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The Hearts Electrical Activity

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Presentation on theme: "The Hearts Electrical Activity"— Presentation transcript:

1 The Hearts Electrical Activity

2 Pacemaker The heart has a natural pacemaker that regulates the pace or rate of the heart. It sits in the upper portion of the right atrium (RA) and is a collection of specializes electrical cells known as the SINUS or SINO- ATRIAL (SA) node. 

3 Overview The SA node generates a number of impulses per minute.
Each “impulse" travels across a specialized electrical pathway and stimulates the muscle wall of the four chambers of the heart to contract (and thus empty) in a certain sequence or pattern. The upper chambers or atria are first stimulated. This is followed by a slight delay to allow the two atria to empty. Finally, the two ventricles are electrically stimulated.

4 Sequence of Electrical Activity
As the SA node fires, each electrical impulse travels through the right and left atrium. This electrical activity causes the two upper chambers of the heart to contract. This electrical activity and can be recorded from the surface of the body as a "P" wave" on the patient's EKG or ECG (electrocardiogram).

5 Sequence Continued The electrical impulse then moves to an area known as the AV (atrio-ventricular) node.

6 Sequence Continued Here, the electrical impulse is held up for a brief period. This delay allows the right and left atrium to continue emptying it's blood contents into the two ventricles. This delay is recorded as a "PR segment." The AV node thus acts as a "relay station" delaying stimulation of the ventricles long enough to allow the two atria to finish emptying.

7 Sequence Continued Following the delay, the electrical impulse travels through both ventricles (via special electrical pathways known as the right and left bundle branches). The electrically stimulated ventricles contract and blood is pumped into the pulmonary artery and aorta. This electrical activity is recorded from the surface of the body as a "QRS complex". The ventricles then recover from this electrical stimulation and generates an "ST segment" and T wave on the EKG.

8 In summary, the heart constantly generates a sequence of electrical activity with every single heart beat. This can be recorded on paper or displayed on a monitor by attaching special electrodes to a machine that can amplify and record an EKG or ECG (electrocardiogram). EKG Clip

9 What is an EKG? The electrocardiogram (EKG) is a representation of the electrical events of the cardiac cycle. The Electrodes (we will use) pick up the change in charge. polarized – the cell is positively charged depolarized – the cell has an equal number of electrons inside and outside of the cell

10 What Does an EKG Look Like?
Name of PowerPoint Name of Course Name of Lesson What Does an EKG Look Like? P = P Wave- Just before atrial contraction QRS Complex- Impulse causing ventricle contraction T= T Wave – Ventricles relax R P Through T = Systolic Pressure T Through P = Diastolic T p Q S Direction of impulse Project Lead The Way© Copyright 2005

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