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ECG Michael Watts www.peermedics.com Physiology LEAD POSITIONS ANYONE? The trace ECG paper made up of 1mm and 5mm squares Trace speed =25mm/s so one 5mm =0.20s and one 1mm = 0.04s P waves = <0.11s and 3mm (0.3mV) high PR interval = normally 3-5 small squares QRS = normally <3 small squares Step by step interpretation Rate (large squares / 100 or 10 second trace x 6) Rhythm (QRS intervals) Axis deviation (L is Leaving, R is Returning) Check P waves Check PR interval (Heart block) (Delta waves?) Is there a P wave before every QRS complex? Is there a QRS wave after every P wave? Check QRS complex (Broad?) Any ST changes What are the T waves like? Axis deviation Sinus Bradycardia Diagnosis =HR <50bpm with Normal waves & complexes May be due to high parasympathetic (vasovagal) tone, athletes or sleep. Also caused by opiates, B blockers and many more Tx = IV atropine (muscarinic receptor antagonist) Sinus Tachycardia Diagnosis = HR >100bpm with regular rhythm and normal waves & complexes Increased cardiac output (heart failure, shock, exercise, stress) and many MANY more Tx = underlying cause. If not then B blocker or verapamil Extrasystoles (ectopic beats) P wave / QRS complex appears prematurely Supraventricular ones are common and often insignificant = no treatment Ventricular look abnormally broad and premature and may be followed by an inverted T wave. Common after acute MI. May cause weak pulse due to poor diastolic filling = no Tx in healthy but may need treating in heart failure etc. Supraventricular Tachycardia Multifocal (multiple ectopics) Diagnosis= P waves of varying shape, P wave frequency of 120-150bpm, varying PR interval, Irregular rhythm Fairly uncommon but seen with cor pulmonale, PE, MI and hypoxia. Seen in last stages of life of elderly. Tx = underlying heart disease Atrial Fibrillation 350-600 atrial bpm Diagnosis = Fibrillatory line w/ absent P waves, QRS’ irregularly irregular, normal QRS’ but rate 200bpm No effective systolic contraction = thrombus risk Reduced diastolic filling = dyspnoea and oedema Cause assoc. w/ myocardial damage (Ischaemic heart disease, rheumatic mitral valve, HTN, MI, thyrotoxicosis) SHITAP Tx = acute AF = digoxin or verapamil/B blocker/ DC cardioversion Chronic AF = digoxin and warfarin (CHA2DS2VASc) Types of AF Paroxysmal – occurs occasionally then stops. Heart returns to normal rhythm Persistant – does not stop by itself. Cardioversion necessary for normal rhythm Permanent – cant be corrected (cardioversion unsuccessful) Atrial Flutter Short circuit within the Atria rate of 250-350bpm Diagnosis = Flutter waves (saw-tooth), QRS’ regular or irregular, normal size QRS Assoc. w/ varying degrees of heart failure. Dyspnoea even with slight exercise. Causes similar to AF Acute flutter can be treated with IV digoxin or IV verapamil. If severe (shock, MI, heart failure) DC cardioversion should be attempted. Ventricular Tachycardia Diagnosis = Widened QRS of abnormal shape, inverted T waves, QRS > 100bpm, P waves normally not visible Very serious Can lead to acute heart failure w/ shock and pulm. Oedema. Most frequently occurs 2-3 days post-MI. Can be due to drug overdose. Tx as serious incase of VF! In acute VT w/ no haemodynamic change give IV bolus of lignocaine. If haemodynamic upset but concious DC cardioversion. If unconcious = DC defibrillation. Ventricular Fibrillation Diagnosis = Irregular Rough base line, Wide, abnormal questionable QRS’, frequency 250-600bpm Heart ceases to pump after 10 seconds = cardiac arrest. Death follows within minutes if left untreated. Caused by coronary artery disease, most commonly first few hours post MI. Can be caused by electrical accident, serious electrolyte imbalance, drowning, choking, hypothermia Immediate DC shock (CPR until available). IV lignocaine given before next shock First degree Heart Block Failed impulse conduction from atria to ventricles Degree depends on severity of damaged myocardium Diagnosis = PR interval >0.21s w/ normal P wave and QRS. All P waves followed by QRS Seen in athletes, old people, b blocker treatment, hyperkalaemia, myocarditis Second Degree Heart block – Mobitz type 1 (Wenckebach) Diagnosis = Normal P waves and QRS complex, gradual increase in PR interval until QRS is dropped Seen in digoxin overdose and inferior wall infarction Second degree Heart block – Mobitz type 2 Diagnosis = Normal P waves and QRS complexes, constant PR interval, some P waves not followed by QRS Can occur irregularly or every second, third or fourth beat which is called 2:1, 3:1 or 4:1 heart block Haemodynamic upset is common. If occurs acutely think MI, if chronic think degeneration of the conductive system. Conversion to complete heart block common. Tx = IV atropine in acute cases. Pacemakers otherwise required Third degree Heart block No AV conduction. Nodal escape rhythm gives a rate of 30-40bpm (comes from ventricles) if does not develop it can be fatal Diagnosis = Normal P waves with regular rhythm, QRS’ with regular rhythm but unrelated to P waves, Slow QRS rate, Wide complexes Anteroseptal infarctions can cause irreversible damage, can be congenital or in elderly Tx = IV atropine, permanent pacemaker should be used if persists Myocardial Infarction Multiple ECG’s are important to see changes! Minutes – Hours = ST elevation Hours – Days = pathological Q wave Days – weeks = T wave inversion Bundle Branch Block WILLIAM MARROW Antiarrythmic Drugs Class Example Mechanism Clinical Use Ia Disopyramide Na+ (intermediate dissociation) VT, VF and Paroxysmal AF Ib Lidocaine Na+ (fast dissociation) VT and VF post MI Ic Flecanide Na+ (slow dissociation) Paroxysmal AF and tachycardias II Propanolol Beta Blocker AF/VF post MI III Amiodarone K+ channel blocker WPW, SVT and VT (1st line) ?VF IV Verapamil CA2+ channel blocker SVT V Adenosine Slows AV node conduction SVT SOME BADMAN PLAY CHESS Any questions?