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ANXIOLYTICS

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Title: SEDATIVE/HYPNOTICS (Antianxiety Drugs) Last modified by: Dear User! Created Date: 2/7/2001 6:36:05 PM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: ANXIOLYTICS


1
ANXIOLYTICS SEDATIVE ,HYPNOTICS
2
  • Normal
  • ?
  • Relief from Anxiety
  • _________ ? _________________
  • SEDATION
  • (Drowsiness/decrease reaction time)
  • ?
  • HYPNOSIS
  • ?
  • Confusion, Delirium, Ataxia
  • ?
  • Surgical Anesthesia
  • ? Depression of respiratory and
    vasomotor center in the brainstem
  • COMA
  • ?
  • DEATH

3
SEDATIVE/HYPNOTICSANXIOLYTICS
  • Major therapeutic use is to relief anxiety
    (anxiolytics) or induce sleep (hypnotics).
  • Hypnotic effects can be achieved with most
    anxiolytic drugs just by increasing the dose.
  • The distinction between a "pathological" and
    "normal" state of anxiety is hard to draw, but in
    spite of, or despite of, this diagnostic
    vagueness, anxiolytics are among the most
    prescribed substances worldwide.

4
Manifestations of anxiety
  • Verbal complaints. The patient says he/she is
    anxious, nervous, edgy.
  • Somatic and autonomic effects. The patient is
    restless and agitated, has tachycardia, increased
    sweating, weeping and often gastrointestinal
    disorders.
  • Social effects. Interference with normal
    productive activities.

5
Pathological Anxiety
  • Generalized anxiety disorder (GAD) People
    suffering from GAD have general symptoms of motor
    tension, autonomic hyperactivity, etc. for at
    least one month.
  • Phobic anxiety
  • Simple phobias. Agoraphobia, fear of animals,
    etc.
  • Social phobias.
  • Panic disorders Characterized by acute attacks
    of fear as compared to the chronic presentation
    of GAD.
  • Obsessive-compulsive behaviors These patients
    show repetitive ideas (obsessions) and behaviors
    (compulsions).

6
Causes of Anxiety
  • 1). Medical
  • Respiratory
  • Endocrine
  • Cardiovascular
  • Metabolic
  • Neurologic.

7
Causes of Anxiety
  • 2). Drug-Induced
  • Stimulants
  • Amphetamines, cocaine, TCAs, caffeine.
  • Sympathomimetics
  • Ephedrine, epinephrine, pseudoephedrine
    phenylpropanolamine.
  • Anticholinergics\Antihistaminergics
  • Trihexyphenidyl, benztropine, meperidine
    diphenhydramine, oxybutinin.
  • Dopaminergics
  • Amantadine, bromocriptine, L-Dopa,
    carbid/levodopa.

8
Causes of Anxiety
  • Miscellaneous
  • Baclofen, cycloserine, hallucinogens,
    indomethacin.
  • 3). Drug Withdrawal
  • BDZs, narcotics, BARBs, other sedatives, alcohol.

9
Anxiolytics
  • Strategy for treatment
  • Reducing anxiety without causing sedation.

10
Anxiolytics
  • Benzodiazepines (BZDs).
  • Barbiturates (BARBs).
  • 5-HT1A receptor agonists.
  • 5-HT2A, 5-HT2C 5-HT3 receptor
  • antagonists.
  • If ANS symptoms are prominent
  • ß-Adrenoreceptor antagonists (propranolol).
  • ?2-AR agonists (clonidine).

11
Anxiolytics
  • Other Drugs with anxiolytic activity.
  • TCAs (Fluvoxamine). Used for Obsessive compulsive
    Disorder.
  • MAOIs. Used in panic attacks.
  • Antihistaminic agents. Present in over the
    counter medications.
  • Antipsychotics (Ziprasidone).

12
Sedative/Hypnotics
  • A hypnotic should produce, as much as possible, a
    state of sleep that resembles normal sleep.

13
Sedative/Hypnosis
  • By definition all sedative/hypnotics will induce
    sleep at high doses.
  • Normal sleep consists of distinct stages, based
    on three physiologic measures
  • electroencephalogram
  • electromyogram
  • electronystagmogram.
  • Two distinct phases are distinguished which
    occur cyclically over 90 min
  • 1) Non-rapid eye movement (NREM). 70-75 of total
    sleep. 4 stages. Most sleep ? stage 2.
  • 2) Rapid eye movement (REM). Recalled dreams.

