Quiz on the spinal cord, spinal nerves, somatic and autonomic nervous divisions of the nervous system. Multiple choice questions with answer highlighted on following slide.
3. WHAT IS THE DIFFERENCE BETWEEN THE
DURA MATER SURROUNDING THE BRAIN
AND THE SPINAL CORD?
a) The dura mater has two layers around the brain and one layer around
the spinal cord
b) The dura mater has one layer around the brain and two layers around
the spinal cord
c) The dura mater is not attached to the skull but is attached to the
vertebrae
d) The dura mater is attached to the skull and is not attached to the
spinal cord
e) If more than one is correct, specify correct answers
4. WHAT IS THE DIFFERENCE BETWEEN THE
DURA MATER SURROUNDING THE BRAIN
AND THE SPINAL CORD?
a) The dura mater has two layers around the brain and one layer around
the spinal cord
b) The dura mater has one layer around the brain and two layers around
the spinal cord
c) The dura mater is not attached to the skull but is attached to the
vertebrae
d) The dura mater is attached to the skull and is not attached to the
vertebrae
e) If more than one is correct, specify correct answers
5. THIS IS THE TIP OF THE SPINAL
CORD:
a) Conus medullaris
b) Filium terminale
c) Denticulate ligaments
d) Cauda equina
6. THIS IS THE TIP OF THE SPINAL
CORD:
a) Conus medullaris
b) Filium terminale
c) Denticulate ligaments
d) Cauda equina
7. THIS IS THE COLLECTION OF NERVE
ROOTS AT THE BASE OF THE SPINAL
CORD:
a) Conus medullaris
b) Filium terminale
c) Denticulate ligaments
d) Cauda equina
8. THIS IS THE COLLECTION OF NERVE
ROOTS AT THE BASE OF THE SPINAL
CORD:
a) Conus medullaris
b) Filium terminale
c) Denticulate ligaments
d) Cauda equina
9. THESE SAW-TOOTHED SHELVES OF PIA
MATER ATTACH THE SPINAL CORD TO THE
DURA MATER:
a) Conus medullaris
b) Filium terminale
c) Denticulate ligaments
d) Cauda equina
10. THESE SAW-TOOTHED SHELVES OF PIA
MATER ATTACH THE SPINAL CORD TO THE
DURA MATER:
a) Conus medullaris
b) Filium terminale
c) Denticulate ligaments
d) Cauda equina
11. THIS FIBROUS EXTENSION ANCHORS
THE SPINAL CORD TO THE COCCYX:
a) Conus medullaris
b) Filium terminale
c) Denticulate ligaments
d) Cauda equina
12. THIS FIBROUS EXTENSION ANCHORS
THE SPINAL CORD TO THE COCCYX:
a) Conus medullaris
b) Filium terminale
c) Denticulate ligaments
d) Cauda equina
13. WHY IS THE SPINAL CORD THICKER AT
THE CERVICAL AND LUMBAR REGIONS?
14. WHY IS THE SPINAL CORD THICKER AT
THE CERVICAL AND LUMBAR REGIONS?
• To accommodate the additional fiber tracts of the spinal
nerves serving the upper and lower limbs.
15. WHAT ARE THE FOUR ZONES OF GRAY
MATTER IN THE SPINAL CORD?
16. WHAT ARE THE FOUR ZONES OF GRAY
MATTER IN THE SPINAL CORD?
• Somatic sensory
• Somatic motor
• Visceral sensory
• Visceral autonomic
17. MATCH THE SPINAL CORD TRACTS
WITH THE NEURAL FIBER:
TRACT
• Ascending
• Descending
• Transverse
NEURAL FIBER
• Motor neurons
• Commisural fibers
• Sensory neurons
18. MATCH THE SPINAL CORD TRACTS
WITH THE NEURAL FIBER:
TRACT
• Ascending
• Descending
• Transverse
NEURAL FIBER
• Motor neurons
• Commisural fibers
• Sensory neurons
19. DAMAGE TO DORSAL ROOTS MAY LEAD TO
LOSS OF ____, AND DAMAGE TO VENTRAL
ROOTS MAY LEAD TO LOSS OF ____.
• Sensation, motor function
• Motor function, sensation
20. DAMAGE TO DORSAL ROOTS MAY LEAD TO
LOSS OF ____, AND DAMAGE TO VENTRAL
ROOTS MAY LEAD TO LOSS OF ____.
