All Human Anatomy and Physiology Resources
Example Questions
Example Question #33 : General Neuron Physiology
What is the main effect of melatonin on the body?
Controls cortisol release
Assists digestion
Controls metabolism of glucose
Controls the circadian rhythm
Controls the circadian rhythm
Melatonin is the hormone secreted by the pineal gland, it controls the circardian rhythm and is responsible for feeling sleepy. Corticotropin, released by the adrenal cortex is associated with cortisol release. Insulin is the most notable hormone associated with glucose metabolism and is released by the pancreas. Gastrin, cholecystokinin, and secretin assist digestion.
Example Question #1 : Peripheral Nervous System
Which of the following is a feature of the sympathetic nervous system?
Sympathetic stimulation causes dilation of blood vessels in the skin of the back and limbs
Some sympathetic fibers pass through the paravertebral ganglia of the sympathetic trunk; other sympathetic fibers synapse there
Sympathetic fibers exit the spinal cord by dorsal roots of spinal nerves
Some sympathetic fibers leave the central nervous system (CNS) by specific cranial nerves
Some sympathetic fibers pass through the paravertebral ganglia of the sympathetic trunk; other sympathetic fibers synapse there
The sympathetic nervous system is one of two divisions of the autonomic nervous system; it is responsible for the "fight or flight" response and is involved in homeostasis. Some sympathetic fibers pass through the paravertebral ganglia of the sympathetic trunk, while other sympathetic fibers synapse there.
Parasympathetic nerves are associated with cranial nerves, and the dilation of blood vessels in skin of the back and limbs (the sympathetic system constricts these vessels). Preganglionic neurons originate in the thoracolumbar region of the spinal cord (T2 to L1) then travel to a paravertebral ganglion or prevertebral ganglion, where they synapse with a postganglionic neruon. The paravertebral ganglion are found throughout the length of the spinal cord, including the cervical, thoracic, lumbar, and sacral areas.
Example Question #201 : Systems Physiology
Which group of neurons releases the neurotransmitters epinephrine and norepinephrine?
Preganglionic neurons in the sympathetic nervous system
Postganglionic neurons in the parasympathetic nervous system
None of these secrete epinephrine or norepinephrine
Preganglionic neurons in the parasympathetic nervous system
Postganglionic neurons in the sympathetic nervous system
Postganglionic neurons in the sympathetic nervous system
The sympathetic nervous system is typically associated with "fight or flight" responses in the body. When you think of stressful situations, it helps to think of adrenaline (or epinephrine) being used by the body. The postganglionic neurons of the sympathetic nervous system will release the neurotransmitter epinephrine or norepinephrine, which will then attach to adrenergic receptors on the effector organ to initiate the sympathetic action.
The neurons of the parasympathetic nervous system and the preganglionic neurons of the sympathetic nervous system use acetylcholine.
Example Question #1 : Peripheral Nervous System
What is the primary neurotransmitter in sympathetic postganglionic neurons?
Glycine
Norepinephrine
Acetylcholine
GABA
Dopamine
Norepinephrine
Norepinephrine is the neurotransmitter that is released by the postganglionic neuron, and stimulates sympathetic responses in effectors. Acetylcholine is the primary neurotransmitter in post ganglionic neurons in the parasympathetic nervous system. Dopamine, GABA, and glycine are other transmitters used by the nervous system, but are not the primary neurotransmitter of the postganglionic sympathetic neurons.
Example Question #4 : Peripheral Nervous System
Which of the following is true when moving from the transverse colon to the descending colon?
Parasympathetic innervation changes from pelvic splanchnics to vagus innervation
Blood supply changes from superior mesenteric artery to the celiac trunk
Sympathetic innervation changes from the thoracic splanchnics to lumbar splanchnics
Venous drainage changes from draining to the portal system to draining to the inferior vena cava
Sympathetic innervation changes from the thoracic splanchnics to lumbar splanchnics
As one moves from the transverse colon to the descending colon, the sympathetic innervation changes from the thoracic splanchnics to the lumbar splanchnics.
Pelvic splanchnic nerves provide parasympathetic innervation of pelvic and genital organs, including the distal third of the transverse colon, the descending colon, the sigmoid colon, and the rectum rectum. The proximal two thirds of the transverse colon, and the rest of the proximal gastrointestinal tract receives parasympathetic innervation from the vagus nerve.
The superior mesenteric, inferior mesenteric, and iliac arteries provide blood supply for the large intestine. The celiac trunk does not provide blood supply to the large intestine. Branches of the superior mesenteric artery mainly perfuse the transverse colon, while branches of the inferior mesenteric artery mainly perfuse the descending colon. Venous drainage mirrors colonic arterial supply, with both the superior and inferior mesenteric veins joining the hepatic portal vein.
