Post cardiac arrest care in ED
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Post cardiac arrest syndrome: The case for an evidence-based bundle of care
Professor Anne-Maree KellyWestern Health
@kellyam_jec
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This presentation may be reproduced in part or whole for education purposes on the condition that each reproduced slide contains the following:
‘Reproduced with permission of Professor Anne-Maree Kelly, Joseph Epstein Centre for Emergency Medicine Research @Western Health, Melbourne, Australia’
Permissions
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Support for this meeting and advisory boards from Astra Zeneca
Travel support to speak at a conference (on blood gases) by Radiometer
Advisory board membership MSD
No relationships with manufacturers of hypothermia equipment
Co-author of NHF guidelines for the management of ACS and addenda & of some of the research mentioned in this talk
Editorial boards of:◦ Annals of Emergency Medicine◦ Emergency Medicine Australasia◦ Hong Kong Journal of Emergency Medicine
Conflicts of interest disclosure
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My Colleagues Dr Stephen Bernard, Dr Karen Smith and colleagues for the ongoing, world leading body of work in this space
Acknowledgement
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To review the pathophysiology of post-cardiac arrest syndrome
To summarize the evidence for a variety of interventions to improve outcome after out of hospital cardiac arrest
To propose the concept of a bundle of care approach to management of these patients
Objectives
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72% in the home
Age 64 years (mean)
82% male
Ventricular fibrillation 37%
Pre-hospital -> advanced cardiac life support
If return of pulse -> transport to nearest ED
Background
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Ventilation on 100% oxygen Sedation to maintain ETT 12 lead ECG Cardiology referral ICU referral Chest Xray Arterial line and ABG Bloods Bladder catheter Early (pessimistic) prognostication
Traditional ED treatment
ROSC rate = 24%Survival to discharge =7.6%
Sasson et al. Circ Cardiovasc Qual Outcomes 2010:3:63-812.
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Cerebral and cardiac dysfunction due to prolonger whole body ischaemia
Elements◦ Anoxia brain injury◦ Myocardial dysfunction◦ Systemic ischaemia/ reperfusion response◦ Persistent precipitating pathology
Contribution of the elements varies between individuals
Pathophysiology of post cardiac arrest syndrome
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Ventilation◦ 100% oxygen or normoxia?◦ What pCO2 target?
Blood pressure◦ What target and how?
Cath lab◦ Just STEMI?
Therapeutic hypothermia◦ If ‘Yes’, how?
Post cardiac arrest care: Evidence-based treatment
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High oxygen concentration may increase free radical production
Some observational data (from ICU) that higher oxygenation is harmful
Each 100mmHg increase in pO2 (on ICU admission) associated with 24% increase in mortality
Currently the subject of RCT proposals
100% oxygen or normoxia?
Kilgannon et al. JAMA 2010;123:2717-2722
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Avoidance of both hyperoxia and hypoxia
SpO2 target 94-96%
Avoid hypocarbia as it:◦ Causes cerebral vasoconstriction◦ Hyperventilation decreases cardiac output
Current recommendations
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Increased blood pressure may improve cerebral perfusion, BUT Inotropes/ pressors may cause additional cardiac injury
Observational data only suggesting ~30% improvement in outcome with achievement of haemodynamic stability
Studies used different targets MAP 80-100mmHg vs 65-70mmHg
Optimal MAP target remains unclear
Achieving haemodynamic stability
Gaieski et al. Resuscitation; 2009;80:418-24.Sunde et al. Resuscitation 2007; 73:29-39.
