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Test bank for Stahl's Illustrated Sleep and Wake Disorders by Stahl, Debbi Ann | All chapters (1-3)

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Ace your exams with this complete test bank for Stahl's Illustrated Sleep and Wake Disorders by Stahl & Debbi Ann. Covers all chapters (1–3) including sleep physiology, circadian rhythms, sleep-wake disorders, and pharmacological treatments. Includes multiple choice, true/false, and short-answer questions with detailed answer keys and rationales. Perfect for nursing, medical, and pharmacology students preparing for finals or licensing exams.

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Institution
Sleep And Wake Disorders
Course
Sleep and Wake Disorders

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, CHAPTER LIST


Chapter 1 - Neurobiology and Genetics of Sleep/Wake Disorders


Chapter 2 - Assessment of Sleep/Wake Disorders


Chapter 3 - Treatment of Sleep/Wake Disorders

,Chapter 1: Neurobiology and Genetics of Sleep &
Wake Disorders

Section 1
Question 1 [MCQ – Scenario]

A psychiatry resident evaluates a patient who stays awake for prolonged periods while
studying. As wakefulness continues, the patient becomes progressively sleepier until
sleep finally occurs late in the evening despite attempts to remain alert. Which
mechanism best explains the accumulating pressure that eventually initiates sleep?

A. Light-driven SCN stimulation of hypocretin release
B. Adenosine buildup leading to VLPO disinhibition and GABA/galanin release
C. MT2 receptor activation causing suppression of SCN firing
D. Dopaminergic activation from the VTA increasing cortical arousal

Answer: B

Rationale: The homeostatic sleep drive, or Process S, increases progressively during
wakefulness and depends on adenosine accumulation in the brain. As adenosine builds
up, it contributes to disinhibition of the ventrolateral preoptic area, allowing the VLPO to
release GABA and galanin. These inhibitory neurotransmitters suppress arousal systems
and promote sleep initiation. This explains why the longer a person remains awake, the
stronger the physiological drive toward sleep becomes.



Question 2 [MCQ – Scenario]

A sleep medicine fellow is counselling a shift worker whose sleep is irregular because
night shifts, daytime light exposure, meals, and social routines vary from week to week.
The fellow explains that the patient’s internal clock is self-sustaining but requires daily
resetting to remain aligned with the environment. Which concept best captures this
explanation?

A. Circadian entrainment by zeitgebers
B. PER degradation by proteasomal targeting

,C. Orexin-mediated stabilisation of the flip-flop switch
D. Cholinergic generation of cortical activation

Answer: A

Rationale: Zeitgebers are external time cues that synchronise the circadian clock with
the environment. Although the molecular clock can sustain its own rhythm, it must be
reset daily to avoid drifting away from the external light/dark cycle. Light is the
strongest zeitgeber, acting through the retinohypothalamic tract to reset the SCN, while
eating patterns, drinking patterns, melatonin, and social interactions also contribute.
Disruption of these cues in shift work can produce circadian misalignment and
sleep/wake disorder symptoms.



Question 3 [MCQ – Scenario]

A patient with narcolepsy type 1 reports sudden episodes of muscle weakness triggered
by emotion, brief paralysis around sleep transitions, and vivid perceptual experiences
while falling asleep. Which neurobiological failure most directly explains these sudden
inappropriate transitions into REM-related phenomena?

A. Loss of melatonin synthesis from tryptophan via serotonin
B. Autoimmune destruction of lateral hypothalamic orexin neurons
C. Excessive histaminergic signalling from the tuberomammillary nucleus
D. Accelerated PER phosphorylation by CK1δ and CK1ε

Answer: B

Rationale: Narcolepsy type 1 is caused by autoimmune destruction of orexin/hypocretin
neurons in the lateral hypothalamus. Orexin normally provides tonic excitatory input to
wake-promoting monoaminergic nuclei and stabilises the flip-flop switch between wake
and sleep. When orexin neurons are lost, this switch becomes unstable, allowing sudden
transitions from wakefulness into REM sleep. This produces cataplexy, sleep paralysis,
hypnagogic hallucinations, and fragmented sleep/wake architecture.



Question 4 [MCQ – Recall]

Which brain region is the master circadian pacemaker?