14
Properties of Sedative/Hypnotics in Sleep
  • 1) The latency of sleep onset is decreased (time
    to fall asleep).
  • 2) The duration of stage 2 NREM sleep is
    increased.
  • 3) The duration of REM sleep is decreased.
  • 4) The duration of slow-wave sleep (when
    somnambulism and nightmares occur) is decreased.
  • Tolerance occurs after 1-2 weeks.

15
Other Properties of Sedative/Hypnotics
  • Some sedative/hypnotics will depress the CNS to
    stage III of anesthesia.
  • Due to their fast onset of action and short
    duration, barbiturates such as thiopental and
    methohexital are used as adjuncts in general
    anesthesia.

16
Sedative/Hypnotics
  • Benzodiazepines (BZDs)
  • Alprazolam, diazepam, oxazepam, triazolam
  • 2) Barbiturates
  • Pentobarbital, phenobarbital
  • 3) Alcohols
  • Ethanol, chloral hydrate, paraldehyde,
    trichloroethanol,
  • 4) Imidazopyridine Derivatives
  • Zolpidem
  • 5) Pyrazolopyrimidine
  • Zaleplon

17
Sedative/Hypnotics
  • 6) Propanediol carbamates
  • Meprobamate
  • 7) Piperidinediones
  • Glutethimide
  • Azaspirodecanedione
  • Buspirone
  • 9) ?-Blockers
  • Propranolol
  • 10) ?2-AR partial agonist
  • Clonidine

18
Sedative/Hypnotics
  • Others
  • 11) Antyipsychotics
  • Ziprasidone
  • 12) Antidepressants
  • TCAs, SSRIs
  • 13) Antihistaminic drugs
  • Dephenhydramine, Hydroxyzine

19
Sedative/Hypnotics
  • All of the anxiolytics/sedative/hypnotics should
    be used only for symptomatic relief.
  • All the drugs used alter the normal sleep cycle
    and should be administered only for days or
    weeks, never for months.
  • USE FOR
  • SHORT-TERM TREATMENT
  • ONLY!!

20
SEDATIVE/HYPNOTICSANXYOLITICS
GABAergic SYSTEM
21
Sedative/Hypnotics
  • The benzodiazepines are the most important
    sedative hypnotics.
  • Developed to avoid undesirable effects of
    barbiturates (abuse liability).

22
Benzodiazepines
  • Diazepam
  • Chlordiazepoxide
  • Triazolam
  • Lorazepam
  • Alprazolam
  • Clorazepate gt nordiazepam
  • Halazepam
  • Clonazepam
  • Oxazepam
  • Prazepam

23
Barbiturates
  • Phenobarbital
  • Pentobarbital
  • Amobarbital
  • Mephobarbital
  • Secobarbital
  • Aprobarbital

24
  • NORMAL
  • ?
  • ANXIETY
  • _________ ? _________________
  • SEDATION
  • ?
  • HYPNOSIS
  • ?
  • Confusion, Delirium, Ataxia
  • ?
  • Surgical Anesthesia
  • ? COMA
  • ?
  • DEATH

25
Respiratory Depression
BARBS
BDZs
Coma/ Anesthesia
Ataxia
RESPONSE
Sedation
Anticonvulsant
Anxiolytic
DOSE
26
Respiratory Depression
BARBS
Coma/ Anesthesia
BDZs
Ataxia
RESPONSE
Sedation
Anticonvulsant
Anxiolytic
DOSE
27
GABAergic SYNAPSE
glucose
glutamate
GAD
GABA
Cl-
28
GABA-A Receptor
  • Oligomeric (abdgepr) glycoprotein.
  • Major player in Inhibitory Synapses.
  • It is a Cl- Channel.
  • Binding of GABA causes the channel to open and
    Cl- to flow into the cell with the resultant
    membrane hyperpolarization.

BDZs
BARBs
GABA AGONISTS
?
?
d
?
e
29
Mechanisms of Action
  • 1) Enhance GABAergic Transmission
  • ? frequency of openings of GABAergic channels.
    Benzodiazepines
  • ? opening time of GABAergic channels.
    Barbiturates
  • ? receptor affinity for GABA. BDZs and BARBS

30
Patch-Clamp Recording of Single Channel GABA
Evoked Currents
From Katzung et al., 1996
31
Benzodiazepines
  • PHARMACOLOGY
  • BDZs potentiate GABAergic inhibition at all
    levels of the neuraxis.
  • BDZs cause more frequent openings of the GABA-Cl-
    channel via membrane hyperpolarization, and
    increased receptor affinity for GABA.
  • BDZs act on BZ1 ?1 (?1 and ?2
    subunit-containing) and BZ2?2 (?5
    subunit-containing) receptors.
  • May cause euphoria, impaired judgement, loss of
    self control and anterograde amnesic effects.

