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Intervals on normal Electrocardiogram tracing and their Clinical significance
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Classroom Contents
EKG Interpretation - Master Fundamentals of ECG - Electrocardiography
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- 1 Electrical activity of myocardial cells and its representation on Electrocardiogram
- 2 Explanation of significance of degree and direction of deflection on Electrocardiogram in terms of physiological state of myocardial tissue
- 3 Explanation of velocity of deflection on Electrocardiogram in terms of velocity of conduction of Cardiac Tissue
- 4 Overview of topics
- 5 Atrial Depolarization and resulting Cardiac Vector
- 6 Stimulation of Atrioventricular Node and structure of slow and fast conducting fibers
- 7 Stages of Ventricular Depolarization and resulting Cardiac Vector
- 8 Review of all Cardiac Vectors in one cardiac cycle
- 9 Explanation of placement of Electrodes
- 10 Representation of Atrial Depolarization on Electrocardiogram
- 11 Representation of Atrioventricular Node stimulation on Electrocardiogram
- 12 Representation of Ventricular Depolarization on Electrocardiogram
- 13 Brief review of representation of Electrical Events on Electrocardiogram till Ventricular Depolarization
- 14 Explanation of Cardiac Vector of Ventricular Repolarization and its representation on Electrocardiogram
- 15 Review of representation of Electrical Events of one cardiac cycle on Electrocardiogram
- 16 Correlation of Electrocardiogram tracing with events of Cardiac Cycle
- 17 Waves on normal Electrocardiogram tracing
- 18 Segments on normal Electrocardiogram tracing
- 19 Intervals on normal Electrocardiogram tracing and their Clinical significance
- 20 Calibration of Electrocardiogram tracing paper
- 21 Normal duration of waves, segments, and intervals on Electrocardiogram tracing
- 22 Review of concepts