Cardiac pacemaker

Cardiac pacemaker

The contractions of the heart are controlled by chemical impulses, which fire at a rate which controls the beat of the heart.

The cells that create these rhythmical impulses are called pacemaker cells, and they directly control the heart rate. Artificial devices also called pacemakers can be used after damage to the body's intrinsic conduction system to produce these impulses synthetically.

Control via the SA node

Although all of the heart's cells possess the ability to generate these electrical impulses (or action potentials), a specialised portion of the heart, called the sinoatrial node, is responsible for the whole heart's beat.

The sinoatrial node (SA node) is a group of cells positioned on the wall of the right atrium, near the entrance of the superior vena cava. These cells are modified cardiac myocytes. They possess some contractile filaments, though they only contract relatively weakly.

Cells in the SA node will spontaneously depolarize, resulting in contraction, approximately 100 times per minute. This native rate is constantly modified by the activity of sympathetic and parasympathetic nerve fibers, so that the average resting cardiac rate in adult humans is about 70 beats per minute. Because the sinoatrial node is responsible for the rest of the heart's electrical activity, it is sometimes called the "primary pacemaker".

If the SA node does not function, or the impulse generated in the SA node is blocked before it travels down the electrical conduction system, a group of cells further down the heart will become the heart's pacemaker, this is known as an ectopic pacemaker. These cells form the atrioventricular node (AV node), which is an area between the atria and ventricles, within the atrial septum.

The cells of the AV node normally discharge at about 40-60 beats per minute, and are called the "secondary pacemaker".

Further down the electrical conducting system of the heart, the Bundle of His, the left and right branches of this bundle, and the Purkinje fibres, will also produce a spontaneous action potential if they aren't inhibited by other electrical activity. These "tertiary pacemakers" fire at a rate between 30-40 per minute.

Even individual cardiac muscle cells will contract rhythmically on their own.

The reason the SA node controls the whole heart is that its action potentials are released most often; this triggers other cells to generate their own action potentials. In the muscle cells, this will produce contraction. The action potential generated by the SA node, passes down the cardiac conduction system, and arrives before the other cells have had a chance to generate their own spontaneous action potential. This is the normal conduction of electrical activity within the heart.

Generation of action potentials

There are three main stages in the generation of an action potential in a pacemaker cell. Since the stages are analogous to contraction of cardiac muscle cells, they have the same naming system. This can lead to some confusion. There is no phase one or two, just phases zero, three and four.

Phase 4 - Pacemaker potential

The key to the rhythmical firing of pacemaker cells is that, unlike muscle and neurons, these cells will slowly depolarize by themselves.

As in all other cells, the resting potential of a pacemaker cell (-60mV to -70mV) is caused by a continuous outflow or "leak" of potassium ions through ion channel proteins in the membrane that surrounds the cells. The difference is that this potassium permeability decreases as time goes on, partly causing the slow depolarization. As well as this, there is a slow inward flow of sodium, called the funny current, as well as an inward flow of calcium. This all serves to make the cell more positive.

This relatively slow depolarization continues until the "threshold potential" is reached. Threshold is between -40mV and -50mV. When threshold is reached, the cells enter phase 0.

Phase 0 - Upstroke

Though much faster than the depolarisation caused by the "funny current" and decrease in potassium permeability above, the upstroke in a pacemaker cell is relatively slow compared to that in an axon.

The SA and AV node do not have fast sodium channels like neurons, and the depolarisation is mainly caused by a slow influx of calcium ions. (The funny current also increases). The calcium is let into the cell by voltage-sensitive calcium channels that open when the threshold is reached.

Phase 3 - Repolarization

The calcium channels are rapidly inactivated, soon after they open. Sodium permeability is also decreased.Potassium permeability is increased, and the efflux of potassium (loss of positive ions) slowly repolarises the cell.

Control of heart rate

Hormonal effects can also affect the heart. Noradrenaline and adrenaline (also called Norepinephrine and Epinephrine respectively) are both released into the bloodstream by the adrenal medulla. They have the same action on heart rate as direct sympathetic stimulation.

ee also

* Cardiac action potential
* Electrical conduction system of the heart
* Artificial pacemaker

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