• Sensation, motor function
• Motor function, sensation
22. THE FIRST 7 CERVICAL SPINAL NERVES
EXIT THE VERTEBRAL COLUMN BY
PASSING ____ TO THE CORRESPONDING
VERTEBRA?
a) Superiorly
b) Inferiorly
c) Laterally
d) Medially
23. THE FIRST 7 CERVICAL SPINAL NERVES
EXIT THE VERTEBRAL COLUMN BY
PASSING ____ TO THE CORRESPONDING
VERTEBRA?
a) Superiorly
b) Inferiorly
c) Laterally
d) Medially
24. THE SPINAL NERVES FROM C8 DOWN EXIT
THE VERTEBRAL COLUMN BY PASSING
____ TO THE CORRESPONDING
VERTEBRAE?
a) Superiorly
b) Inferiorly
c) Laterally
d) Medially
25. THE SPINAL NERVES FROM C8 DOWN EXIT
THE VERTEBRAL COLUMN BY PASSING
____ TO THE CORRESPONDING
VERTEBRAE?
a) Superiorly
b) Inferiorly
c) Laterally
d) Medially
26. SOMATIC MOTOR NEURONS INNERVATING
SKELETAL MUSCLE ARE FOUND HERE:
a) Dorsal horns
b) Lateral Horns
c) Ventral Horns
27. SOMATIC MOTOR NEURONS INNERVATING
SKELETAL MUSCLE ARE FOUND HERE:
a) Dorsal horns
b) Lateral Horns
c) Ventral Horns
28. SYMPATHETIC NERVOUS SYSTEM MOTOR
NEURONS SERVING VISCERA ARE FOUND
HERE:
a) Dorsal horns
b) Lateral Horns
c) Ventral Horns
29. SYMPATHETIC NERVOUS SYSTEM MOTOR
NEURONS SERVING VISCERA ARE FOUND
HERE:
a) Dorsal horns
b) Lateral Horns
c) Ventral Horns
30. AFFERENT NEURONS ENTERING THE
SPINAL CORD SYNAPSE WITH
INTERNEURONS FOUND HERE:
a) Dorsal horns
b) Lateral Horns
c) Ventral Horns
31. AFFERENT NEURONS ENTERING THE
SPINAL CORD SYNAPSE WITH
INTERNEURONS FOUND HERE:
a) Dorsal horns
b) Lateral Horns
c) Ventral Horns
32. WHAT IS THE DIFFERENCE BETWEEN
DORSAL AND VENTRAL ROOTS?
a) Dorsal roots are motor neurons leaving the spinal cord and ventral
roots are sensory neurons entering the spinal cord
b) Ventral roots are sensory neurons leaving the spinal cord and dorsal
roots are motor neurons entering the spinal cord
c) Dorsal roots are sensory neurons entering the spinal cord and ventral
roots are motor neurons leaving the spinal cord
d) Ventral roots are motor neurons entering the spinal cord and dorsal
roots are sensory neurons leaving the spinal cord
33. WHAT IS THE DIFFERENCE BETWEEN
DORSAL AND VENTRAL ROOTS?
a) Dorsal roots are motor neurons leaving the spinal cord and ventral
roots are sensory neurons entering the spinal cord
b) Ventral roots are sensory neurons leaving the spinal cord and dorsal
roots are motor neurons entering the spinal cord
c) Dorsal roots are sensory neurons entering the spinal cord and ventral
roots are motor neurons leaving the spinal cord
d) Ventral roots are motor neurons entering the spinal cord and dorsal
roots are sensory neurons leaving the spinal cord
34. WHICH IS MADE OF EITHER SENSORY
OR MOTOR FIBERS?
a) Roots
b) Rami
35. WHICH IS MADE OF EITHER SENSORY
OR MOTOR FIBERS?
a) Roots
b) Rami
36. WHICH IS MADE OF BOTH SENSORY
AND MOTOR FIBERS?
a) Roots
b) Rami
37. WHICH IS MADE OF BOTH SENSORY
AND MOTOR FIBERS?
