Unit IX (46-49) - The Nervous System - General Principles

Question 1

What are the two major types of synapses?

Answer 1

Chemical
Electrical

Guyton Ch. 46

Question 2

What are the two components of postsynaptic receptor proteins

Answer 2

Binding component 
Ionophore component (ion channel and second messenger  activator) 

Guyton Ch. 46

Question 3

What is the initial step for excitation of the postsynaptic membrane?

Answer 3

Opening of Na channels

Question 4

What event inhibits the postsynaptic membrane?

Answer 4

Opening of Cl channels

Question 5

Where and how is acetylcholine synthesized?

Answer 5

in presynaptic terminal

1. acetyl coenzyme A + choline (mediated by choline acetyltransferase)
2. stored in vesicles
3. released in the synaptic cleft
4. quickly split by cholinesterase
5. choline is transported back into the terminal to make more acetylcholine

Question 6

Which of the following electrolytes is lowest extracellularly?
A. Cl
B. Na
C. K

Answer 6

C.

Question 7

What is the difference between Type A and Type C nerve fibers?

Answer 7

Type A - large/medium sized myelinated fibers

Type C - small unmyelinated fibers (all postganglionic autonomic fibers) - conducts impulse at low velocities

Question 8

What are two mechanisms to prevent nervous tissue overactivity?

Answer 8

inhibitory circuits - (like a negative feedback loop)

synaptic fatigue - synaptic transmission becomes weaker after prolonged and intense excitation

Question 9

What type of fibers are associated with fast pain?

Answer 9

Adelta fibers

Question 10

What type of fibers are associated with slow pain?

Answer 10

C fibers

Question 11

Which of the following neurotransmitters is usually associated with fast pain in the neospinothalamic tract?
A. Glutamate 
B. Substance P
C. Acetylcholine 
D. GABA

Answer 11

A. glutamate - fast pain (Ad fibers)

Substance P is likely associated with slow pain in the paleospinothalamic tract

Question 12

Which of the following neurotransmitters is usually associated with slow pain in the paleospinothalamic tract?
A. Glutamate 
B. Substance P
C. Acetylcholine 
D. GABA

Answer 12

B. substance P - slow pain (C fibers)

Question 13

What are the different types of neurons involved in function of the spinal cord?

Answer 13

interneurons (in gray matter)
anterior motor neurons
- alpha (innervate large skeletal muscle fibers)
- gamma (innervate small special skeletal m. fibers)

Question 14

What are the two types of muscle spindle intrafusal fibers?

Answer 14

1. nuclear bag muscle fibers
2. nuclear chain fibers
   Primary sensory nerve ending is excited by both but secondary nerve endings are only excited by nuclear chain fibers.

Question 15

What is a mass reflex?

Answer 15

massive discharge in large portions of the spinal cord

can be stimulated by: strong pain stimulus to skin or excessive filling of the gut or bladder

Question 16

what is spinal shock?

Answer 16

when the spinal cord is suddenly transected essentially all for function (including cord reflexes) immediately become depressed.
should return to normal ~a couple to 24 hrs
arterial BP falls due to decreased sympathetic stimulation
stretch reflexes - first to return followed by flexor reflexes and postural antigravity reflexes

Question 17

Explain the pyramidal (corticospinal) tract and its function

Answer 17

leave the cortex
through the brainstem - forming the pyramids of the medulla
majority of fibers cross to the opposite side
descend into lateral corticospinal tracts
terminate on interneurons in intermediate regions of gray matter.
Very few fibers do not cross to the opposite side
ipsilaterally in ventral corticospinal tracts

Question 18

Explain the extrapyramidal (rubrispinal) tract and its function

Answer 18

receives many direct fibers from primary motor cortex through corticorubral tract and branching fibers from the corticospinal tract

crosses to the opposite side of the lower brainstem

Question 19

What does the brain stem control?

Answer 19

respiration
cardiovascular system
partial control of GI function
equilibrium
eye movement

Question 20

What are the parts of the vestibular apparatus?

Answer 20

bony labyrinth
membranous labyrinth
        functional part of the vestibular apparatus
       3 semicircular canals 
       utricle
       saccule

Question 21

What do the utricle and the saccule detect and how?

Answer 21

utricle - horizontal plane
determining orientation of the head when the head is upright

saccule - vertical plane
determines the location of the head when lying down

Question 22

What do the semicircular ducts detect and how?

Answer 22

anterior, posteroir and lateral (horizontal) semicircular ducts
arranged at right angles to one another
in ducts and ampulla - endolymph

flow of endolymph - excites the ampulla

Question 23

How does the vestibular system stabilize the eyes?

Answer 23

each time the head is suddenly rotated: signals from semicircular ducts can cause the eyes to move

transmitted through the vestibular nuclei and the medial longitudinal fasciculus

initially eye movement opposite to rotation (slow phase) then ocular muscles stretched too much –> fast movement to relax ocular muscles with direction of rotation (fast phase) = physiologic nystagmus

Question 24

A lesion to the flocculonodular lobe or caudal cerebellar peduncles results in what syndrome?

Answer 24

paradoxical vestibular

loss of inhibitory influence on vestibular nuclei
- overexcitation on side of lesion
- vestibular signs away from the lesion
head tilt to the opposite side
fast phase of nystagmus towards the lesion
-often CP deficits on the side of the lesion

Question 25

What are the tasks of the cerebellum?

Answer 25

helps sequence motor activities
monitors motor activities
helps plan the next movement

Question 26

What are the functions of the purkinje cells?