32
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34
Pharmacokinetics of Benzodiazepines
  • Although BDZs are highly protein bound (60-95),
    few clinically significant interactions.
  • High lipid solubility ? high rate of entry into
    CNS ? rapid onset.
  • The only exception is chloral hydrate and
    warfarin

35
CNS Effects (Rate of Onset)
Lipid solubility
36
Pharmacokinetics of Benzodiazepines
  • Hepatic metabolism. Almost all BDZs undergo
    microsomal oxidation (N-dealkylation and
    aliphatic hydroxylation) and conjugation (to
    glucoronides).
  • Rapid tissue redistribution ? long acting ? long
    half lives and elimination half lives (from 10 to
    gt 100 hrs).
  • All BDZs cross the placenta
  • detectable in breast milk ? may exert depressant
    effects on the CNS of the lactating infant.

37
Pharmacokinetics of Benzodiazepines
  • Many have active metabolites with half-lives
    greater than the parent drug.
  • Prototype drug is diazepam (Valium), which has
    active metabolites (desmethyl-diazepam and
    oxazepam) and is long acting (t½ 20-80 hr).
  • Differing times of onset and elimination
    half-lives (long half-life gt daytime sedation).

38
Biotransformation of Benzodiazepines
39
Biotransformation of Benzodiazepines
  1. the kinetics of the parent drug may not reflect
    the time course of the pharmacological effect.
  2. Estazolam, oxazepam, and lorazepam, which are
    directly metabolized to glucoronides have the
    least residual (drowsiness) effects.
  3. All of these drugs and their metabolites are
    excreted in urine.

40
Properties of Benzodiazepines
  • BDZs have a wide margin of safety if used for
    short periods. Prolonged use may cause
    dependence.
  • BDZs have little effect on respiratory or
    cardiovascular function compared to BARBS and
    other sedative-hypnotics.

41
Side Effects of Benzodiazepines
  • Related primarily to the CNS depression and
    include drowsiness, excess sedation, impaired
    coordination, nausea, vomiting, confusion and
    memory loss. Tolerance develops to most of these
    effects.
  • Dependence with these drugs may develop.
  • Serious withdrawal syndrome can include
    convulsions and death.

42
Sedative/Hypnotics
  • They produce a pronounce, graded, dose-dependent
    depression of the central nervous system.

43
Toxicity/Overdose with Benzodiazepines
  • Drug overdose is treated with flumazenil (a BDZ
    receptor antagonist, short half-life), but
    respiratory function should be adequately
    supported and carefully monitored.
  • Seizures and cardiac arrhythmias may occur
    following flumazenil administration when BDZ are
    taken with TCAs.
  • Flumazenil is not effective against BARBs
    overdose.

44
Drug-Drug Interactions with BDZs
  • BDZ's have additive effects with other CNS
    depressants (narcotics), alcohol gt have a
    greatly reduced margin of safety.
  • BDZs reduce the effect of antiepileptic drugs.
  • Combination of anxiolytic drugs should be
    avoided.
  • Concurrent use with OTC antihistaminic and
    anticholinergic drugs as well as the consumption
    of alcohol should be avoided.
  • SSRIs and oral contraceptives decrease
    metabolism of BDZs.

45
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46
Pharmacokinetics of Barbiturates
  • Rapid absorption following oral administration.
  • Rapid onset of central effects.
  • Extensively metabolized in liver (except
    phenobarbital), however, there are no active
    metabolites.
  • Phenobarbital is excreted unchanged. Its
    excretion can be increased by alkalinization of
    the urine.

47
Pharmacokinetics of Barbiturates
  • In the elderly and in those with limited hepatic
    function, dosages should be reduced.
  • Phenobarbital and meprobamate cause autoinduction
    of liver enzymes.

48
Properties of Barbiturates
  • Mechanism of Action.
  • They increase the duration of GABA-gated channel
    openings.
  • At high concentrations may be GABA-mimetic.
  • Less selective than BDZs, they also
  • Depress actions of excitatory neurotransmitters.
  • Exert nonsynaptic membrane effects.

49
Toxicity/Overdose
  • Strong physiological dependence may develop upon
    long-term use.
  • Depression of the medullary respiratory centers
    is the usual cause of death of sedative/hypnotic
    overdose. Also loss of brainstem vasomotor
    control and myocardial depression.