,A. Ventrolateral preoptic area
B. Suprachiasmatic nucleus
C. Tuberomammillary nucleus
D. Ventral tegmental area

Answer: B

Rationale: The suprachiasmatic nucleus, located in the hypothalamus, is the master
circadian pacemaker. It coordinates circadian timing across the organism by
synchronising secondary oscillators distributed throughout the body. These peripheral
oscillators influence metabolism, hormone secretion, and cell division. The SCN’s central
role explains why light input to this nucleus can organise sleep/wake rhythms and
broader physiological timing.



Question 5 [MCQ – Recall]

Which neurotransmitters are released by the VLPO to suppress arousal systems and
initiate sleep?

A. Histamine and dopamine
B. Norepinephrine and serotonin
C. GABA and galanin
D. Orexin A and orexin B

Answer: C

Rationale: The ventrolateral preoptic area promotes sleep by releasing GABA and
galanin. These neurotransmitters inhibit wake-promoting arousal systems, helping shift
the brain from wakefulness into sleep. This mechanism is activated as the homeostatic
sleep drive builds during prolonged wakefulness. It is central to the two-process model
because Process S ultimately promotes sleep through VLPO-mediated inhibition of
arousal circuits.



Question 6 [MCQ – Recall]

Which sleep duration range is associated with optimal health outcomes in the U-shaped
sleep-risk relationship?

,A. 4 to 5 hours per night
B. 5 to 6 hours per night
C. 7 to 8 hours per night
D. More than 9 hours per night

Answer: C

Rationale: The U-shaped relationship between sleep duration and health risk indicates
that both insufficient and excessive sleep are associated with adverse outcomes. Sleep
of less than 7 hours and greater than 9 hours is linked to increased relative risk of
mortality and several medical and psychiatric conditions. Optimal health outcomes are
associated with approximately 7 to 8 hours of sleep per night. This pattern reflects the
importance of balanced sleep regulation rather than simply maximising sleep duration.



Question 7 [MCQ – Recall]

Which receptor is primarily associated with melatonin-mediated phase shifting of the
circadian clock?

A. H1
B. MT1
C. MT2
D. OX1R

Answer: C

Rationale: Melatonin acts on MT1 and MT2 receptors, but these receptors have
different circadian functions. MT1 receptor activation suppresses SCN neuronal firing
and promotes sleep onset. MT2 receptor activation is primarily involved in phase
shifting the circadian clock. This distinction is clinically important because melatonin
functions not only as a sleep-promoting signal but also as a circadian phase signal.



Question 8 [MCQ – Comprehension]

Why does the circadian wake drive help maintain wakefulness during the day despite
increasing homeostatic sleep pressure?

, A. It suppresses adenosine production throughout wakefulness
B. It rises in opposition to Process S and helps counterbalance accumulating sleep
pressure
C. It directly degrades PER proteins to delay sleep onset
D. It inhibits light input from the retinohypothalamic tract

Answer: B

Rationale: The two-process model describes sleep and wakefulness as the interaction
between Process S and Process C. Process S increases with time awake because of
adenosine accumulation, while Process C is the circadian wake drive mediated by the
SCN. During the day, Process C rises and counteracts the growing homeostatic sleep
drive, helping preserve wakefulness. Sleep occurs when homeostatic pressure finally
overcomes circadian wake promotion, typically in the late evening.



Question 9 [MCQ – Comprehension]

In the molecular clock, why does the accumulation of PER and CRY proteins eventually
reduce their own synthesis?

A. PER and CRY activate melatonin secretion, which suppresses CLOCK transcription
B. PER and CRY form a repressor complex that inhibits CLOCK/BMAL1 activity
C. PER and CRY stimulate VIP and GRP release from the SCN core
D. PER and CRY activate orexin neurons to stabilise wakefulness

Answer: B

Rationale: The molecular clock operates through interlocking transcription-translation
feedback loops. CLOCK and BMAL1 form a heterodimer that drives transcription of PER
and CRY genes. As PER and CRY proteins accumulate, they form a repressor complex
that enters the nucleus and inhibits CLOCK/BMAL1 transcriptional activity. This
suppresses their own synthesis and generates the approximately 24-hour oscillation of
the molecular clock.



Question 10 [MCQ – Comprehension]

How does light suppress melatonin release?

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Institution
Sleep and Wake Disorders
Course
Sleep and Wake Disorders

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