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Ventricular fibrillation, known commonly as V.Fib, is caused by multiple ectopic electrical impulses which depolarizes the myocardium in a chaotic fashion resulting in this quivering or fibrillating heart that doesn't produce a pulse. Now, this is what you would see on the ECG. In regards to the rhythm, we would ask ourselves, is the rhythm regular or irregular? And in fact, it is irregular. Then you'd say, well what is the rate? There is no rate and there is no pulse. So what does the P-wave look like? Are they present? No, only random fibrillatory waves are present. Is there a PR interval? There is no P-wave, therefore there is no PR interval. So we looked at the QRS complex. Is the QRS complex interval less than 0.09 seconds? The answer is no, the QRS is not even evident. So what is my cardiac interpretation? Ventricular fibrillation is a non perfusing and lethal dysrhythmia. V.Fib is most commonly seen within the first few minutes of cardiac arrest, and because of this, high quality CPR and immediate defibrillation are of utmost importance to increase the chance of successful resuscitation.
Ventricular fibrillation (also called VFib or VF) is caused by multiple ectopic electrical impulses which depolarize the myocardium in a chaotic fashion. This results in a quivering (or fibrillatory) heart that cannot produce a pulse.
In this lesson, we'll dig a little deeper into ventricular fibrillation and then look at a typical ECG readout for a patient in VFib and provide a cardiac interpretation at the end.
Now let's take a look at an ECG for a patient in ventricular fibrillation.
*Ventricular Fibrillation ECG
The first thing you'll want to look at is the heart rhythm. Does the heart rhythm look regular? Or does it look irregular? In the ECG above, the rhythm is irregular.
Next, you'll want to look at the heart rate of the patient. What is the patient's heart rate? Is it normal? Or is it too slow or too fast? In this case, there is no rate and no pulse.
After looking at the heart rate, check to see if the patient's P-waves look normal by asking yourself the following few questions.
Next, look at the PR interval on the patient's ECG readout and ask yourself the following questions:
The last thing you should look at to determine if the sinus rhythm is normal or not is the QRS complex and ask yourself these questions while you do:
So, what is your cardiac interpretation? Based on these questions and on the findings from the ECG readout above, it would appear that this patient is in ventricular fibrillation.
From the ECG alone, it would indicate that the patient is in VFib.
Pro Tip #1: VFib is a non-perfusing and lethal dysrhythmia that is most commonly seen during the first few minutes of cardiac arrest. Because of this, it's important that high-quality CPR be administered as soon as possible, including defibrillation, to increase that patient's chance of a successful resuscitation.
When a patient is in ventricular fibrillation, the heart has no organized rhythm as well as no coordinated contractions. The electrical activity is very chaotic. The heart quivers and it does not pump blood. Therefore, pulses are not palpable. Ventricular fibrillation may be preceded by a brief period of ventricular tachycardia with or without a pulse.
Primary ventricular fibrillation is not common in children. In studies involving pediatric cardiac arrest, VFib was the initial rhythm in between 5 to 15 percent of both out-of-hospital cardiac arrests (OHCA) and in-hospital cardiac arrests (IHCA).
The overall prevalence may be higher because VFib can occur early during cardiac arrest and quickly deteriorate to asystole. VFib has been reported in up to 27 percent of pediatric in-hospital arrests at some point during the resuscitation.
VFib without a previously known underlying cause is rare but can sometimes occur in otherwise healthy teens during sports activities. The cause of VFib can also be due to an undiagnosed cardiac abnormality or channelopathy, such as long QT syndrome – a heart rhythm condition that can potentially cause fast and chaotic heartbeats.
A sudden impact to the chest due to a collision or from a moving object can also result in commotio cordis, or agitation of the heart, that leads to VFib. Also consider the H's and T's for other potential reversible causes.
Pro Tip #2: The H's and T's of PALS/ACLS is a mnemonic used to help recall the major contributing factors to pulseless arrest including pulseless electrical activity (PEA), Asystole, VFib, and V-tach. (In the next lesson – Asystole – we'll provide some more information on those H's and T's.)
The survival rate and outcome of patients with VFib or pulseless V-tach, as the initial arrest rhythm, are generally better than those of patients presenting with asystole or PEA. And as mentioned above, the outcome can be improved by prompt recognition and with the administration of high-quality CPR and defibrillation.