Which of the following is a neurotransmitter used by postganglionic fibers of the sympathetic division of the autonomic nervous system?

The autonomic nervous system regulates certain body processes, such as blood pressure and the rate of breathing. This system works automatically (autonomously), without a person’s conscious effort.

Disorders of the autonomic nervous system can affect any body part or process. Autonomic disorders may be reversible or progressive.

The autonomic nervous system Autonomic nervous system is the part of the nervous system that supplies the internal organs, including the blood vessels, stomach, intestine, liver, kidneys, bladder, genitals, lungs, pupils, heart, and sweat, salivary, and digestive glands.

The autonomic nervous system has two main divisions:

  • Sympathetic

  • Parasympathetic

After the autonomic nervous system receives information about the body and external environment, it responds by stimulating body processes, usually through the sympathetic division, or inhibiting them, usually through the parasympathetic division.

The autonomic nervous system controls internal body processes such as the following:

  • Blood pressure

  • Heart and breathing rates

  • Body temperature

  • Digestion

  • Metabolism (thus affecting body weight)

  • The production of body fluids (saliva, sweat, and tears)

  • Urination

  • Defecation

  • Sexual response

Many organs are controlled primarily by either the sympathetic or the parasympathetic division. Sometimes the two divisions have opposite effects on the same organ. For example, the sympathetic division increases blood pressure, and the parasympathetic division decreases it. Overall, the two divisions work together to ensure that the body responds appropriately to different situations.

Autonomic Nervous System

Generally, the sympathetic division does the following:

  • Prepares the body for stressful or emergency situations—fight or flight

Thus, the sympathetic division increases heart rate and the force of heart contractions and widens (dilates) the airways to make breathing easier. It causes the body to release stored energy. Muscular strength is increased. This division also causes palms to sweat, pupils to dilate, and hair to stand on end. It slows body processes that are less important in emergencies, such as digestion and urination.

The parasympathetic division does the following:

  • Controls body process during ordinary situations.

Generally, the parasympathetic division conserves and restores. It slows the heart rate and decreases blood pressure. It stimulates the digestive tract to process food and eliminate wastes. Energy from the processed food is used to restore and build tissues.

Which of the following is a neurotransmitter used by postganglionic fibers of the sympathetic division of the autonomic nervous system?

Two chemical messengers (neurotransmitters) are used to communicate within the autonomic nervous system:

  • Acetylcholine

  • Norepinephrine

Nerve fibers that secrete acetylcholine are called cholinergic fibers. Fibers that secrete norepinephrine are called adrenergic fibers. Generally, acetylcholine has parasympathetic (inhibiting) effects and norepinephrine has sympathetic (stimulating) effects. However, acetylcholine has some sympathetic effects. For example, it sometimes stimulates sweating or makes the hair stand on end.

Autonomic disorders may result from disorders that damage autonomic nerves or parts of the brain that help control body processes, or they may occur on their own, without a clear cause.

Common causes of autonomic disorders are

  • Aging

Other, less common causes include the following:

  • Certain drugs

  • Certain viral infections, including COVID-19

  • Injury to nerves in the neck, including that due to surgery

Autonomic dysfunction that occurs with COVID-19 is still being studied. It can cause orthostatic intolerance and, less commonly, an autonomic neuropathy. Orthostatic intolerance describes dysfunction of the autonomic nervous system that occurs when a person stands up. Symptoms include light-headedness, blurred vision, head pressure, palpitations, tremulousness, nausea, and difficulty breathing. Even loss of consciousness can occur.

People may sweat less or not at all and thus become intolerant of heat. The eyes and mouth may be dry.

The pupils may not dilate and narrow (constrict) as light changes.

  • A doctor's evaluation

  • Tests to determine how blood pressure changes during certain maneuvers

  • Electrocardiography

  • Sweat testing

During the physical examination, doctors can check for signs of autonomic disorders, such as orthostatic hypotension. For example, they measure blood pressure and heart rate while a person is lying down or sitting and after the person stands to check how blood pressure changes when position is changed. When a person stands up, gravity makes it harder for blood from the legs to get back to the heart. Thus, blood pressure decreases. To compensate, the heart pumps harder, and the heart rate increases. However, the changes in heart rate and blood pressure are slight and brief. If the changes are larger or last longer, the person may have orthostatic hypotension.

The tilt table test and the Valsalva maneuver, done together, can help doctors determine whether a decrease in blood pressure is due to an autonomic nervous system disorder.

Doctors examine the pupils for abnormal responses or lack of response to changes in light.

Sweat testing is also done. For one sweat test, the sweat glands are stimulated by electrodes that are filled with acetylcholine and placed on the legs and forearm. Then, the volume of sweat is measured to determine whether sweat production is normal. A slight burning sensation may be felt during the test.

In the thermoregulatory sweat test, a dye is applied to the skin, and a person is placed in a closed, heated compartment to stimulate sweating. Sweat causes the dye to change color. Doctors can then evaluate the pattern of sweat loss, which may help them determine the cause of the autonomic nervous system disorder.

Other tests, including blood tests, may be done to check for disorders that can cause the autonomic disorder.

  • Treatment of the cause if identified

  • Symptom relief

Disorders that may be contributing to the autonomic disorder are treated. If no other disorders are present or if such disorders cannot be treated, the focus is on relieving symptoms.

Simple measures and sometimes drugs can help relieve some symptoms of autonomic disorders:

  • Orthostatic hypotension: People are advised to elevate the head of the bed by about 4 inches (10 centimeters) and to stand up slowly. Wearing a compression or support garment, such as an abdominal binder or compression stockings, may help. Consuming more salt and water helps maintain the volume of blood in the bloodstream and thus blood pressure. Sometimes drugs are used. Fludrocortisone helps maintain blood volume and thus blood pressure. Midodrine helps maintain blood pressure by causing arteries to narrow (constrict). These drugs are taken by mouth.

  • Decreased or absent sweating: If sweating is reduced or absent, avoiding warm environments is useful.

  • Urinary retention: If urinary retention occurs because the bladder cannot contract normally, people can be taught to insert a catheter (a thin rubber tube) through the urethra and into the bladder themselves. The catheter allows the retained urine in the bladder to drain out, thus providing relief. People insert the catheter several times a day and remove it after the bladder is empty. Bethanechol can be used to increase bladder tone and thus help the bladder empty.

  • Constipation: A high-fiber diet and stool softeners are recommended. If constipation persists, enemas may be necessary.

Which of the following is a neurotransmitter used by postganglionic fibers of the sympathetic division of the autonomic nervous system?

What is the postganglionic neurotransmitter of the sympathetic nervous system?

Postganglionic fibers in the sympathetic division are adrenergic and use norepinephrine (also called noradrenalin) as a neurotransmitter.

Which of the following is a neurotransmitter used by the sympathetic nervous system?

The primary neurotransmitter released from sympathetic nerves is norepinephrine, which acts through adrenergic receptors (Felten and Felten, 1988).

What is a postganglionic neurotransmitter?

These neurons regulate activity of most organs of the body by releasing combinations of neurotransmitters. Postganglionic neurotransmitters are released from multiple swellings along the axons, or varicosities, separated from the target cell membrane by gaps of 20–100 nm to form neuroeffector junctions (Fig. 1).

What is the postganglionic neurotransmitter of the parasympathetic system?

Acetylcholine is the primary parasympathetic neurotransmitter, which binds to two receptor subtypes, nicotinic and muscarinic cholinergic receptors, each of which consist of several different subunits that heterodimerize to provide cell and tissue specificity of cholinergic effects.