SIGNS AND SYMPTOMS 1-Chest pain 2-Dyspnea 3-Palpitation 4-Syncopal attach.

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Updated March 2006: D. Tucker, RPh, BCPS
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SIGNS AND SYMPTOMS 1-Chest pain 2-Dyspnea 3-Palpitation 4-Syncopal attach

The shape of the ECG

IntervalAverag e time (sec) Range time (sec) Events in the heart during interval P waveAtrial depolarization PR interval to 0.2 Atrial depolarization and conduction through AV node QRS duration0.08To 0.10Ventricular depolarization and atrial re-polarization QT interval0.40To 0.43Ventricular depolarization plus ventricular repolarization ST interval(QT minus QRS) 0.32Ventricular re-polarization

Heart block: I. Block at the level of AV node: A. First degree heart block: every atrial depolarization is followed by conduction to ventricle but delay. ECG changes prolongation of PR interval to more than 0.22 second.

B. Second degree heart block: some P waves conducted but other not. ECG changes every second or third P wave conducted to the ventricles.

C. Third degree heart block (complete heart block): Rate: Atrial: 60–100 bpm; ventricular: 40–60 bpm Rhythm: Usually regular, but atria and ventricles act independently. It occurs when all atrial activity fails to conduct to the ventricle so the Bundle of His will be responsible form generation of impulses.

Caused by: Acute myocardial infarction, calcify aortic stenosis, cardiomyopathy, drugs (digoxin, amiodarone). Block below AV node: A. block at Bundle of His, B. Block at the branches (Right or Left branch).

Sinus rhythm: It is caused by the changes of number of impulses emitted form SA node. Heart rates more than 100/min is called (tachycardia), while less than 60/min is called (bradycardia). It is usually of two types: 1. Sinus bradycardia: Causes: A. Extrinsic causes: hypothermia, hypothyroidism, and raised intra cranial pressure, drugs (beta-blockers, digitalis, and anti-arrhythmic drugs). B. Intrinsic causes: acute ischemia, infarction of SA node. ECG changes: Prolonged R-R interval.

2. Sinus tachycardia: causes A. acute causes: exercise, emotion, pain, fever, acute heart failure, B. chronic causes: pregnancy, anemia, hyperthyroidism, excess catecholamine. ECG: short R-R interval.

Ectopic beat (extra-systoles, premature beat): A premature contraction is contraction of heart before the time that normal contraction would have been expected. Most premature contraction result from ectopic foci in the heart, which emits abnormal impulses at odd time during cardiac rhythm. Possible causes of ectopic foci are:  Local area of ischemia  Small calcified plaques at different points in the heart, which press against the adjacent cardiac muscle so some fibers are irritated  Toxic irritation of the AV node, Purkinje system, or myocardium caused by drugs, nicotine, or caffeine. If an irritable ectopic focus discharges once, the result is ectopic beat. If the ectopic foci discharge repetitively at rate higher than that of SA node, it produces rapid, irregular tachycardia.

It could be: 1. Atrial ectopic: The ECG changes are:  The P wave of this beat occurs too soon in the heart cycle,  The P-R interval is shortened, indicating that the ectopic origin of the beat is near the A-V node  The interval between the premature and the next succeeding contraction is premature contraction and next succeeding contraction is slightly prolonged, which is called (compensatory pause).

2. ventricular ectopic:

ECG changes:  Premature beats that originate in an ectopic ventricular focus usually have bizarrely shaped prolonged and high voltage QRS complex  The P wave is usually buried in the QRS of the extra-systole  The T wave has an electrical potential polarity opposite to the QRS  The atrial depolarization that follows the premature ventricular contraction usually arrives while the AV node is still refractory and, therefore, it is not conducted to the ventricles, creating a pause in ventricular rhythm. Thus the ventricular premature beats are followed by a "compensatory pause" that is often longer than the pause after an atrial extra-systole. Ventricular ectopic are usually incapable of exciting the bundle of His and retrograde conduction to the atria therefore dose not occur (therefore the atrial rate remain unaltered). Furthermore, ventricular ectopic beats do not interrupt the regular discharge of the SA node, whereas atrial pre-mature beats interrupt and rest the normal rhythm.

Tachy-arrhythmia: Cardiac arrhythmia is a disturbance in electrical rhythm of the heart; this may be paroxysmal or continuous, and may cause sudden death, syncope, heart failure, palpitation, or no symptoms. There are two mechanisms for tachycardia: 1. Increase automaticity (increase slop angle): when the tachycardia is sustained by repeated spontaneous de-polarization of an ectopic focus or single cell.

2. Re-entry: when the tachycardia is initiated by an ectopic beat but sustained by a closed loop or re-entry circuit. Most tachy-arrhythmias are due to re-entry.

