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Cardiac Conduction System and Understanding ECG, Animation.

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    NARRATOR: The cardiac conduction system consists of the following components:
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    the sinoatrial node, or SA node,
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    located in the right atrium near the entrance of the superior vena cava.
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    This is the natural pacemaker of the heart
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    that initiates all heartbeat and determines heart rate.
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    Electrical impulses from the SA node spread
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    throughout both atria and stimulate them to contract.
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    The atrial ventricular node, or AV node,
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    located on the other side of the right atrium,
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    near the AV valve.
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    The AV node serves as electrical gateway to the ventricles.
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    It delays the passage of electrical impulses to the ventricles.
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    This delay is to ensure that the atria have ejected
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    all the blood into the ventricles before the ventricles contract.
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    The AV node receives signals from
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    the SA node and passes them on to the atrioventricular bundle,
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    AV bundle, or bundle of His.
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    This bundle is then divided into right and left
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    bundle branches which conduct the impulses toward the apex of the heart.
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    The signals are then passed onto Purkinje fibers,
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    turning upward and spreading throughout the ventricular myocardium.
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    Electrical activities of the heart can be recorded in the form of electrocardiogram,
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    ECG, or EKG.
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    An ECG is a composite recording of
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    all the action potentials produced by the nodes and the cells of the myocardium.
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    Each wave or segment of the ECG corresponds
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    to a certain event of the cardiac electrical cycle.
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    When the atria are full of blood,
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    the SA node fires,
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    electrical signals spread throughout the atria and cause them to depolarize.
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    This is represented by the P wave on the ECG.
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    Atrial contraction or atrial systole,
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    starts about 100 milliseconds after the P wave begins.
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    The P-Q segments represent the time the signals travels from the SA node to the AV node.
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    The QRS complex marks the firing of
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    the AV node and represents ventricular depolarization.
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    Q wave corresponds to depolarization of the interventricular septum.
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    R wave is produced by depolarization of the main mass of the ventricles.
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    S wave represents the last phase of ventricular depolarization at the base of the heart.
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    Atrial repolarization also occurs during this time,
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    but the signal is obscured by the large QRS complex.
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    The S-T segment reflects the plateau in the myocardial action potential;
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    this is when the ventricles contract and pump blood.
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    The T wave represents ventricular repolarization
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    immediately before ventricular relaxation or ventricular diastole.
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    The cycle repeats itself with every heartbeat.
Title:
Cardiac Conduction System and Understanding ECG, Animation.
Description:
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Video Language:
English
Team:
BYU Continuing Education
Project:
CELL-205-300

English subtitles

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