Questions of the Week for 11/14/23

The Post-ROSC Electrocardiogram After Cardiac Arrest [PEACE] study was a retrospective analysis, which demonstrated that an EKG obtained between 8-33 minutes post ROSC had increased accuracy compared to EKGs obtained <7 minutes after ROSC in post-arrest arrest patients. Post ROSC patients can have numerous EKG changes that may be due to ischemia from cardiac arrest itself rather than represent EKG changes from acute coronary syndrome. There may be times you will want to obtain an EKG immediately after ROSC, however it may be advisable to prioritize other interventions and try to obtain an EKG around minute 8 to maximize yield for identifying acute coronary syndrome. Another option is to obtain an initial EKG as soon as possible after ROSC with the knowledge that there may be false positives and repeat the EKG at around minute 10 post ROSC to assess for any changes.

Patients with ST elevation myocardial infarction should go to the cardiac catheterization lab as soon as possible. However, patients with non-ST elevation myocardial infarction do not appear to have any significant difference in outcome when an immediate (within two hours) vs. delayed (within the first 24 hours) coronary angiography strategy is employed. The COACT study examined post-arrest patients with an initial shockable rhythm and did not find any significant difference in mortality between immediate or delayed angiography. The TOMAHAWK trial examined post-arrest patients of any initial rhythm and similarly found no significant mortality difference.

All post-arrest patients should at least undergo a chest x-ray. CT imaging should be considered on a case-by-case basis. It may be useful to obtain a head CT to rule out a neurological cause for the patient’s arrest if the cause is not clear. One study4 estimated that approximately 1/20 non-traumatic, out of hospital cardiac arrests are caused by intracranial hemorrhage. This number may be even higher among females and those with non-shockable rhythms. Additionally, there is some evidence to suggest that obtaining a chest/abdomen/pelvis CT with contrast can be useful if the cause for the arrest is not known as well as to identify injuries caused by chest compressions. One study5 estimated that approximately 13% of cardiac arrests without an initially clear cause had a cause identified by their sudden death CT protocol (SDCT), which included a non-contrast CT head, a cardiac + thoracic gated CTA and a venous phase chest, abdomen pelvis.

There is not strong evidence regarding the use of antibiotics for patients who are post arrest. One study6 showed that a two-day course of ampicillin-sulbactam prevented ventilator-associated pneumonia, but did not have a statistically significant impact on mortality or ventilator free days. Other studies7,8 (one of them by our own Dr. Safa!) showed that there are high rates of bacteremia in post-arrest patients. It is unclear at this point if all post-arrest patients benefit from broad-spectrum antibiotics but it is a potential intervention to consider, especially if there is not an obvious other cause for their arrest.

There is considerable controversy on this topic. The duration of action of naloxone is estimated to be between 20-90 minutes, which is considerably shorter than many opioids that patients overdose on. Some authors have suggested that patients who receive naloxone for respiratory depression from opioid overdose should be observed for at least 4-6 hours to ensure stability9 , while others have suggested that this extended period may not be necessary10 assuming the patient has a normal mental status, is ambulatory, and shows no other signs of intoxication. A two-hour observation period seems to be reasonable and supported by evidence if it is thought that short-acting opioids were used11. However, if the patient endorses using a longer acting formulation, such as methadone, then an observation period of at least 24 hours is usually necessary.