This section details the mechanisms by which arterioles regulate blood flow through the processes of vasoconstriction and vasodilation, highlighting the roles of smooth muscle, hormones, and the nervous system, particularly in response to emotional states.
Vasoconstriction: The narrowing (constriction) of blood vessels, which results from the contraction of smooth muscle cells in the vessel walls (tunica media). This action decreases blood flow and increases blood pressure.
Vasodilation: The widening (dilation) of blood vessels, which results from the relaxation of smooth muscle cells in the vessel walls. This action increases blood flow and decreases blood pressure.
The diameter of arterioles, and thus the amount of blood flowing through them, is actively regulated by several factors:
The tunica media, the middle layer of the arteriole wall, contains smooth muscle. Contraction leads to vasoconstriction, while relaxation leads to vasodilation. Arterioles are often referred to as 'resistance vessels' because of this regulatory capacity.
Various substances in the blood and tissues act as agents to control vessel diameter.
| Agent Type | Function | Examples |
|---|---|---|
| Vasoconstrictors | Cause blood vessels to narrow. | Norepinephrine (a powerful vasoconstrictor), Epinephrine (less potent), Some prostaglandins |
| Vasodilators | Cause blood vessels to widen. | Kinins (e.g., Histamine), Most prostaglandins, Acetylcholine (released by sympathetic vasodilator fibres) |
Vasoconstriction and vasodilation are crucial in the body's response to emotional and physiological stress.
During states of fear, flight, or fright, the hormone epinephrine is secreted. A specific regulatory system, the sympathetic vasodilator system, is activated. This pathway originates in the cerebral cortex (see Neuron→) and acts on postganglionic neurons in the blood vessels of skeletal muscles. These neurons release acetylcholine, causing significant vasodilation in skeletal muscles to prepare the body for action.
This can also lead to blood being shunted through thoroughfare channels via the action of precapillary sphincters, increasing heat loss and causing the skin to become hot and red.
Vasoconstriction reduces blood supply to the skin, which preserves body heat and can cause the skin to become cold and pale. This is one of the thermoregulatory strategies for heat gain in cold stress.
Vasodilation increases blood supply to the skin, which promotes heat loss and causes the skin to become hot and red.
Clinical Relevance: These mechanisms are involved in conditions like shock, hypotension, and tachycardia (stimulated by arterial stretch receptors), as well as hypertension and bradycardia. For more details on pressure regulation, see Blood Pressure→ and Baroreceptors→.
Arterioles regulate blood flow by changing their diameter through vasoconstriction (narrowing) and vasodilation (widening). This process is controlled by the contraction and relaxation of smooth muscles in the tunica media. Hormones and chemical agents play a key role in this regulation.
| Process | Key Agents | Physiological Effect |
|---|---|---|
| Vasoconstriction | Norepinephrine, some prostaglandins | Decreases blood flow, increases blood pressure, conserves heat (cold skin). |
| Vasodilation | Kinins (histamine), most prostaglandins, acetylcholine | Increases blood flow, decreases blood pressure, releases heat (hot, red skin). |
Emotional responses, like fear and rage, can trigger widespread vasodilation via the sympathetic nervous system and hormonal release (epinephrine), preparing the body for a "fight or flight" response.