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EKG Lab Update In the interest of allowing more time for student questions and practice EKG recording and reading, this page has been created and replaces pages 95-100 in the survival guide. QRS Axis: The QRS complex represents the depolarization of the ventricular myocardium. The mean QRS vector normally points downward and to the patient’s left because this is the general direction of ventricular depolarization. If you would like to check if your patient’s mean QRS is downward and to the left, then you will need to observe the EKG from more than one lead. Lead I and Lead AVF can be used to check the lower left quadrant quickly (“Double thumbs up.”) Notice how right axis deviation (R.A.D.) and left axis deviation (L.A.D.) would lead to different EKG results. What are some reasons that a person’s mean QRS vector would move out of the normal quadrant? Several examples of abnormal rhythm strips are shown below. Note in the first example that the activity of the ventricle started early; it started from a location other than the AV node, so the mean QRS axis is expected to be abnormal. We cannot make the usual inferences about R.A.D. or L.A.D. when the ventricle’s depolarization starts at an unusual location. You could look at the beats proceeding or following the abnormal beat -- assuming these beats resulted from normal AV node activity, of course. Here are several additional examples. Remember, a P-wave normally precedes each QRS complex. The long P-R interval of first-degree block suggests slow conduction through the AV node and/or AV Bundle (“Bundle of His.”) A QRS follows each P-wave, but the QRS is always tardy. These examples of second-degree heart block all have regular P-P intervals, but some QRS complexes are missing. The “lost” QRS may occur rarely (i.e., a skipped QRS), or it may occur after every other P-wave, or it may occur after every third P-wave. Third-degree (“complete”) heart block describes a condition in which the P wave is regularly paced, and the QRS complex is regularly paced, but the two are independent. The atria and ventricles have independent pacing mechanisms so the coordination between atrium and ventricle is “completely” lost.
