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2 For more presentations ECG Rhythm Interpretation Module VII a Reading 12-Lead ECGs

3 For more presentations Course Objective To systematically analyze a 12-lead ECG.

4 For more presentations Learning Modules ECG Basics How to Analyze a Rhythm Normal Sinus Rhythm Heart Arrhythmias Diagnosing a Myocardial Infarction Advanced 12-Lead Interpretation Reading 12-Lead ECGs

5 For more presentations Reading 12-Lead ECGs The 12-Lead ECG contains information that will assist you in making diagnostic and treatment decisions in your clinical practice. In previous modules you learned how to read and interpret parts of the ECG. Now, we will bring all that you have learned together so that you can systematically read and interpret a 12-lead ECG. The information will be divided into two modules, VII a and VII b.

6 For more presentations Reading 12-Lead ECGs The best way to read 12-lead ECGs is to develop a step- by-step approach (just as we did for analyzing a rhythm strip). In these modules we present a 6-step approach: 1.Calculate RATE 2.Determine RHYTHM 3.Determine QRS AXIS 4.Calculate INTERVALS 5.Assess for HYPERTROPHY 6.Look for evidence of INFARCTION

7 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct In Module II you learned how to calculate the rate. If you need a refresher return to that module. There is one new thing to keep in mind when determining the rate in a 12-lead ECG…

8 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct If you use the rhythm strip portion of the 12-lead ECG the total length of it is always 10 seconds long. So you can count the number of R waves in the rhythm strip and multiply by 6 to determine the beats per minute. Rate?12 (R waves) x 6 = 72 bpm

9 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct In Module II you learned how to systematically analyze a rhythm by looking at the rate, regularity, P waves, PR interval and QRS complexes. In Modules III, IV and V you learned how to recognize Normal Sinus Rhythm and the 13 most common rhythm disturbances. If you need a refresher return to these modules.

10 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct Tip: the rhythm strip portion of the 12-lead ECG is a good place to look at when trying to determine the rhythm because the 12 leads only capture a few beats. Lead II Rhythm? Atrial fibrillation Rhythm strip 1 of 12 leads

11 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct Axis refers to the mean QRS axis (or vector) during ventricular depolarization. As you recall when the ventricles depolarize (in a normal heart) the direction of current flows leftward and downward because most of the ventricular mass is in the left ventricle. We like to know the QRS axis because an abnormal axis can suggest disease such as pulmonary hypertension from a pulmonary embolism.

12 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct The QRS axis is determined by overlying a circle, in the frontal plane. By convention, the degrees of the circle are as shown. The normal QRS axis lies between -30 o and +90 o. 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o A QRS axis that falls between -30 o and -90 o is abnormal and called left axis deviation. A QRS axis that falls between +90 o and +150 o is abnormal and called right axis deviation. A QRS axis that falls between +150 o and -90 o is abnormal and called superior right axis deviation.

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14 Rate Rhythm Axis Intervals Hypertrophy Infarct We can quickly determine whether the QRS axis is normal by looking at leads I and II. If the QRS complex is overall positive (R > Q+S) in leads I and II, the QRS axis is normal. QRS negative (R < Q+S) In this ECG what leads have QRS complexes that are negative? equivocal? QRS equivocal (R = Q+S)

15 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct How do we know the axis is normal when the QRS complexes are positive in leads I and II?

16 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct The answer lies in the fact that each frontal lead corresponds to a location on the circle. 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o I II avF avLavR Limb leads I = +0 o II = +60 o III = +120 o Augmented leads avL = -30 o avF = +90 o avR = -150 o I II III

17 For more presentations 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o Rate Rhythm Axis Intervals Hypertrophy Infarct Since lead I is orientated at 0 o a wave of depolarization directed towards it will result in a positive QRS axis. Therefore any mean QRS vector between -90 o and +90 o will be positive. I

18 For more presentations 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o Rate Rhythm Axis Intervals Hypertrophy Infarct Since lead I is orientated at 0 o a wave of depolarization directed towards it will result in a positive QRS axis. Therefore any mean QRS vector between -90 o and +90 o will be positive. Similarly, since lead II is orientated at 60 o a wave of depolarization directed towards it will result in a positive QRS axis. Therefore any mean QRS vector between -30 o and +150 o will be positive. I II

19 For more presentations 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o Rate Rhythm Axis Intervals Hypertrophy Infarct Since lead I is orientated at 0 o a wave of depolarization directed towards it will result in a positive QRS axis. Therefore any mean QRS vector between -90 o and +90 o will be positive. Similarly, since lead II is orientated at 60 o a wave of depolarization directed towards it will result in a positive QRS axis. Therefore any mean QRS vector between -30 o and +150 o will be positive. Therefore, if the QRS complex is positive in both leads I and II the QRS axis must be between -30 o and 90 o (where leads I and II overlap) and, as a result, the axis must be normal. I II

20 For more presentations 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o Rate Rhythm Axis Intervals Hypertrophy Infarct Now using what you just learned fill in the following table. For example, if the QRS is positive in lead I and negative in lead II what is the QRS axis? (normal, left, right or right superior axis deviation) QRS Complexes I Axis I II normal left axis deviation II

21 For more presentations 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o Rate Rhythm Axis Intervals Hypertrophy Infarct … if the QRS is negative in lead I and positive in lead II what is the QRS axis? (normal, left, right or right superior axis deviation) QRS Complexes I Axis I II normal left axis deviation right axis deviation II

22 For more presentations 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o Rate Rhythm Axis Intervals Hypertrophy Infarct … if the QRS is negative in lead I and negative in lead II what is the QRS axis? (normal, left, right or right superior axis deviation) QRS Complexes I Axis I II normal left axis deviation right axis deviation right superior axis deviation 0o0o 30 o -30 o 60 o -60 o -90 o -120 o 90 o 120 o 150 o 180 o -150 o II

23 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct Is the QRS axis normal in this ECG?No, there is left axis deviation. The QRS is positive in I and negative in II.

24 For more presentations Rate Rhythm Axis Intervals Hypertrophy Infarct To summarize: –The normal QRS axis falls between -30 o and +90 o because ventricular depolarization is leftward and downward. –Left axis deviation occurs when the axis falls between -30 o and -90 o. –Right axis deviation occurs when the axis falls between +90 o and +150 o. –Right superior axis deviation occurs when the axis falls between between +150 o and -90 o. QRS Complexes Axis I II normal left axis deviation right axis deviation right superior axis deviation –A quick way to determine the QRS axis is to look at the QRS complexes in leads I and II.

25 For more presentations SUMMARY Rate Rhythm Axis Intervals Hypertrophy Infarct To summarize VII a: 1.Calculate RATE 2.Determine RHYTHM 3.Determine QRS AXIS –Normal –Left axis deviation –Right axis deviation –Right superior axis deviation

26 For more presentations SUMMARY Rate Rhythm Axis Intervals Hypertrophy Infarct In VII b we will cover the next 3 steps: 1.Calculate RATE 2.Determine RHYTHM 3.Determine QRS AXIS 4.Calculate INTERVALS 5.Assess for HYPERTROPHY 6.Look for evidence of INFARCTION

27 For more presentations End of Module VII a Reading 12-Lead ECGs Proceed to Module VII a Practice Quiz on WebCT

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