a) Roots
b) Rami
40. THESE STRUCTURES SUPPLY THE
ANTERIOR BODY & TRUNK AND THE
LIMBS:
a) Dorsal Rami
b) Ventral Rami
41. THESE STRUCTURES SUPPLY THE
ANTERIOR BODY & TRUNK AND THE
LIMBS:
a) Dorsal Rami
b) Ventral Rami
42. THESE STRUCTURES BRANCH AND JOIN
ONE ANOTHER LATERAL TO THE SPINAL
CORD TO FORM NERVE PLEXUSES:
a) Dorsal Rami
b) Ventral Rami
c) Dorsal Roots
d) Ventral Roots
43. THESE STRUCTURES BRANCH AND JOIN
ONE ANOTHER LATERAL TO THE SPINAL
CORD TO FORM NERVE PLEXUSES:
a) Dorsal Rami
b) Ventral Rami
c) Dorsal Roots
d) Ventral Roots
45. THIS IS THE ABILITY TO DIFFERENTIATE INDIVIDUAL
QUALITIES OF A SENSATION, SUCH AS FLAVORS
WITHIN A TASTE:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
46. THIS IS THE ABILITY TO DIFFERENTIATE INDIVIDUAL
QUALITIES OF A SENSATION, SUCH AS FLAVORS
WITHIN A TASTE:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
47. THIS IS THE ABILITY TO IDENTIFY COMPLEX
ASPECTS OF A SENSATION BY COMBINING INPUT
FROM SEVERAL NEURONS:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
48. THIS IS THE ABILITY TO IDENTIFY COMPLEX
ASPECTS OF A SENSATION BY COMBINING INPUT
FROM SEVERAL NEURONS:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
49. THIS IS THE ABILITY TO DETECT THE
INTENSITY OF STIMULI:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
50. THIS IS THE ABILITY TO DETECT THE
INTENSITY OF STIMULI:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
51. THIS IS THE ABILITY TO DETECT THAT A
SENSATION HAS OCCURED:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
52. THIS IS THE ABILITY TO DETECT THAT A
SENSATION HAS OCCURED:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
53. THIS IS THE ABILITY TO IDENTIFY THE
SITE OR PATTERN OF STIMULATION:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
54. THIS IS THE ABILITY TO IDENTIFY THE
SITE OR PATTERN OF STIMULATION:
a) Perceptual detection
b) Magnitude estimation
c) Spatial discrimination
d) Feature abstraction
e) Quality discrimination
55. WHICH OF THE FOLLOWING STIMULI
DO PAIN RECEPTORS RESPOND TO?
a) Extreme pressure
b) Histamine
c) Potassium
d) Bradykinin
e) ATP
f) Extreme temperatures
g) All of these
56. WHICH OF THE FOLLOWING STIMULI
DO PAIN RECEPTORS RESPOND TO?
a) Extreme pressure
b) Histamine
c) Potassium
d) Bradykinin
e) ATP
f) Extreme temperatures
g) All of these
69. IN WHICH OF THE FOLLOWING LOCATIONS
WOULD YOU FIND ALPHA 1 RECEPTORS?
a) Heart
b) Bronchi
c) Blood Vessels
d) GI tract
e) Arterioles of heart, lungs, skeletal muscles
f) More than one of these
70. IN WHICH OF THE FOLLOWING LOCATIONS
WOULD YOU FIND ALPHA 1 RECEPTORS?
a) Heart
b) Bronchi
c) Blood Vessels
d) GI tract
e) Arterioles of heart, lungs, skeletal muscles
f) More than one of these
71. IN WHICH OF THE FOLLOWING LOCATIONS
WOULD YOU FIND BETA 1 RECEPTORS?
a) Heart
b) Bronchi
c) Blood Vessels
d) GI tract
e) Arterioles of heart, lungs, skeletal muscles
f) More than one of these
72. IN WHICH OF THE FOLLOWING LOCATIONS
WOULD YOU FIND BETA 1 RECEPTORS?
a) Heart
b) Bronchi
c) Blood Vessels
d) GI tract
e) Arterioles of heart, lungs, skeletal muscles
f) More than one of these
73. IN WHICH OF THE FOLLOWING LOCATIONS
WOULD YOU FIND ALPHA 2 RECEPTORS?
a) Heart
b) Bronchi
c) Blood Vessels
d) Pancreas
74. IN WHICH OF THE FOLLOWING LOCATIONS
WOULD YOU FIND ALPHA 2 RECEPTORS?
