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Title: Sedative Hypnotics and anxiolytics


1
Sedative Hypnotics and anxiolytics
2
Terminology
  • Tranquilizers (anxiolytics) Treat excitment and
    anxiety
  • Sedative-Hypnotics (sleeping pills) Sedation and
    sleep

3
Sedative hypnotics are drugs used for the
treatment of anxiety and sleep disorders.
  • A sedative
  • Sometimes called anxiolytic, or minor
    tranquilizer, reduces anxiety and exerts a
    calming effect
  • A hypnotic drug produces drowsiness and
    encourage the onset and maintenance of sleep

4
Anxiety disorders
Generalized anxiety disorder (GAD) excessive anxiety lacking any clear reason Panic disorder (sudden attacks of severe fear accompanied by sweating, tachycardia, chest pains,.) Phobias (strong fears of snakes, open spaces, flying) Post-traumatic stress disorder (anxiety triggered by recall of past stressful experiences) Obsessive compulsive disorder (OCD) e.g. fear of contamination
5
Examples of Sedative-Hypnotic drugs
  • 1- Benzodiazepines
  • 2- Buspirone
  • 3- Zolpidem
  • 4- Barbiturates
  • 5- Ethyl alcohol
  • NB BZs and barbiturates share very similar
    properties but BZs have a much safer
    pharmacological profile
  • All have the same
  • Mechanism of action (acting on GABA)
  • except Buspirone

6
  • Graded dose-dependent depression of the CNS
    function
  • is a characteristic of sedative-hypnotics.
  • Individual drugs differ in the relationship
    between the dose and the degree of CNS depression

7
BENZODIAZEPINES
8
  • Benzodiazepines (BZs) are the most widely used
    sedative-hypnotic drugs
  • They have replaced barbiturates for most uses,
    particularly for treatment of anxiety and sleep
    disorders

9
How Do BZ Work?
10
A model of the GABAA receptor-chloride ion
channel The receptor consists of five or more
membrane-spanning subunits. GABA interact with
alpha or beta subunits triggering chloride
channel opening with resultant membrane
hyperpolarization. Binding of BZs to gamma
subunits potentiates effects of GABA, facilitates
the process of channel opening.
11
  • BZs increases the frequency of channel opening
    by a given concentration of GABA, but no change
    in the mean open time

12
Pharmacokinetics
  • absorption well absorbed if given orally , Cmax
    reached in about 1 h
  • strongly bound to plasma proteins
  • distribution high lipid solubility
  • metabolism hydroxylation conjugation with
    glucuronic acid

13
Pharmacological Actions
14
The main effects of BZs are
1- Reduction of anxiety and aggression 2-
Sedation induction of sleep 3- Reduction of
skeletal muscle tone and coordination 4-
Anticonvulsant (antiepileptic) effect 5-
Anterograde amnesia ., they obliterate memory of
events experienced while under their influence
15
Therapeutic uses
16
1) as anxiolytic
  • Short-term treatment of acute anxiety states

17
2) for insomnia
  • BZs decrease rapid eye movement (REM) sleep,
    which is associated with dreaming
  • For short-term courses, as tolerance ,
    dependence, hangover may occur

18
3) Reduction of muscle tone and coordination
  • Increased muscle tone is a common feature of
    anxiety states in humans and may contribute to
    the aches and pains, headache
  • The relaxant effect of BZs may therefore be
    clinically useful

19
  • 4) As anticonvulsants
  • Clonazepam has selective anticonvulsant action (
    epilepsy)
  • Diazepam i.v. in status epilepticus

20
5) Muscular disorders
  • strong muscle-relaxing properties
  • In cases of
  • - muscle spasm
  • - spastic disorders (MS, cerebral palsy)

21
6) Ttreatment of alcohol withdrawal symptoms
  • By ameliorating the alcohol withdrawal syndrome
  • The commonly used drug is Diazepam

22
7) as a pre-ansthetic medication
  • for
  • i) Anxiolytic effects
  • ii) Amnesia
  • (impair short-term memory)
  • 7) To control extreme
  • mania

23
Pharmacokinetics
BZS are well absorbed orally, giving a peak plasma concentration in about 1 hour They bind strongly to plasma protein, and their high lipid solubility causes many to accumulate in body fat given by mouth or i.v. (e.g. diazepam in status epilepticus, midazolam in anaesthesia) BZs are all metabolized and excreted in the urine
24
Classificaion of BZs
  • According to duration of action
  • Very short (lt 6 h) Triazolam , midazolam
  • Short (12-18) Lorazepam (Ativan)
  • Medium (24 h) Alprazolam (Xanax),
  • Long (24-48 h) Diazepam (Valium)
  • The longer acting agents form active metabolites
    with long half-lives