The types of tachy-arhythmias are: I. Atrial tachy-arrhythmias: Causes: ischemic heart disease, Mitral valve disease, rheumatic heart disease, hypertension, cardio-myo-pathy, thyro-toxicosis, atrial septal defect, acute and chronic alcohol abuse pulmonary embolus.

A. Atrial fibrillation: ECG: normal but irregular QRS, there are no P waves but base line may show irregular fibrillation waves.

B. Atrial flutter: ECG: regular saw-tooth-like atrial flutters waves (F waves) between QRST complexes; with rate about 300 beat/min. the QRS conducted 150 if every other one is conducted.

C. Atrial tachy-cardia: An ectopic arial tachycardia due to increase automaticity is rare but is sometimes is manifestation of digitalis toxicity. Rate: 150–250 bpm, Rhythm: Regular P Waves: Normal (upright and uniform) but differ in shape from sinus P waves

III. Ventricular tachy-arrhythmia: A. Ventricular tachycardia: it is usually a serious condition because:  This type of tachycardia dose not occurs unless considerable ischemic damage is present in the ventricles  Ventricular tachycardia frequently initiates the lethal condition of ventricular fibrillation  Cardiac output is decreased. The ECG changes including: a series of ventricular premature beats occurring one after another without any normal beat interspersed so QRS morphology is regular, the rate is between ( /min).

B. Ventricular fibrillation: The effects of ventricular fibrillation: The fibrillating ventricles, like the fibrillating atria, look like a quivering "bag of worms". The fibrillating ventricles cannot pump blood effectively and circulation of the blood stops. Therefore, in the absence of emergency treatment, ventricular fibrillation that last more than a few minutes is fatal. The most common cause of sudden death in patients with myocardial infarction is ventricular fibrillation. The ventricular fibrillation can often be stopped and converted to normal sinus rhythm by mean of electrical shock. The ECG changes: it shows undulating waves of varying frequency and amplitude.

Anti-arrhythmic drugs: Classification of anti-arrhythmic drugs (Vaughan- Williams classification): Goal of therapy: a. Therapy aims  to restore normal pacemaker activity  modify impaired conduction that leads to arrhythmias. Conduction velocity depens on the size of the inward current during upstroke of the action potential (↑inward currernt→↑. The evocity of conductance)

b. Therapeutic effects are achieved by:  sodium- or calcium-channel blockade,  prolongation of effective refractory period (it is slightly longer than absolute refratory period),  blockade of sympathetic effects on the heart. Many anti- arrhythmic drugs affect depolarized tissue (ectopic foci) to a greater extent than they affect nor­mally polarized tissue.

Anti-arrhythmic Drugs Treatment of tachy-arrhythmias: Class I a. Quinidine b. Disopyramide c. Lidocaine [Xylocaine] d. Flecainide e. propafenon e

Class II Mechanism: Class II drugs are β-adrenoceptor antagonists, including propranolol, which act by reducing sympathetic stimulation. They inhibit phase 4 depolarization, depress automaticity; prolong AV conduction, and decrease heart rate (except for agents that have sympathomimetic activity) and contractility. Major drugs: a. Propranolol [Inderal], b. atenolol, c.Metoprolol d. Bisoprolol e. sotalol

Class III Class III drugs prolong action potential duration and effective refractory period. These drugs act by interfering with outward K currents or slow inward Na currents 1. Amiodarone [Cordarone]: a. Amiodarone is structurally related to thyroxine. It increases refractoriness, and it also depresses sinus node automaticity and slows conduction.

Class IV drugs Mechanism a. Class IV drugs selectively block L-type calcium channels. b. These drugs prolong nodal conduction and effective refractory period and have pre­dominate actions in nodal tissues Verapamil [Calan,Isoptin]: a. Verapamil is a phenylalkylamine that blocks both activated and inactivated slow cal­cium channels.

Other anti-arrhythimic drugs Digoxin: can control ventricular response in atrial flutter or fibrillation. Digoxin toxicity Extracardiac manifestations a. anorexia, nausea, vomiting b. Diarrhoea cardiac manifestations a.Bradycardia b. Multiple ventriclar ectopics c. Ventricular bigeminy

Treatment of Brady-arrhythmia: 1. Atropine a. Atropine blocks the effects of acetylcholine. It elevates sinus rate and AV nodal and sinoatrial (SA) conduction velocity, and it decreases refractory period. b. Atropine is used to treat bradyarrhythmias that accompany MI. 2. Isoproterenol [Isuprel] a. Isoproterenol stimulates β-adrenoceptors and increases heart rate and contractility. b. Isoproterenol is used to maintain adequate heart rate and cardiac output in patients with AV block.