a) Heart
b) Bronchi
c) Blood Vessels
d) Pancreas
75. IN WHICH OF THE FOLLOWING LOCATIONS
WOULD YOU FIND BETA 2 RECEPTORS?
a) Heart
b) Bronchi
c) Blood Vessels
d) GI tract
e) Arterioles of heart, lungs, skeletal muscles
f) More than one of these
76. IN WHICH OF THE FOLLOWING LOCATIONS
WOULD YOU FIND BETA 2 RECEPTORS?
a) Heart
b) Bronchi
c) Blood Vessels
d) GI tract
e) Arterioles of heart, lungs, skeletal muscles
f) More than one of these
77. WHAT IS THE PRIMARY EFFECT WHEN
BETA 2 RECEPTORS ARE STIMULATED?
a) Dilation
b) Constriction
78. WHAT IS THE PRIMARY EFFECT WHEN
BETA 2 RECEPTORS ARE STIMULATED?
a) Dilation
b) Constriction
79. HOW DOES THE HEART RESPOND WHEN
BETA 1 RECEPTORS ARE STIMULATED?
a) The heart rate increases
b) The heart rate decreases
c) The force of contraction increases
d) The force of contraction decreases
e) More than one of these
80. HOW DOES THE HEART RESPOND WHEN
BETA 1 RECEPTORS ARE STIMULATED?
a) The heart rate increases
b) The heart rate decreases
c) The force of contraction increases
d) The force of contraction decreases
e) More than one of these
81. ALPHA 1 RECEPTORS PRIMARILY
CAUSE:
a) Smooth muscle contraction
b) Vasoconstriction
c) Increase in cardiac output
d) Bronchodilation
82. ALPHA 1 RECEPTORS PRIMARILY
CAUSE:
a) Smooth muscle contraction
b) Vasoconstriction
c) Increase in cardiac output
d) Bronchodilation
83. BETA 1 RECEPTORS PRIMARILY
CAUSE:
a) Smooth muscle contraction
b) Vasoconstriction
c) Increase in cardiac output
d) Bronchodilation
84. BETA 1 RECEPTORS PRIMARILY
CAUSE:
a) Smooth muscle contraction
b) Vasoconstriction
c) Increase in cardiac output
d) Bronchodilation
85. BETA 2 RECEPTORS CAUSE WHICH OF
THE FOLLOWING:
a) Smooth muscle contraction
b) Vasoconstriction
c) Increase in cardiac output
d) Bronchodilation
86. BETA 2 RECEPTORS CAUSE WHICH OF
THE FOLLOWING:
a) Smooth muscle contraction
b) Vasoconstriction
c) Increase in cardiac output
d) Bronchodilation
87. WHAT HAPPENS IN THE BRONCHI WHEN
BETA 2 RECEPTORS ARE STIMULATED?
a) The respiratory rate increases
b) The respiratory rate decreases
c) The bronchi dilate
d) The bronchi constrict
e) More than one of these
88. WHAT HAPPENS IN THE BRONCHI WHEN
BETA 2 RECEPTORS ARE STIMULATED?
a) The respiratory rate increases
b) The respiratory rate decreases
c) The bronchi dilate
d) The bronchi constrict
e) More than one of these
89. HOW DO CUTANEOUS BLOOD VESSELS
REACT WHEN ALPHA 1 RECEPTORS ARE
STIMULATED?
a) Vessels dilate, causing an increase in blood pressure
b) Vessels constrict, causing a decrease in blood pressure
c) Vessels dilate, causing a decrease in blood pressure
d) Vessels constrict, causing an increase in blood pressure
90. HOW DO CUTANEOUS BLOOD VESSELS
REACT WHEN ALPHA 1 RECEPTORS ARE
STIMULATED?