25
Classificaion of BZs
  • According to therapeutic uses
  •   Hypnotic- Temazepam, Nitrazepam
    Anti-anxiety- Diazepam, Oxazepam
  • For panic attacks Alprazolam Anticonvulsant-
    Diazepam, Lorazepam,

26
Advantages
27
  • Why BZ have replaced barbiturates ??
  • 1- Less tolerance physical dependence
  • 2- They cause less disturbance in sleep patterns
  • 3- Barbiturates causes drug interaction because
    they are enzyme inducers
  • e.g. They increase metabolism of warfarin
  • due to induction of cytochrome P450
  • thus making it less effective

28
  • 4- BZ are Safe in overdose while Barbiturates
    have lower therapeutic index (easily overdosed)
  • They dont produce marked and fatal CNS
    depression
  • Symptoms of overdose of BZ are less than of
    barbiturates
  • 5- BZs produce minimal sedation and motor
    impairment
  • 6- A Benzodiazepine antagonist is available
    (Flumazenil)

29
Advanges as Hypnotics
  • REM sleep ( rapid eye movement) is less affected
    if compared with the same effect of other
    hypnotics
  • artificial interruption of REM sleep causes
    irritability and anxiety even if the total amount
    of sleep is not reduced

30
BZ antagonist Flumazenil
  • Mechanism of action
  • Flumazenil acts as a competitive antagonist to
    the binding of BZs to their receptors
  • Flumazenil is a short-acting drug while, most BZs
    have longer half-lives, therefore, repeated i.v.
    administration of flumazenil is required to avoid
    relapse into the sedative state

31
Side Effects
32
  • Drowsiness and confusion, amnesia
  • BZ may paradoxically produce an increase in
    irritability and aggression in some individuals
    (particularly if short- acting drugs are given
    (triazolam)
  • Hypotension in old patients
  • Ataxia occurs at high doses and interfere with
    motor coordination (e.g. driving a car)
  • BZs enhance the depressant effect of other drugs
    alcohol, in a more than additive way

33
  • Tolerance and dependence
  • If high doses of BZs are given over a prolonged
    period, weight gain as well as physical
    dependence may develop
  • Abrupt discontinuation of BZs causes withdrawal
    symptoms, including confusion, anxiety,
    restlessness ,tremor and dizziness
  • Short-acting BZs (triazolam) cause more
    withdrawal effects
  • Less than Barbiturates


34
Contraindications
35
  • 1.Pregnancy, labour and lactation
  • During pregnancy
  • Late in pregnancy or around the time of labor and
    delivery
  • During the period of breast feeding
  • 2. In patients with myasthenia gravis due to the
    muscle relaxing effect of BZs
  • 3.Pre-existing CNS depression

36
II. BUSPIRONE
  • Mechanism of action
  • Buspirone is a 5HT1A receptor agonist
  • with anxiolytic activity but little sedation
  • 5-HT1A receptors are inhibitory receptors that
    reduce the release of 5-HT and other mediators
  • Advantages of buspirone
  • 1.Unlike BZs, buspirone has no sedative hypnotic,
    anticonvulsant, or muscle relaxant properties
    (anxiolytic only)
  • 2. It has minimal abuse liability

37
  • 3.Buspirone causes less psychomotor impairment
    than BZs and does not affect driving skills
  • 4. The drug does not potentiate the CNS
    depressant effects of other sedative-hypnotics
    e.g. ethyl alcohol
  • Disadvantages of buspirone
  • Its anxiolytic effect takes days or weeks to
    develop . (useful in chronic anxiety states)
  • Buspirone is ineffective in controlling panic
    attacks or severe anxiety states

38
Side effects
  • Buspirone has side effects quite different from
    those of BZs. It does not cause sedation or motor
    incoordination, nor have withdrawal effects been
    reported.
  • Main side effects are nausea, dizziness,
    headache and restlessness
  • Less troublesome than the side effects of BZs

39
IV. BARBITURATES
  • Barbiturates are non-selective CNS
    depressants. They can produce varying degrees of
    CNS depression ranging from mild sedation to
    general anesthesia

