i bc27f85be50b71b1 (6 page)

Preload

Preload is the amount of tension on the ventricular wall before it contracts. It is related ro venous return and affects SV by increasing left ventricular end diastolic volume as well as pressure and therefore contraction J This relationship is explained by the Frank-Starling Mechanism and is demonstrated in Figure 1-2.

Frank-Starli/lg Mechanism

The Frank-Starling mechanism defines the normal relationship

between length and tension of the myocardium,s The greater the

stretch on the myocardium before systole (preload), the stronger

the ventricular contraction. The length-tension relationship in

skeletal muscle is based on the response of individual muscle

fibers; however, relationships between cardiac muscle length and

tension consist of the whole heart. Therefore, length is considered

in terms of volume; tension is considered in terms of pressure. A

greater volume of blood returning to the hearr during diastole

equates ro greater pressures generated initially by the heart's contractile elements. Ultimately facilitated by elastic recoil, a greater volume of blood is ejected during systole. The effectiveness of this

mechanism can be reduced in pathologic situations.4

Afterload

Afterload is the force against which a muscle must contract to initiate shortening.s Within the ventricular wall, this is equal to the

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Figure 1-2. Factors affecting left ventricular function. (Adapted from E Braunwal. J Ross, E Somlenblick. et al. Mechanisms of Contraction of the Normal and Faili,lg Heart {2nd ed}. Boston: Little, Brown, 1 976.}

CARDIAC SYSTEM

9

tension developed across its wall during systo le. The most prominent force contributing to afterload in the heart is SP, specifically vascular compliance and resistance. BP affects aortic valve opening

and is the most obvious load encountered by the ejecting ventricle.

An example o f afterload is the amount of pressure in the aorta at

the time of ventricular systo le.3

Cardiac Conduction System

A schematic of the cardiac conduction system and a normal electrocardiogram (ECG) are presented in Figure 1 -3. Normal conduction begins in the SA node and travels t1uoughout the atrial myocardium (atrial

depolarization) via intranodal pathways to the atrioventricular (AV)

node, where it is delayed momentarily. It then travels to the bundle o f

His, to the bundle branches, to the Purkinje fibers, and finally to the

myocardium, resulting in ventricular contraction.6 Disturbances in con-

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Figure 1-3. Schematic representation of the sequence of excitation in the

heart. (\'(lith permission from M \'(Ialsh. A Crumbie. S Reveley. Nurse Practitioners: Clinical Skills and Professional Issues. Boston: Butterworth-Heineman, 1999;99.)

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