a) Vessels dilate, causing an increase in blood pressure
b) Vessels constrict, causing a decrease in blood pressure
c) Vessels dilate, causing a decrease in blood pressure
d) Vessels constrict, causing an increase in blood pressure
92. SYNAPSES THAT USE EPINEPHRINE
AND NOREPINEPHRINE ARE TERMED:
a) Cholinergic
b) Adrenergic
c) Sympathetic
d) Parasympathetic
93. SYNAPSES THAT USE EPINEPHRINE
AND NOREPINEPHRINE ARE TERMED:
a) Cholinergic
b) Adrenergic
c) Sympathetic
d) Parasympathetic
94. SYNAPSES THAT USE ACETYLCHOLINE
ARE TERMED:
a) Cholinergic
b) Adrenergic
c) Sympathetic
d) Parasympathetic
95. SYNAPSES THAT USE ACETYLCHOLINE
ARE TERMED:
a) Cholinergic
b) Adrenergic
c) Sympathetic
d) Parasympathetic
96. WHICH OF THE FOLLOWING SYNAPSES
WOULD USE NOREPINEPHRINE:
a) Sympathetic synapses in the heart, lungs, and blood vessels
b) Sympathetic synapses at the adrenal medulla
c) Sympathetic synapses in the skeletal muscles
97. WHICH OF THE FOLLOWING SYNAPSES
WOULD USE NOREPINEPHRINE:
a) Sympathetic synapses in the heart, lungs, and blood vessels
b) Sympathetic synapses at the adrenal medulla
c) Sympathetic synapses in the skeletal muscles
98. WHICH NEUROTRANSMITTER IS
RELEASED BY THE PREGANGLIONIC
NEURON IN A MOTOR PATHWAY:
a) Epinephrine
b) Norepinephrine
c) Acetylcholine
d) ATP
99. WHICH NEUROTRANSMITTER IS
RELEASED BY THE PREGANGLIONIC
NEURON IN A MOTOR PATHWAY:
a) Epinephrine
b) Norepinephrine
c) Acetylcholine
d) ATP
104. WHAT IS THE EFFECT OF ACETYLCHOLINE
BINDING TO NICOTINIC RECEPTORS?
a) Excitatory
b) Inhibitory
c) Either, depending on location
105. WHAT IS THE EFFECT OF ACETYLCHOLINE
BINDING TO NICOTINIC RECEPTORS?
a) Excitatory
b) Inhibitory
c) Either, depending on location
106. WHAT IS THE EFFECT OF ACETYLCHOLINE
BINDING TO MUSCARINIC RECEPTORS?
a) Excitatory
b) Inhibitory
c) Either, depending on location
107. WHAT IS THE EFFECT OF ACETYLCHOLINE
BINDING TO MUSCARINIC RECEPTORS?
a) Excitatory
b) Inhibitory
c) Either, depending on location
108. ACETYLCHOLINE IS USED AT WHICH
OF THE FOLLOWING SYNAPSES?
a) Skeletal muscle synapses
b) Sympathetic nervous system synapses at the adrenal medulla, arrector
pili, and eccrine glands
c) Post-ganglionic parasympathetic synapses
d) Autonomic pre-ganglionic synapses
e) All of the above
109. ACETYLCHOLINE IS USED AT WHICH
OF THE FOLLOWING SYNAPSES?
a) Skeletal muscle synapses
b) Sympathetic nervous system synapses at the adrenal medulla, arrector
pili, and eccrine glands
c) Post-ganglionic parasympathetic synapses
d) Autonomic pre-ganglionic synapses
e) All of the above
111. BETA BLOCKERS HAVE WHICH OF THE
FOLLOWING ACTIONS:
a) Inhibit sympathetic nervous system
b) Inhibit parasympathetic nervous system
c) Simulate the effects of the sympathetic nervous system
d) Increase sympathetic nervous system effects
112. BETA BLOCKERS HAVE WHICH OF THE
FOLLOWING ACTIONS:
a) Inhibit sympathetic nervous system
b) Inhibit parasympathetic nervous system
c) Simulate the effects of the sympathetic nervous system
d) Increase sympathetic nervous system effects
113. PSEUDOEPHEDRINE HAS WHICH OF
THE FOLLOWING ACTIONS:
a) Inhibit sympathetic nervous system
b) Inhibit parasympathetic nervous system
c) Simulate the effects of the sympathetic nervous system
d) Increase sympathetic nervous system effects
114. PSEUDOEPHEDRINE HAS WHICH OF
THE FOLLOWING ACTIONS:
a) Inhibit sympathetic nervous system
b) Inhibit parasympathetic nervous system
c) Simulate the effects of the sympathetic nervous system
d) Increase sympathetic nervous system effects
115. MONOAMINEOXIDASE INHIBITORS HAVE
WHICH OF THE FOLLOWING ACTIONS:
a) Inhibit sympathetic nervous system
b) Inhibit parasympathetic nervous system
c) Simulate the effects of the sympathetic nervous system
