Atrial Fibrillation Anatomy, ECG and Stroke, Animation.

Atrial fibrillation is the most common type of cardiac arrhythmia. In a healthy heart, the sinoatrial node or SA node initiates all electrical impulses in the atria.

In atrial fibrillation, electrical impulses are initiated randomly from many other sites called ectopic sites in and around the atria, commonly near the roots of pulmonary veins.

These un-synchronized, chaotic electrical signals cause the atria to quiver or fibrillate rather than contract. Although the atrial rate during atrial fibrillation can be extremely high, most of the electrical impulses do not pass through the atrioventricular – the AV – node to the ventricles. This is due to refractory properties of the cells of the AV node. Those that do come through are irregular.

Ventricular rate or heart rate is therefore irregular and can range from slow – less than 60 – to rapid -more than 100 – beats per minute. On an ECG, atrial fibrillation is characterized by absence of P-waves and irregular narrow QRS complexes. Reminder: P-wave represents electrical activity of the SA node that is now obscured by activities of multiple ectopic sites.

The baseline may appear undulating or totally flat depending on the number of ectopic sites in the atria. In general, larger number of ectopic sites results in flatter baseline.

As the atria do not function properly, the heart puts out less blood, and heart failure may occur. The most common complication of atrial fibrillation, however, is the formation of blood clots in the atria. As the atria do not empty completely into the ventricles, the blood may stagnate inside the atria and blood clots may form.

These clots may then pass into the bloodstream, get stuck in small arteries and block them. When a blood clot blocks an artery in the brain, a stroke may result..

Comments

A-FIB VERSUS JUNCTIONAL RHYTHMS

. ATRIAL FIBRILLATION: On your rhythm strip, the two most important characteristics are: . 1) A rhythm that’s IRREGULARLY irregular (meaning there’s no way to predict the next beat) 2) No discernible P waves . In fact, if you notice an irregularly irregular rhythm and you’re having to convince yourself that you see P waves... it’s probably A-fib (multifocal atrial arrhythmias like WAP/MAT could fit the differential) . *In my opinion: Don’t get caught up in using fibrillation waves as an absolute criteria. Very fine A-fib can sometimes produce a near isoelectric line between beats. . JUNCTIONAL RHYTHMS: The pacemaker cells surrounding the AV junction are capable of initiating regular impulses but at a slightly slower natural rate than their sinus and atrial superiors. The heart is built this way so that when the pacemaker cells with the fastest intrinsic rates are in action, those below are suppressed and function primarily to pass along the impulse from above. . For these reasons, we s...

Zion Health’s Commitment to Sustainability: Healing Skin, Protecting the Planet

In a world increasingly aware of environmental challenges, Zion Health stands out as a beacon of eco-conscious skincare. Combining the natural power of healing clay with a deep commitment to sustainability, Zion Health goes beyond offering effective products; they’re dedicated to making a positive impact on the planet. Sustainability at the Core Zion Health’s sustainability initiatives are woven into every aspect of their operations. From ingredient sourcing to packaging, their approach is guided by a simple yet profound principle: care for the environment as much as they care for their customers’ skin. Eco-Friendly Ingredients The foundation of Zion Health’s products is calcium montmorillonite clay, a naturally occurring mineral rich in detoxifying and healing properties. By using clay and other plant-based ingredients, they minimize reliance on synthetic chemicals, reducing the environmental footprint of their formulations. S.T.E.M Recycling Program One of Zion Health’s standou...

The Pathway of Blood

Here’s a great illustration on the pathway of blood flow through the heart. It may seem easy...but you should know this cold as well as the cardiac anatomy, both of which will make procedures and understanding hemodynamics easier. . . . 💙VENOUS BLOOD- Blood flows into the heart (into the right atrium) through two major veins (the superior and inferior vena cava) as well as from the coronary sinus (cardiac venous blood from the coronaries) and then out through the first AV valve (tricuspid valve) into the right ventricle. From there blood flows into the right ventricular outflow tract, across the first semilunar valve (pulmonic valve) and into the main and then left and right pulmonary arteries. Blood then enters the lungs to become oxygenated. . . . ❤️ARTERIAL BLOOD- now that blood is oxygenated flow goes from the lungs into the left atrium through 4 veins (usually) called the pulmonary veins. From the left atrium blood flows across the other AV valve (mitral valve) and into the left ...

Best Cardiologist in London

Search This Blog