50
Toxicity/Overdose
  • Withdrawal is characterized by increase anxiety,
    insomnia, CNS excitability and convulsions.
  • Drugs with long-half lives have mildest
    withdrawal.
  • Drugs with quick onset of action are most abused.
  • No medication against overdose with BARBs.
  • Contraindicated in patients with porphyria.

51
Sedative/Hypnotics
  • Tolerance and excessive rebound occur in response
    to barbiturate hypnotics.

52
Miscellaneous Drugs
  • Buspirone
  • Chloral hydrate
  • Hydroxyzine
  • Meprobamate (Similar to BARBS)
  • Zolpidem (BZ1 selective)
  • Zaleplon (BZ1 selective)

53
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54
BUSPIRONE
  • Most selective anxiolytic currently available.
  • The anxiolytic effect of this drug takes several
    weeks to develop gt used for GAD.
  • Buspirone does not have sedative effects and does
    not potentiate CNS depressants.
  • Has a relatively high margin of safety, few side
    effects and does not appear to be associated with
    drug dependence.
  • No rebound anxiety or signs of withdrawal when
    discontinued.

55
BUSPIRONE
  • Mechanism of Action
  • Acts as a partial agonist at the 5-HT1A receptor
    presynaptically inhibiting serotonin release.
  • The metabolite 1-PP has ?2 -AR blocking action.

56
BUSPIRONE
  • Side effects
  • Tachycardia, palpitations, nervousness, GI
    distress and paresthesias may occur.
  • Causes a dose-dependent pupillary constriction.

57
Pharmacokinetics of BUSPIRONE
  • Not effective in panic disorders.
  • Rapidly absorbed orally.
  • Undergoes extensive hepatic metabolism
    (hydroxylation and dealkylation) to form several
    active metabolites (e.g. 1-(2-pyrimidyl-piperazine
    , 1-PP)
  • Well tolerated by elderly, but may have slow
    clearance.
  • Analogs Ipsapirone, gepirone, tandospirone.

58
Zolpidem
  • Structurally unrelated but as effective as BDZs.
  • Minimal muscle relaxing and anticonvulsant
    effect.
  • Rapidly metabolized by liver enzymes into
    inactive metabolites.
  • Dosage should be reduced in patients with hepatic
    dysfunction, the elderly and patients taking
    Cimetidine.

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60
Properties of Zolpidem
  • Mechanism of Action
  • Binds selectively to BZ1 receptors.
  • Facilitates GABA-mediated neuronal inhibition.
  • Actions are antagonized by flumazenil

61
Properties of Other drugs.
  • Chloral hydrate
  • Is used in institutionalized patients. It
    displaces warfarin (anti-coagulant) from plasma
    proteins.
  • Extensive biotransformation.

62
Properties of Other Drugs
  • ?2-Adrenoreceptor Agonists (eg. Clonidine)
  • Antihypertensive.
  • Has been used for the treatment of panic attacks.
  • Has been useful in suppressing anxiety during the
    management of withdrawal from nicotine and opioid
    analgesics.
  • Withdrawal from clonidine, after protracted use,
    may lead to a life-threatening hypertensive
    crisis.

63
Properties of Other Drugs
  • ?-Adrenoreceptor Antagonists
  • (eg. Propranolol)
  • Use to treat some forms of anxiety, particularly
    when physical (autonomic) symptoms (sweating,
    tremor, tachycardia) are severe.
  • Adverse effects of propranolol may include
    lethargy, vivid dreams, hallucinations.

64
OTHER USES
  • 1. Generalized Anxiety Disorder
  • Diazepam, lorazepam, alprazolam, buspirone
  • 2. Phobic Anxiety
  • a. Simple phobia. BDZs
  • b. Social phobia. BDZs
  • 3. Panic Disorders
  • TCAs and MAOIs, alprazolam
  • 4. Obsessive-Compulsive Behavior
  • Clomipramine (TCA), SSRIs
  • 5. Posttraumatic Stress Disorder (?)
  • Antidepressants, buspirone

65
  • ANXYOLITICS
  • Alprazolam
  • Chlordiazepoxide
  • Buspirone
  • Diazepam
  • Lorazepam
  • Oxazepam
  • Triazolam
  • Phenobarbital
  • Halazepam
  • Prazepam
  • HYPNOTICS
  • Chloral hydrate
  • Estazolam
  • Flurazepam
  • Pentobarbital
  • Lorazepam
  • Quazepam
  • Triazolam
  • Secobarbital
  • Temazepam
  • Zolpidem
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