Drugs Used in Anxiety Disorders Management PDF

Summary

This document provides information on drugs used to manage anxiety disorders and insomnia. It covers aspects of sleep physiology, neurotransmitters, and treatment methods. The document is likely an educational resource.

Full Transcript

Drugs used in the management
of anxiety disorders & Insomnia
PGY 4110/3320
What is sleep?

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 A condition of body and mind that typically recurs for several hours
every night, in which the eyes are closed, the postural muscles relaxed,
the activity of the brain altered, and consciousness of the surroundings
practically suspended:

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SLEEP ARCHITECTURE
Physiology of Sleep
A. Non-rapid eye movement (NREM) sleep- Approximately 75% of total
sleep.
1. Stage N l:
Transition state between wakefulness that is characterized by:
a. A low voltage, fast frequency electroencephalogram (EEG)
b. High muscle tone
c. Eye movements of various types
d. Unequivocal sleep (i.e., low voltage, mixed frequency EEG, decreasing muscle tone,
and slow rolling eye movements) that is subjectively experienced by most
individuals as drowsiness. Initiation of sleep occurs over 15-30 minutes.

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2. Stage N2:
Characterized by:
a. Sleep spindles and K-complexes (function uncertain).
b. A lighter alpha-wave sleep that makes up approximately half of total
sleep time (TST).
3. Stages N3: (i.e., delta sleep or slow-wave sleep)
characterized by:
High voltage, slow (i.e., delta) waves.
Often considered the most restorative sleep during which there appears to be
protein synthesis, wound healing, and restoration of immune function.

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B. Rapid eye movement (REM) sleep
Takes place approximately every 90 minutes, and occurs 4 to 5 times per night
Approximately 25% of total sleep (function uncertain)
Characterized by:
a. A low voltage, mixed frequency EEG similar to Stage N l, but with some
unique waveforms (e.g., saw tooth waves).
b. The lowest muscle tone of the night (i.e., substantial inhibition of muscle
tone).
c. Bursts of bilaterally conjugate eye movements occur.
Associated with dreaming- 80-90% of awakenings during REM result
in classic dream reports.
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C. Physiologic Events
1. Autonomic activity
a. NREM - Heart and respiratory rates are generally slow and regular
b. REM -Heart rate, respiratory rate, and blood pressure are irregular,
with rapid fluctuations
2. Nocturnal erections - Occur during REM sleep in males
3. Temperature - Poikilothermic (i.e., cold-blooded) in REM sleep and
lowest in the early morning.

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4. Neuroendocrine activity
a. Cortisol concentrations are the lowest at sleep onset
b. Growth hormone is released during delta sleep
c. Melatonin secretion increases during sleep and is suppressed by bright light

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INSOMNIA
A. Primary complaint of unsatisfying sleep quantity or quality, with
presence of one or more of the following symptoms:
1. Difficulty with sleep initiation
2. Difficulty with sleep maintenance
3. Early-morning awakening
B. The sleep complaint is associated with social, occupational,
academic, educational, behavioral, or functional distress or impairment
C. Sleep complaint takes place at least 3 nights per week and has been
present for at least 3 month

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D. Sleep difficulties happen even with ample opportunity to sleep

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Etiology/Risk Factors
A. Gender - 55-60% of patients are female and the ratio may be as
high as 2: 1
B. Age
Insomnia is more common in the elderly who most often complain of
awakening in the middle of the night and the early morning.
Young adults are more likely to have difficulty initiating sleep.
C. Situational stress (e.g., work, finances, major life events,
interpersonal conflicts).
D. Environmental (e.g. noise, light, extremes of temperature, high
altitude)
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E. Poor sleep hygiene
F. Psychiatric and general medical conditions - an estimated 40-50% of
persons with chronic insomnia have a comorbid psychiatric illness,
most commonly depression or anxiety.
Approximately 80% of patients with major depression have insomnia.
G. Substances, herbals, and medications
Alcohol may have an initial sedative effect but it increases the number of
awakenings, lessens overall TST and quality of sleep, and can result in next
day somnolence

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 During the first portion of the night, alcohol increases non-REM sleep and
decreases REM sleep.
Alcohol is rapidly metabolized and is generally out of the system by the
middle of the night.
During the second half of the night patients experience more awakenings,
withdrawal symptoms, and REM rebound causing nightmares, sweating, or
vivid dreams.
Alcohol may cause snoring and apneas in patients without a history of OSA
(Obstructive sleep apnea )
Changes in sleep architecture can persist despite abstinence in those with a
history of alcoholism