40
Barbiturates have been largely replaced by BZs,
because of the following
  • High incidence of tolerance and physical
    dependence following chronic use
  • Barbiturates have a low therapeutic index (they
    are dangerous in overdose)
  • Barbiturates are enzyme inducers especially
    cytochrome P450 system, they increase the rate of
    metabolic degradation of many other drugs, so
    liable to cause drug interactions
  • They dont have an antagonist

41
Mechanism of Action
  • Barbiturates like BZs, cause activation of GABAA
    receptor and opening of the Cl- channel
    associated with the receptor
  • The neuronal membrane is hyperpolarized and less
    likely to fire

42
Actions
  • At low doses, barbiturates produce sedation
  • At higher doses, they cause hypnosis followed by
    anesthesia
  • Overdosage may cause respiratory depression and
    death

43
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44
Classification
  • Ultra-short acting Thiopental Na is an i.v.
    anesthetic that acts within seconds with short
    duration of action
  • Short-acting Pentobarbital and secobarbital act
    for 3-8 hours
  • Long-acting Phenobarbital (gt than 24 h)

45
Therapeutic Uses
1- Anesthesia Thiopental Na is used iv to induce
anesthesia 2- As sedative-hypnotic agents
Barbiturates have been replaced by BZs
3-Anticonvulsants Emergency treatment of
convulsions in status epilepticus by thiopental
as the last approach
46
4-Phenobarbital is used in long-term management
of tonic-clonic seizures and eclampsia 5- To
lower serum bilirubin in Neonatal jaundice
(kernicterus) Barbiturates such as
phenobarbital can increase the conjugation of
bilirubin and reduces this risk by inducing the
activity of glucuronyl transferase enzyme
47
Side effects
  • 1-CNS effects drowsiness can interfere with
    motor mental performance hangover. In large
    doses, barbiturates cause marked depression of
    CNS (may be fatal)
  • 2- Induction of P450 thus the rate at which they
    are metabolized increases over the first few days
    of administration. Also, it leads to increased
    metabolism of other drugs e.g. estrogen and
    warfarin ( oral contraceptives and oral
    anticoagulants)
  • 3-Tolerance and physical dependence with
    prolonged use
  • 4-Teratogenicity

48
III. ZOLPIDEM, Z drugs
  • Mechanism of action
  • Zolpidem is a non-benzodiazepine hypnotic that
    binds selectively to a subset of the BZs receptor
    family and facilitates GABA-mediated neuronal
    inhibition
  • Zolpidem has a rapid onset and a short duration
    of action (about 4 hours)
  • Its action is antagonized by flumazenil
  • Zopiclone is similar to zolpidem

49
Advantages Disadvantages
  • Short duration of action
  • Nightmares
  • GIT upset
  • Respiratory depression occurs only if large doses
    of zolpidem are ingested together with other
    central depressants
  • Rapid onset
  • less daytime sleepiness
  • Less tolerance or dependence with prolonged use
  • It has no effect on psychomotor skills
  • Antagonized by flumazenil
  • Least effect on REM

50
Hypnotic drugs
  • Benzodiazepines (e.g. Temazepam , nitrazepam)
  • Related drugs working on the BZ receptor (e.g.
    zolpidem, zopiclone)
  • Sedating antihistamines (e.g. promethazine),
    which cause drowsiness and are used for
    occasional insomnia. They can impair performance
    the day after

51
V. ETHYL ALCOHOL (Ethanol)
  • Ethyl alcohol (ethanol) is the most
  • abused drug in the world. Ethyl alcohol in low to
    moderate amounts relieves anxiety and causes
    euphoria
  • Large dose causes hypnosis and respiratory
    depression which may be fatal

52
Mechanism of action
  • Ethanol enhances GABA-mediated synaptic
    inhibition
  • Ethanol inhibits excitatory NMDA glutamate
    receptors

53
Treatment of Chronic Alcoholism
  • Hospitalization, psychotherapy and nutritional
    therapy may be needed.
  • Drug therapy includes
  • BZs (e.g. diazepam) are used to prevent alcohol
    withdrawal symptoms. They are preferred over
    barbiturates because of their wide margin of
    safety. The dose must be tapered slowly over
    several weeks

54
Disulfiram
The drug given by itself to nondrinkers has
little effects however, it causes extreme
discomfort to patients who drink alcohol
(Flushing, throbbing headache, nausea, vomiting,
sweating, hypotension and confusion)
55
Mechanism of action
Disulfiram acts by inhibiting aldehyde
dehydrogenase thus, alcohol is metabolized as
usual but acetaldehyde accumulates. Acetaldehyde
will form the toxic intermediates methanol and
formaldehyde
56
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