Answer 26

inhibit deep nuclear cells
when rapid movement occurs - signal from cerebral motor cortex or brainstem increases deep nuclear cell excitation then inhibitory signals from purkinje cells.

Question 27

What is the putamen circuit?

Answer 27

pathway for executing learned movement patterns
begin in premotor and supplementary area of motor cortex

lesion - parkinson disease, akinesia

Question 28

What is the caudate circuit?

Answer 28

cognitive control of motor function - using a sensory input and info already in memory.

Question 29

What neurotransmitters are important in the basal ganglia?

Answer 29

dopamine (mostly inhibitory)
GABA (always inhibitory)
ACh
norepi, serotonin

Question 30

What are the parts of the basal ganglia?

Answer 30

caudate nucleus
putamen
globus pallidus
substantia nigra
subthalamic nucleus

Question 31

Where do autonomic preganglionic neurons originate?

Answer 31

intermediolateral horn of cord

Question 32

Where do autonomic postganglionic neurons originate?

Answer 32

sympathetic chain ganglion or peripheral sympathetic ganglion

Question 33

What cranial nerves carry parasympathetic fibers from the CNS?

Answer 33

III - pupillary sphincter, cilliary muscle of eye
VII - lacrimal, nasal and submandibular glands
IX - parotid gland
X (75% of fibers)
lowermost part of spinal cord - descending colon, rectum, bladder

Question 34

What are the two types of acetylcholine receptors?

Answer 34

muscarinic

nicotinic

Question 35

Which of the following can decrease neuronal excitability? 
A. Caffeine
B. Theophylline
C. Theobromine
D. Serotonin

Answer 35

D. Serotonin

Question 36

Resting membrane potential of a spinal motor neuron? 
A. -45 mV
B. -65mV 
C. -70 mV
D. -90 mV

Answer 36

B. -65mV

• 45mV - excited neuron
• 70mV - inhibited neuron
• 90mV - RMP of skeletal muscles and peripheral nerves

Question 37

Which system transmits somatosensory information with the highest degree of temporal and spatial fidelity?
A. Anterolateral system
B. Dorsal column-medial lemniscal system
C. Corticospinal system
D. Spinocerebellar system

Answer 37

B. Dorsal column-medial lemniscal system

Temporal and spacial fidelity is enhced in the dorsal column-medial lemniscal system compared with the anterolateral system.
Guyton 13th ed. p 610

Question 38

Slow pain is also referred to as burning, aching, or throbbing pain and can be associated with which of the following?
A. Tissue damage or destruction
B. inactivation of warmth receptors
C. Type Ad sensory fibers
D. Certain encapsulated receptors such as pacinian corpuscles

Answer 38

A. tissue damage

Question 39

The release of neurotransmitter at a chemical synapse in the central nervous system is dependent upon which of the following?
A. Synthesis of acetylcholinesterase
B. Hyperpolerization of the synaptic terminal
C. Opening of ligand-gated ion calcium channels
D. Influx of calcium into the pre-synaptic terminal

Answer 39

D. Influx of calcium into the pre-synaptic terminal

When this influx occurs, synaptic vesicles fuse with the pre-synaptic membrane and release the transmitter agent into the synaptic cleft.
Guyton 13th ed. p 582

Question 40

1. When treating critically ill patients with intravenous fluids, which two ions are most important to the neuronal membrane potential?
   a. Na+ and Cl–
   b. K+ and Cl–
   c. Ca2+ and Cl–
   d. K+ and Ca2+
   e. Na+ and K+

Answer 40

E. Na+ and K+

Cunningham Ch. 4 - The neuron

Question 41

4. During an excitatory postsynaptic potential in a neural membrane, which of the following is the most important ion flow?
   a. Sodium ions diffuse out of the cell.
   b. Sodium ions diffuse into the cell.
   c. Potassium ions diffuse out of the cell.
   d. Potassium ions pumped in by the Na+, K+ pump

Answer 41

B. Sodium ions diffuse into the cell.

Cunningham Ch. 4 - The neuron

Question 42

1. At the neuromuscular junction, Ca2+ ions are necessary for:
   a. Binding the transmitter with the postsynaptic receptor.
   b. Facilitating diffusion of the transmitter to the postsynaptic membrane.
   c. Splitting the transmitter in the cleft, thus deactivating the transmitter.
   d. Fusing the presynaptic vesicle with the presynaptic membrane, thus releasing the transmitter.
   e. Metabolizing the transmitter within the presynaptic vesicle.

Answer 42

B. Facilitating diffusion of the transmitter to the postsynaptic membrane.

Question 43

Which one of the following is true with regard to the termination of synaptic action at the neuromuscular junction?

a. The reuptake of intact acetylcholine molecules into the motor neuron terminal is responsible.
b. Diffusion of acetylcholine away from the synapse is solely responsible.
c. Acetylcholinesterase rapidly breaks down acetylcholine into choline and acetate.
d. Dissociation of acetylcholine from the muscarinic receptor, after binding for several seconds, is solely responsible.

Answer 43

C. Acetylcholinesterase rapidly breaks down acetylcholine

into choline and acetate.

Question 44

4. Several antagonist drugs compete with acetylcholine for the postsynaptic receptor at the neuromuscular junction. If you overdosed your patient with one of these competitive drugs, what would the antidote need to do at the synapse?
   a. Decrease the release of acetylcholine.
   b. Decrease the effectiveness of acetylcholinesterase.
   c. Decrease the influx of Ca2+ into the motor neuron
   terminal.
   d. Decrease the action potential frequency on the motor neuron.
   e. None of the above.

Answer 44

B. Decrease the effectiveness of acetylcholinesterase.