Q. Which motor neurons
activate both intrafusal and extrafusal muscle fibers?
A) α-motor neurons
B) β-motor neurons
C) Renshaw cells
D) Golgi tendon organs
E) γ-motor
neurons
Ans: B)
α-Motor neurons are
located in the anterior horn of the spinal cord and activate extrafusal muscle
fibers responsible for muscle contraction. γ-Motor neurons innervate intrafusal
fibers, which have small axons and control the level of tension on the muscle
spindle to control overall muscle length and tone. β-Motor neurons innervate both
intrafusal and extrafusal muscle fibers. Renshaw cells are found in the ventral
horn and send inhibitory signals to the α-motor neurons. Golgi tendon organs
are located in muscle tendons and send inhibitory signals to α-motor neurons
that have input to extrafusal muscle fibers, which mediate the inverse stretch
reflex.
Q. An injury to the
peroneal nerve affects which muscle?
A) Semimembranosus
B) Semiteninosus
C) Adductor magnus
D) Short head of the
biceps femoris
E)
Long head of the biceps femoris
Ans: D)
The short head of the biceps femoris is the only muscle
above the knee that is innervated by the peroneal nerve. The semimembranosus,
semitendinosus, and long head of the biceps femoris muscles are innervated by
the tibial nerve. The adductor magnus muscle is innervated by the obturator
nerve.
Q. Which
key neurotransmitter is responsible for innervation of sweat glands?
A)
Norepinephrine
B)
Dopamine
C)
Acetylcholine
D)
Serotonin
E) Glutamate
Ans C)
Acetylcholine is
the neurotransmitter found in sweat glands. Serotonin, glutamate, and dopamine
are central nervous system neurotransmitters not involved in direct innervation
of sweat glands.
Q. Which nerve bundle
is involved in postganglionic supply to the parotid gland?
A) Submandibular
ganglion
B) Superior salivatory
nucleus
C) Pterygopalatine
ganglion
D) Otic ganglion
E)
Inferior salivatory nucleus
Ans: D) The
inferior salivatory nucleus projects preganglionic fibers along the
glossopharyngeal nerve to the otic ganglion, which in turn projects
postganglionic fibers to the parotid gland to stimulate saliva production. The
superior salivatory nucleus projects fibers along the facial nerve to the
preganglionic fibers to the pterygopalatine ganglion and submandibular
ganglion. The pterygopalatine ganglion projects postganglionic fibers to the
lacrimal gland and to the mucosa of the nose and palate.
The
submandibular ganglion projects postganglionic fibers to the submandibular and
sublingual glands.
Q. You are
seeing a patient for visual difficulties. On examination, you find that he has a
right lower homonymous quadrantanopsia. Where do you localize the lesion?
A)
Pituitary tumor
B)
Optic radiation in the left temporal lobe
C)
Optic radiation in the left occipital lobe
D)
Optic radiation in the left parietal lobe
E)
Left frontal lobe
Ans: D) A
lesion affecting the optic radiation in the left parietal lobe may result in a
right lower homonymous quandrantanopia. A pituitary tumor will usually result
in a bitemporal hemianopsia. A lesion of the optic radiation in the left
temporal lobe may result in a right upper homonymous quadrantanopia. A lesion
of the optic radiation of the left occipital lobe results in a right homonymous
hemianopsia. The optic radiation does not run through the frontal lobe.
However, the frontal eye field lies in the frontal lobe, and a lesion may cause
a gaze palsy in the direction of the side of the lesion.
Q. Which
first-order receptor cell in the retina is responsible for day vision, color
vision, and high visual acuity?
A)
Rods
B)
Bipolar neurons
C)
Ganglion cells
D)
Amacrine cells
E)
Cones
Ans: E)
Cones operate at high illumination levels and are
responsible for day vision, color vision, and high visual acuity. Rods are
sensitive to low-intensity light and are responsible for night vision. Bipolar
neurons and amacrine cells transmit stimulation from rods and cones to ganglion
cells, which transmit the signals to the hypothalamus, superior colliculus,
pretectal nucleus, and lateral geniculate body.
20. Which
structure is involved in the accommodation pathway but not in the pupillary
reflex?
A) Corticotectal tract
B) Posterior commissure
C) Edinger-Westphal
nucleus
D) Brachium of superior
colliculus
E)
Short ciliary nerve
Ans: A)
The corticotectal tract is involved in relaying signal
from the occipital lobe through the brachium of the superior colliculus to the
accommodation center, which sends a signal to the Edinger-Westphal nucleus or
the oculomotor nucleus to initiate accommodation. All other structures are
involved in both the papillary reflex pathway and accommodation.
A lesion of which hypothalamic
nucleus will most likely result in disruption of the
circadian rhythm?
A) Supraoptic
B) Suprachiasmatic
C) Lateral hypothalamic
nucleus
D) Anterior nucleus
E)
Paraventricular nucleus
Ans: B)
The suprachiasmatic
nucleus receives direct input from the retina and plays a role
in the circadian
rhythm. The supraoptic nucleus synthesizes antidiuretic hormone
and oxytocin.
The lateral hypothalamic region, when stimulated, increases appetite,
and destruction
results in anorexia and starvation. The anterior nucleus takes part in
regulating
temperature, and destruction results in hyperthermia. The paraventricular
nucleus
regulates antidiuretic hormone, and destruction of this nucleus results
in diabetes
insipidus
Which is the only
excitatory neuron in the cerebellar cortex?
A) Purkinje neuron
B) Basket neurons
C) Stellate cell
D) Granule cell
E)
Golgi neuron
Ans: D)
The granule cell is the only excitatory neuron in the
cerebellar cortex that is excitatory and stimulates the purkinje, baset,
stellate, and golgi cells. Stellate and basket neurons inhibit Purkinje
neurons. Golgi neurons inhibit granule cells. Purkinje neurons inhibit neurons
in the cerebellar nuclei
26. Which
artery supplies the head of the caudate nucleus?
A) Middle cerebral
artery
B) Paracentral artery
C) Pericallosal artery
D) Callosomarginal
artery
E)
Recurrent artery of Heubner
Ans: E)
Recurrent artery of Heubner. The recurrent artery of
Heubner is a branch of the anterior cerebral artery that supplies the
anteromedial head of the caudate nucleus.
The pericallosal artery and callosomarginal artery are
also branches of the anterior cerebral artery that supply the corpus callosum.
The paracentral artery is a branch off the callosomarginal artery that supplies
the paracentral lobule (medial part of superior frontal gyrus)
27. Which
of these structures is involved in the auditory system?
A) Superior salivatory
nucleus
B) Inferior salivatory
nucleus
C) Inferior olivary
nucleus
D) Lateral lemniscus
E)
Superior colliculus
Ans: D)
The lateral
lemniscus carries fibers from the superior olivary nucleus to the inferior
colliculus as part of the auditory system. The superior salivatory nucleus projects
preganglionic parasympathetic fibers to the pterygopalatine (to the lacrimal gland)
and submandibular ganglia (to the submandibular gland). The inferior salivatory
nucleus projects preganglionic parasympathetic fibers to the otic ganglion (which
then supplies the parotid gland). The superior colliculus is part of the visual
system. The inferior olivary nucleus is involved in Mollaret’s triangle, and
lesions can contribute to the development of palatal tremor (formerly known as
palatal myoclonus).