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H. Unemployment and lower socioeconomic status

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Genetics
Genetics have not been determined for insomnia, but mutations have been identified in several sleep
disorders

A. Fatal Familial Insomnia- an extremely rare autosomal dominant
genetic disorder.
Missense mutation of GAC (Asp) to AAC (Asn) on codon 178 of the prion
protein (PRNP) gene on chromosome 20 pter-p 12 where position 129 amino
acid is methionine.
A mutation at codon 200 has also been identified
Met 129 homozygosity polymorphism is usually associated with severe
insomnia and a clinical course of less than 1 year
Met/Val129 heterozygosity polymorphism is associated with a '' pseudo
hypersomnia" with night hallucinations and a course greater than 2 years.

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B. Advanced Sleep-Phase Syndrome is associated with a single gene
mutation on the period 2 gene located on 2q37.3

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Pathophysiology
Anatomical Structures
A. Suprachiasmatic nucleus (SCN) - ''the master biological clock“
1. Located in the hypothalamus and controls circadian rhythms
2. Circadian Process - light/dark cycle affects the SCN
a. During light, melatonin release is suppressed
b. Darkness results in production and secretion of melatonin from the pineal
gland, with attenuation of the SCN' s alerting signal

B. Pineal gland - secretes melatonin that is released when it is dark
outside prompting drowsiness and regulates the sleep wake cycle

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Pathophysiology cont.
Neurotransmitters
A. Sleep promoting neurotransmitters
1. Gamma-aminobutyric acid (GABA)- Main inhibitory
neurotransmitter
2. Adenosine - May inhibit wake promoting neurons
3. Melatonin- Regulates circadian rhythm.

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B. Wake promoting neurotransmitters
1. Norepinephrine (NE)- The cessation of NE activity is associated
with the loss of muscle tone experienced during sleep.
2. Acetylcholine (Ach)/cholinergic neurons are located in the basal
forebrain and promote arousal and REM sleep
3. Histamine promotes/maintains wakefulness. Cessation of histamine
activity is associated with the loss of consciousness during sleep.
4. Serotonin (5-HT)- high levels promote wakefulness; 5HT2A
stimulation causes insomnia.

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5. Dopamine (DA)- Promotes alertness
6. Orexin (OX) or hypocretin- Promotes wakefulness, suppresses REM
and NREM sleep.
C. Histamine, 5-HT, and NE levels are thought to be reduced/inactive
during REM sleep.

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Treatment Guidelines
A. Non-pharmacological management is considered effective and is the
standard of care.
The initial approach should include a behavioral intervention (e.g., stimulus
control therapy, relaxation therapy).
B. If pharmacological treatment is indicated, the general approach is
initial therapy with:
A short-intermediate acting benzodiazepine (BZD) receptor agonist
Non-BZD receptor agonist (NBRA)
Ramelteon

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 Medications should ideally be discontinued after 4-5 weeks.
If continued long-term, however, consistent follow-up, adverse effect
monitoring, and evaluation for comorbid conditions is required.
The American Academy of Sleep Medicine (AASM) guidelines
recommend:
For sleep onset and sleep maintenance insomnia- Eszopiclone ,temazepam, or
zolpidem
For sleep maintenance insomnia only- Doxepin or suvorexant.
For sleep onset insomnia only-Ramelteon, Triazolam, or Zaleplon

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Behavioral Therapies
A. Stimulus Control Therapy
1. Avoid associating the bed or bedroom with poor sleep or the inability
to sleep
2. Lie down to sleep only when sleepy
3. Use bed only for sleep (and sexual activity)
4. If unable to fall asleep get up, leave bed, and go to another room. Do
something relaxing, return to bed, and repeat as necessary.
5. Set alarm to the same time every day
6. Avoid napping during the day
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B. Sleep Restriction Therapy.
1. Limit time in bed to the amount consistent with optimal sleep
efficiency. Generally, the total time in bed should not be less than 5-6
hours
2. Gradually increase time spent in bed by I5-minute increments
3. Avoid in patients with epilepsy, bipolar disorder, or sleepwalking
disorder, as sleep restriction can worsen these conditions
4.Educate patients this may increase daytime sleepiness and caution
should be exercised during activities requiring mental alertness
(including driving)

