACC Banville et al. Circulation 2011; 124:A217

  47. Where Is TFI?

  48. On the Code Cart!

  49. Back Pad Under Patient

  50. Compress Chest Pad

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