During pregnancy, the increased metabolic demand required for fetal growth and development leads to multiple physiologic maternal adaptations, particularly cardiovascular changes.  These changes both benefit the fetus and protect the patient against the risks of delivery (eg, hemorrhage).

The driving force behind maternal hemodynamic changes is a significant decrease in systemic vascular resistance (SVR) due to both increased release of peripheral vasodilators (eg, nitric oxide, prostacyclin) and formation of a high-flow, low-resistance uteroplacental circuit (increases blood flow to the placenta and fetus).  There is also significantly increased blood volume.  These changes have the following effects on cardiac preload and afterload:

• Both increased blood volume and decreased SVR (which allows blood to return to the heart more quickly and easily) contribute to increased cardiac venous return (ie, increased preload).

• The marked reduction in SVR leads to decreased blood pressure (ie, reduced afterload).

Both the increased preload and decreased afterload facilitate an increase in stroke volume, which is the primary cause of increased cardiac output (ie, stroke volume x heart rate) in early pregnancy.  As the pregnancy progresses, the stroke volume decreases but maternal heart rate gradually increases, contributing to an overall increase in cardiac output of up to 30%-50% during pregnancy.

Educational objective:
During pregnancy, increased metabolic demands lead to multiple physiologic cardiovascular changes, including decreased systemic vascular resistance and increased blood volume.  These changes cause increased preload and decreased afterload, resulting in increased stroke volume and cardiac output.  Heart rate also gradually increases during pregnancy and is the major contributor to increased cardiac output in late pregnancy.