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C. Relaxation Training
1. Decreases high physiologic, cognitive, or emotional arousal
2. Patients progressively relax their muscles from head to feet
3. May also include breathing exercises or meditation
4. Most effective for patients with high muscular tension and cognitive
arousal

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First-Line(Non Cognitive Behavioral therapy
Pharmacologic)
Second-Line (Initial Short-acting BZD or NBRA is effective for insomnia
Pharmacologic approach)
Other considerations ln persons > 55 years of age, prolonged-release melatonin may help sleep
onset and quality.

Olanzapine and quetiapine may improve sleep but are associated with
adverse effects.
Antihistamines have a limited role

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Pharmacological Treatments
Benzodiazepines [BZD]
A. Indications
1. Short-term therapy for insomnia characterized by difficulties with:
a. Falling asleep: estazolam, flurazepam, quazepam, temazepam
b. Sleep onset: triazolam
c. Frequent nocturnal awakenings: estazolam, flurazepam, quazepam
d. Early morning wakening: estazolam, flurazepam, quazepam

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B. Mechanism of Action
1. BZDs bind to the gamma sub-unit of the GABAA receptor
2. Binding causes an allosteric (structural) modification of the receptor
resulting in an increase in GABAA receptor activity
3. BZDs do not substitute for GABA, which binds at the alpha sub-unit,
but increase the frequency of channel opening events which leads to an
increase in chloride ion conductance and inhibition of the action
potential

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Non-Benzodiazepine Receptor Agonists
[NBRAs]
A. Indications.
1. Short-term treatment of insomnia- Eszopiclone, Zaleplon
Eszopiclone specifically reduces time to sleep onset and improves sleep
maintenance
Zaleplon reduces time to sleep onset only
2. Short-term treatment of insomnia characterized by difficulties with
a. Sleep onset - zolpidem, zolpidem CR
b. Sleep maintenance- zolpidem CR
3. Middle of the night awakening followed by difficulty falling back to
sleep - zolpidem sublingual

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B. Mechanism of Action
1. Eszopiclone - exact mechanism is unknown, but it is thought to
interact with GABA-receptor complexes located near or allosterically
coupled with BZD receptors.
2. Zaleplon - selectively binds to the omega-1 (BZD1) receptor on the α
subunit on GABAA / chloride ion channel receptor complex and
potentiates t-butyl- bicyclophosphorothionate binding.

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Zolpidem - selectively binds to omega-1 (BZD1)with a high affinity
ratio of α1 / α5 subunits that may account for the lack of muscle relaxant,
anxiolytic, and anticonvulsant effects and preservation of stage N3 sleep

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Ramelteon
A. Indication - Insomnia characterized by difficulty with sleep onset.
B. Mechanism of Action
I. Melatonin type 1 (M1) and melatonin type 2 (M2) receptor agonist
with a greater affinity and selectivity for these receptors than
melatonin.
Activity at M1 is thought to attenuate the alerting signal from the SCN
(regulating sleep onset).
At M2 to synchronize sleep-wake phases

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Doxepin
A. Indication- sleep maintenance (less effective for promoting sleep
onset).
B. Mechanism of Action - low doses exert effect through "selective"
histamine type 1 antagonist activity

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Suvorexant
A. Indication - Insomnia characterized by difficulties with sleep onset
and/or maintenance.
B. Mechanism of Action - OX receptor antagonist highly selective at
orexin type I (OX1) and orexin type 2 (OX2) receptors.

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Natural Products
A. Melatonin- has the most promising evidence of the supplements
used to manage insomnia
Consider in circadian rhythm disorders (e.g., jet lag), delayed sleep phase
syndrome, and patients with low endogenous melatonin levels
May decrease sleep latency in children with sleep onset insomnia and delayed
sleep phase syndrome.
Adverse events are minimal, and it is considered safe for short-term use

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B. Valerian- appears to act on central GABA systems
Adverse effects- GI upset, headache, contact allergies, restless sleep, bitter
taste, heart palpitations, depression, impaired alertness, and mydriasis

C. German chamomile - sedative effects may be related to the BDZ-like
compound on the flower head

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-END-

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