24.11:

Vascular Resistance

JoVE 核
Anatomy and Physiology
需要订阅 JoVE 才能查看此.  登录或开始免费试用。
JoVE 核 Anatomy and Physiology
Vascular Resistance

1,155 Views

01:20 min

July 18, 2024

Vascular resistance is a critical concept in understanding blood flow dynamics in the circulatory system. It refers to the resistance that blood encounters as it flows through the blood vessels. This resistance is a key factor in determining blood pressure and cardiac workload.

The primary determinants of vascular resistance are vessel diameter, blood viscosity, and vessel length. Among these, vessel diameter plays the most significant role due to the fourth power relationship described by Poiseuille's law: small changes in diameter lead to large changes in resistance. For instance, if a vessel's diameter halves, resistance increases by 16 times.

Blood viscosity, the thickness of blood, also affects resistance. Higher viscosity, as seen in conditions like polycythemia, increases resistance and hence blood pressure. Conversely, lower viscosity, as seen in anemia, reduces resistance.

Vessel length contributes to resistance, but this factor remains relatively constant in adults. Longer vessels naturally have higher resistance, but since vessel length doesn't change appreciably over short periods, its impact is more static compared to diameter and viscosity.

Vascular resistance is primarily regulated by arterioles, the small branches of arteries. These vessels contain smooth muscle that can constrict or dilate, thereby adjusting resistance. Vasoconstriction increases resistance and blood pressure, while vasodilation decreases them.

The systemic vascular resistance (SVR) and pulmonary vascular resistance (PVR) are specific measures used to assess resistance in systemic and pulmonary circulations, respectively. Elevated SVR can indicate conditions such as hypertension, while increased PVR may suggest pulmonary hypertension.

Understanding vascular resistance is crucial for diagnosing and managing cardiovascular diseases. It helps in assessing the efficiency of the circulatory system and the effectiveness of therapeutic interventions aimed at modulating blood pressure and flow.