Note: Your progress in watching these videos WILL NOT be tracked. These training videos are the same videos you will experience when you take the full ProACLS Recertification program. You may begin the training for free at any time to start officially tracking your progress toward your certificate of completion.
In this lesson, we'll be going over the most common causes of cardiac arrest, which we touched on briefly at the end of the last lesson, as presented as what's commonly referred to as the H's and T's.
This lesson will include a little information on common treatments for specific H's and T's, and at the end of the lesson, we'll provide you with a Word about diagnosing and treating underlying causes.
Pro Tip #1: It's important to remember that with hypokalemia, you may see flat T-waves on the ECG, as well as something called U-waves. If you do see these, administer potassium and/or magnesium per local protocols.
Pro Tip #2: Percutaneous Coronary Intervention, or PCI, (formerly known as angioplasty with stent) is a non-surgical procedure that uses a catheter to place a small structure called a stent to open up blood vessels in the heart that have been narrowed by plaque buildup, a condition known as atherosclerosis.
Warning: It's important to note that the most common causes of pulseless electrical activity (PEA) are hypoxia and hypovolemia, and both are potentially reversible. Which is why it's vital to look for evidence of these problems when assessing your patients.
Patients in cardiac arrest, such as V-Fib, pulseless V-tach, asystole, and PEA, require rapid assessment and management, as their cardiac arrest may be caused by an underlying and potentially reversible issue or condition.
If you can quickly identify a specific condition that has caused or contributed to PEA and correct it, you may achieve ROSC. The identification of the underlying cause is extremely important in cases of PEA and asystole. When you're searching for the underlying cause, consider the following:
Hypovolemia is a common cause of PEA and initially produces the classic physiologic response of a rapid, narrow-complex tachycardia. And it typically produces increased diastolic and decreased systolic pressures.
As the loss of vascular volume continues, blood pressure will drop and will eventually become undetectable. However, the narrow QRS complexes and rapid rate will continue.
You should consider hypovolemia as a cause of hypotension, which can deteriorate to PEA. Providing quick treatment can often reverse this pulseless state by rapidly correcting the hypovolemia. Common nontraumatic causes of hypovolemia can include occult internal hemorrhage and severe dehydration.
Acute coronary syndromes affecting a large portion of heart muscle can be a direct cause of PEA. For example, occlusion of the left main or proximal left anterior descending (LAD) coronary artery can cause cardiogenic shock that rapidly deteriorates into cardiac arrest and PEA.
When there is no known or suspected pulmonary embolism, routine fibrinolytic therapy during CPR has not been shown to improve outcomes and is not recommended.
However, for patients in cardiac arrest from a confirmed PE, systemic fibrinolysis, surgical embolectomy, and percutaneous mechanical embolectomy are all reasonable treatment options. When PE is suspected but not confirmed, fibrinolysis may still be considered.
Pericardial tamponade is another potentially reversible cause of cardiac arrest. In the peri-arrest period, volume infusion may provide temporary stabilization while definitive treatment — such as pericardiocentesis — is arranged. Similarly, tension pneumothorax, once recognized, can often be rapidly corrected with needle decompression or thoracostomy.
Certain drug overdoses and toxic exposures may lead to peripheral vascular dilatation and/or myocardial dysfunction with resultant hypotension. Your approach to poisoned patients should be aggressive, as the toxic effects can progress rapidly and may be of limited duration.
In these situations, myocardial dysfunction and arrhythmias may be reversible. Numerous case reports confirm the success of many specific limited interventions with one thing in common: they buy time.
Treatments that can provide this level of support include:
It's important to note that if the patient shows signs of ROSC, post-cardiac arrest care should be initiated.