EMCrit Podcast 130 – Hemodynamic-Directed Dosing of Epinephrine for Cardiac Arrest - a podcast by Scott D. Weingart, MD FCCM

Note: To do this technique properly, it is imperative you read this post (choosing the correct DBP); you should also probably listen to that podcast.

Today on the podcast, I address the last little bit from my SMACC lecture on the new management of the intra-arrest: hemodynamic, individualized dosing of epinephrine.



The podcast is interspersed with clips from Professor Norman Paradis

Articles/Posts on Epinephrine by ACLS Guidelines



* [cite source='pubmed']15306666[/cite],

* http://www.emdocs.net/epinephrine-cardiac-arrest/

* http://www.jems.com/article/patient-care/new-resuscitative-protocol

* [cite source='pubmed']24846323[/cite]

* [cite source='pubmed']19934423[/cite]



Epinephrine Dosing Based on DBP

Three Swine Study



(Crit Care Med. 2013 Dec;41(12):2698-704)



(Resuscitation. 2013 May;84(5):696-701)



[cite source='pubmed']25321490[/cite]



[cite source='pubmed']24945902[/cite]



Here is the abstract from the latter study:





AIM: Advances in cardiopulmonary resuscitation (CPR) have focused on the generation and maintenance of adequate myocardial blood flow to optimize the return of spontaneous circulation and survival. Much of the morbidity associated with cardiac arrest survivors can be attributed to global brain hypoxic ischemic injury. The objective of this study was to compare cerebral physiological variables using a hemodynamic directed resuscitation strategy versus an absolute depth-guided approach in a porcine model of ventricular fibrillation (VF) cardiac arrest.



METHODS: Intracranial pressure and brain tissue oxygen tension probes were placed in the frontal cortex prior to induction of VF in 21 female 3month old swine. After 7minutes of VF, animalswere randomized to receive one of three resuscitation strategies: 1) Hemodynamic Directed Care (CPP-20): chest compressions (CCs) with depth titrated to a target systolic blood pressure of 100mmHg and titration of vasopressors to maintain coronary perfusion pressure (CPP)> 20mmHg; 2) Depth 33mm(D33): target CC depth of 33mm with standard American Heart Association (AHA) epinephrine dosing; or 3) Depth 51mm(D51): target CC depth of 51mm with standard AHA epinephrine dosing.



RESULTS: Cerebral perfusion pressures (CerePP )were significantly higher in the CPP-20 group compared to both D33 (p<0.01) and D51 (P=0.046), and higher in survivors compared to non-survivors irrespective of treatment group (P<0.01).Brain tissue oxygen tension was also higher in the CPP-20 group compared to both D33 (P<0.01) and D51 (P=0.013), and higher in survivors compared to non-survivors irrespective of treatment group (P<0.01).Subjects with a CPP>20mm Hg were 2.7 times more likely to have a CerePP>30mm Hg (P< 0.001).



CONCLUSIONS: Hemodynamic directed resuscitation strategy targeting coronary perfusion pressure>20mmHg following VF arrest was associated with higher cerebral perfusion pressures and brain tissue oxygen tensions during CPR. University of Pennsylvania IACUC protocol #803026.



Perhaps we can extrapolate from these pig studies to--shoot for SBP of >=100 with compression efficacy and CPP>20 (DBP>40) with vasoconstriction. REBOA or SAAP may solve both







Human Study by Dr. Paradis





Coronary Perfusion Pressure and the Return of Spontaneous Circulation in Human Cardiopulmonary Resuscitation



[cite source='doi']10.1001/jama.1990.03440080084029[/cite]



Coronary perfusion pressure (CPP),

Further episodes of EMCrit Podcast

Further podcasts by Scott D. Weingart, MD FCCM

Website of Scott D. Weingart, MD FCCM