near
papillary muscles in the
left ventricle. Ectopic foci can be located anywhere in the ventricles in the case of PVCs. Normally, impulses pass through both ventricles almost at the same time and the depolarization waves of the two ventricles partially cancel each other out in the ECG. However, when a PVC occurs the impulse nearly always travels through only one bundle fiber, so there is no neutralization effect; this results in the high voltage QRS wave in the electrocardiograph. There are three main physiological explanations for premature ventricular contractions: enhanced ectopic nodal automaticity, re-entry signaling, and toxic/reperfusion triggered. Ectopic enhanced nodal automaticity suggests foci of sub-pulmonic valvular pacemaker cells that have a subthreshold potential for firing. The basic rhythm of the heart raises these cells to threshold, which precipitates an ectopic beat. This process is the underlying mechanism for arrhythmias due to excess catecholamines and some electrolyte deficiencies, particularly
low blood potassium, known as hypokalemia. Reentry occurs when an area of 1-way block in the
Purkinje fibers and a second area of slow conduction are present. This condition is frequently seen in patients with underlying heart disease that creates areas of differential conduction and recovery due to myocardial scarring or ischemia. During ventricular activation, one bundle tract's area of slow conduction activates the other tract's bundle fibers post block after the rest of the ventricle has recovered. This resulting in an extra beat. Reentry can produce single ectopic beats, or it can trigger paroxysmal tachycardia. Triggered beats are considered to be due to after-depolarizations triggered by the preceding action potential. These are often seen in patients with ventricular arrhythmias due to digoxin toxicity and reperfusion therapy after myocardial infarction (MI). This ectopy of the ventricles when associated with a structurally normal heart most commonly occurs from the
right ventricular outflow tract (RVOT) under the pulmonic valve. The mechanism behind this is thought to be enhanced automaticity versus triggered activity. This type of protein stimulates the production of cAMP, ultimately increasing the flow of calcium ions from the extracellular space and from the sarcoplasmic reticulum into the cytosol. This has the effect of (1) increasing the strength of contraction (inotropy) and (2) depolarizing the myocyte more rapidly (chronotropy). The ventricular myocytes are therefore more irritable than usual, and may depolarize spontaneously before the SA node depolarizes. Other sympathomimetic molecules such as
amphetamines and
cocaine will also cause this effect. :*Phosphodiesterase inhibitors such as
caffeine directly affect the G-coupled signal transduction cascade by inhibiting the enzyme that catalyzes the breakdown of cAMP, again leading to the increased concentration of calcium ions in the cytosol. • potassium deficiency:
Potassium ion concentrations are a major determinant in the magnitude of the electrochemical potential of cells, and
hypokalemia makes it more likely that cells will depolarize spontaneously.
Hypercalcemia has a similar effect, although clinically it is of less concern. • magnesium deficiency:
Magnesium ions affect the flow of
calcium ions, and they affect the function of the
Na+/K+ ATPase, and are necessary for maintaining potassium levels.
Low blood magnesium therefore also makes spontaneous depolarization more likely. • myocardium damage: Existing damage to the myocardium can also provoke PVCs. The
myocardial scarring that occurs in
myocardial infarction and also in the surgical repair of
congenital heart disease can disrupt the conduction system of the heart and may also irritate surrounding viable ventricular myocytes, make them more likely to depolarize spontaneously. Inflammation of the myocardium (as occurs in
myocarditis) and systemic inflammation cause surges of
cytokines, which can affect the electrical properties of myocytes and may be ultimately responsible for causing irritability of myocytes. == Diagnosis ==