Example Question #1 : Peripheral Nervous System
How is the parasympathetic branch of the autonomic nervous system organized?
Short preganglionic fiber, short postganglionic fiber
Long preganglionic fiber, long postganglionic fiber
Long preganglionic fiber, short postganglionic fiber
Short preganglionic fiber, long postganglionic fiber
Long preganglionic fiber, short postganglionic fiber
Cell bodies of preganglionic neurons are located in the central nervous system (CNS); they synapse onto autonomic ganglia. Parasympathetic ganglia are located in or near the effector organs giving them long preganglionic fibers and short postganglionic fiber. Sympathetic ganglia are located in the paravertebral chain, thus they have short preganglionic fibers and long postganglionic fibers.
Example Question #2 : Peripheral Nervous System
What neurotransmitter is used by the preganglionic and postganglionic neurons of the parasympathetic nervous system, respectively?
preganglionic uses acetylcholine; postganglionic uses acetylcholine
preganglionic uses serotonin; postganglionic uses acetylcholine.
The parasympathetic system only has a preganglionic neuron, which uses acetylcholine as its neurotransmitter.
preganglionic uses norepinephrine; postganglionic uses norepinephrine.
preganglionic uses norepinephrine; postganglionic uses acetylcholine
preganglionic uses acetylcholine; postganglionic uses acetylcholine
The parasympathetic nervous system acts oppositely to the sympathetic nervous system, by signaling the activation of relaxation and digestion (increased blood flow to digestive system, pupil constriction, lower heart rate and blood pressure). The parasympathetic nervous system signal is transmitted to the body through a preganglionic neuron and a postganglionic neuron. Both of these use acetylcholine in the parasympathetic nervous system.
Example Question #202 : Systems Physiology
Which of the following statements is true concerning the autonomic nervous system?
Both the sympathetic and parasympathetic divisions use epinephrine
Only the parasympathetic division has signals originating from the spinal cord
The autonomic nervous system is voluntarily controlled
The cranial nerves are considered part of the autonomic nervous system
Parasympathetic postganglionic neurons are found closer to the effector than sympathetic postganglionic neurons
Parasympathetic postganglionic neurons are found closer to the effector than sympathetic postganglionic neurons
The autonomic nervous system can be divided into the sympathetic and parasympathetic nervous systems. Although both divisions have target organs and tissues, the parasympathetic postganglionic neurons are usually much closer to the effector organ than sympathetic postganglionic neurons.
The autonomic nervous system is under involuntary control, while the somatic nervous system is under voluntary control. Only sympathetic postganglionic neurons use epinephrine; most autonomic neurons use acetylcholine. Both divisions include neurons that originate from the spinal cord. The cranial nerves have both sensory and motor functions, meaning that they can be involved in either somatic or autonomic innervation.
Example Question #1 : Peripheral Nervous System
Which cranial nerves are part of the visceral efferent parasympathetic in the peripheral nervous system (PNS)?
III, VII, IX, and XI
III, VII, VIII, and IX
VII, IX, and X
VII and IX
III, VII, IX, and X
III, VII, IX, and X
The cranial nerves that are part of the visceral efferent parasympathetic in the PNS are III, VII, IX, and X. Cranial nerve III (oculomotor) travels to the ciliary ganglion and supplies the pupil of the eye for constriction. Cranial nerve VII (facial) travels to the pterygomandibular and submandibular ganglion and supplies the lacrimal and salivary glands. Cranial nerve IX (glossopharyngeal) travels to the otic ganglion and supplies the Parotid gland. Lastly, cranial nerve X (vagus) travels to the Prevertebral plexus and thoracic plexus in order to supply the gut, heart, and enteric system.
Example Question #2 : Parasympathetic Nervous System
Atropine is a molecule that is an antagonist to muscarinic cholinergic receptors. Based on your knowledge of autonomic nervous system physiology, how would you expect the pupils to respond to topical administration of atropine?
You will observe mydriasis (pupil dilation)
You will observe miosis (pupil constriction)
There will be no change in pupil size because the pupils do not have muscarinic receptors
The iris sphincter muscles would experience a contracted paralysis
The iris sphincter muscles would experience a relaxed paralysis
You will observe mydriasis (pupil dilation)
The pupillary sphincter muscles contain muscarinic cholinergic receptors that help the eyes to respond to parasympathetic tone. When this parasympathetic signal is blocked (antagonized) via atropine, you will observe a "sympathetic response" at the level of the pupil. In this scenario, you would observe the sympathetic response of pupil dilation. Hint: "aTROP'ine" and "seeing a TROPical setting" both cause your pupils to dilate nice and wide!
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