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Aim for mean arterial pressure of 65-100mmHg
Taken into consideration ‘usual’ BP and severity of myocardial dysfunction
Current recommendations
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Judicious fluid loading
Inotropic drug therapy
Mechanical support devices e.g.◦ IABP◦ ECMO
Achieving haemodynamic stability
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Anoxic brain injury responsible for ~2/3rds of deaths post cardiac arrest
Therapeutic hypothermia is a major recent advance in neuroprotection
How it works?◦ Multifactorial?◦ Decreases cerebral oxygen demand◦ ? Direct cellular effects◦ Reduction in reactive oxygen species generation
Neuroprotection
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32°C-34°C for 12-24 hours 24 hours is current recommendation
In meta-analysis RR best cerebral performance categories 1.55 (95% CI 1.22-
1.96) RR survival to hospital discharge 1.35 (95% CI 1.10-1.65)
Therapeutic hypothermia
Arrich et al. Cochrane Database Syst Rev 2009; CD 004128
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Strong RCT evidence of OHCA with VF as initial rhythm
Evidence less clear for PEA/ Asystole Lower overall survival Not all are cardiac in origin (? ~50%) Some trend towards benefit (one study)
Survival 19% vs 7% Good outcome13% vs. 0%
Variation by arrest type
Study Survival Good neurological outcome
HACA 59% vs 45% 55% vs 39%
Bernard 49% vs. 32% 49% vs. 26%
HACA. NEJM 2002;346:549-56Bernard et al. NEJM 2002; 346:557-63
Haschimi-Idrissi et al. Resuscitation 2001; 51:275-81.
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Cooled IV fluids (40ml/kg) Surface cooling Intravascular cooling
Techniques
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Persuasive animal data that the earlier the better
Two RCT have demonstrated that pre-hospital cooling using IV fluids is safe, feasible and effective
No clinical outcome benefit shown compared to in-hospital cooling (yet)◦ Main (probable explanation): small difference in times
When?
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STEMI unconscious post cardiac arrest were excluded from PCI vs. thrombolysis trials
Initial ECG shows STEMI in 30-60% of patients with ROCS after OHCA
Good evidence that early angiography with view to PCI improves outcome for patients with STEMI (RCT and observational)
Cath lab for all…or none..or some?
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Recent study showed significant coronary lesions present in up to 66% of patients with OHCA without ST elevation.
Registry data has reported primary PCI as an independent predictor of survival regardless of initial ECG (odds ratio, 2.06; 95% CI, 1.16 to 3.66).
What about NSTEMI?
Reynolds et al. J Intensive Care Med 2009; 24: 179-86.Dumas et al. Circ Cardiovasc Interv 2010; 3:200-7.
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2902 post arrest patients in Victoria Transported to one of 70 hospitals 1816 (63%) of patients were treated at hospitals with 24 hour
cardiac interventional services After adjusting for differences in baseline characteristics,
treatment at hospitals with 24 hour cardiac interventional services was significantly associated with survival (odds ratio 1.40; 95% CI 1.12-1.74, p=0.003)
Australian data
Stub D et al. Heart. 201197:1489-94.
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Bundles of care are a structured way of improving processes of care and patient outcomes
3-5 components performed collectively and reliably
ALL OR NONE
The power comes from the evidence-base and the consistency of implementation
Examples:◦ Central line bundle IHI◦ Goal-directed sepsis therapy
A bundle of care?
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Initiation of therapeutic hypothermia in ED (32-34 C). Maintain for 24 hours with slow re-warming
Optimization of haemodynamic status (MAP 65-100mmHg) Transfer to cardiac catheter laboratory early Avoidance of hyperoxia (SpO2 94-96%)
A bundle of care post-cardiac arrest?
A number of ‘before-and-after’ studies support the concept.
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For patients with OHCA (?VF initial rhythm)
SpO2 94-96%
Core temperature <35 C
MAP 65-100mmHg
Transfer to cath lab within 110 mins.
Some suggested ED targets
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Systems of care for time critical illness improves outcomes
Emerging evidence of improved outcomes in OHCA in specialized centres (Japan and Sweden)◦ OR improved survival ~3.4
Is this workable in the Australian context?
Is there a case for cardiac arrest centres?
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Questions