d) Increase sympathetic nervous system effects
116. MONOAMINEOXIDASE INHIBITORS HAVE
WHICH OF THE FOLLOWING ACTIONS:
a) Inhibit sympathetic nervous system
b) Inhibit parasympathetic nervous system
c) Simulate the effects of the sympathetic nervous system
d) Increase sympathetic nervous system effects
117. ATROPINE HAS WHICH OF THE
FOLLOWING ACTIONS:
a) Inhibit sympathetic nervous system
b) Inhibit parasympathetic nervous system
c) Simulate the effects of the sympathetic nervous system
d) Increase sympathetic nervous system effects
118. ATROPINE HAS WHICH OF THE
FOLLOWING ACTIONS:
a) Inhibit sympathetic nervous system
b) Inhibit parasympathetic nervous system
c) Simulate the effects of the sympathetic nervous system
d) Increase sympathetic nervous system effects
119. WHICH OF THE FOLLOWING INHIBITS
ACETYLCHOLINESTERASE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
120. WHICH OF THE FOLLOWING INHIBITS
ACETYLCHOLINESTERASE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
121. WHICH OF THE FOLLOWING ACTS ON
ALPHA 1 AND BETA 2 RECEPTORS?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
122. WHICH OF THE FOLLOWING ACTS ON
ALPHA 1 AND BETA 2 RECEPTORS?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
123. WHICH OF THE FOLLOWING IS A
COMPETITIVE ANTAGONIST OF
EPINEPHRINE & NOREPINEPHRINE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
124. WHICH OF THE FOLLOWING IS A
COMPETITIVE ANTAGONIST OF
EPINEPHRINE & NOREPINEPHRINE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
125. WHICH OF THE FOLLOWING INHIBITS
ACETYLCHOLINE AT MUSCARINIC
RECEPTORS IN CARDIAC MUSCLE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
126. WHICH OF THE FOLLOWING INHIBITS
ACETYLCHOLINE AT MUSCARINIC
RECEPTORS IN CARDIAC MUSCLE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
127. WHICH OF THE FOLLOWING INHIBITS THE
PARASYMPATHETIC NERVOUS SYSTEM?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
128. WHICH OF THE FOLLOWING INHIBITS THE
PARASYMPATHETIC NERVOUS SYSTEM?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
129. WHICH OF THE FOLLOWING WOULD
INCREASE EXCITATORY STIMULI AT
NICOTINIC RECEPTORS IN THE SNS AND
PNS?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
130. WHICH OF THE FOLLOWING WOULD
INCREASE EXCITATORY STIMULI AT
NICOTINIC RECEPTORS IN THE SNS AND
PNS?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
131. WHICH OF THE FOLLOWING CAUSES
BRONCHODILATION & A DECREASE IN
CAPILLARY PERMEABILITY ?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
132. WHICH OF THE FOLLOWING WOULD
CAUSE A DECREASE IN CAPILLARY
PERMEABILITY?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
133. WHICH OF THE FOLLOWING IS USED
TO TREAT MYASTHENIA GRAVIS?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
134. WHICH OF THE FOLLOWING IS USED
TO TREAT MYASTHENIA GRAVIS?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
135. WHICH OF THE FOLLOWING CAUSES
VASODILATION AND DECREASED
CARDIAC PRELOAD?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
136. WHICH OF THE FOLLOWING CAUSES
VASODILATION AND DECREASED
CARDIAC PRELOAD?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
137. WHICH OF THE FOLLOWING CAN
CAUSE AN INCREASE IN BLOOD
PRESSURE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
138. WHICH OF THE FOLLOWING CAN
CAUSE AN INCREASE IN BLOOD
PRESSURE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
139. WHICH OF THE FOLLOWING CAN
CAUSE A DECREASE IN BLOOD
PRESSURE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine
140. WHICH OF THE FOLLOWING CAN
CAUSE A DECREASE IN BLOOD
PRESSURE?
a) Pseudoephedrine/decongestants
b) MAOIs
c) Beta Blockers
d) Neostigmine/physostigmine
e) Atropine