sedative-hypnotic drugs marina bergman pharmd phd lecturer clinical generalist – pharmacist the...
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Sedative-Hypnotic Drugs
Marina Bergman PharmD PhD
Lecturer Clinical Generalist – Pharmacist
The Ohio State University Wexner Medical Center
What a drag it is getting old "Kids are different today" I hear ev'ry mother say Mother needs something today to calm her down And though she's not really ill There's a little yellow pill She goes running for the shelter of a mother's little helper And it helps her on her way, gets her through her busy day
Little Yellow Pill
Objectives• Identify the major chemical classes of sedative-hypnotics.• Describe the pharmacodynamic of benzodiazepines and
barbiturates, including their mechanisms of action.• Compare the pharmacokinetics of commonly used
benzodiazepines and barbiturates and discuss how differences among them affect clinical use.
• Describe the clinical uses and the adverse effects of sedative hypnotics.Identify the distinctive properties of buspirone, zolpidem eszopiclone , ramelteon and zaleplon.
Overview
• Anxiety – a state of tension, apprehension uneasiness.
• Sedative (anxiolytic) - agent that reduces anxiety
• Hypnotic - drug that induces sleep• Benzodiazepines (BZs)- widely used
sedative-hypnotics• Barbiturates- anxiolytics at low doses,
hypnotics at high doses
Learning Resource
• Trevor AJ and Way WL, Sedative-Hypnotic Drugs, in Basic and Clinical Pharmacology, Katzung BG, Master SB, McGraw-Hill Lange, New York 2012.
Benzodiazepines (BZs)
• Sedative (anxiolytics) – alprazolam, clorazepate chlordiazepoxide, diazepam, halazepam, lorazepam, oxazepam
• Hypnotics – estezolam, lorazepam, quazepam, temazepam, triazolam
Safety
Chemical Structures of Benzodiazepines
Mechanism of Action
• Receptor for BZs are found in many Brain regions
• Binding of BZs to the GABAA receptor promotes the inhibitory action of GABA
• BZs increase the frequency of GABA mediated chloride ion channel opening
gamma–Aminobutyric Acid GABA-alpha Receptor
Receptor Empty(No Agonists)
GABA receptor
Chloride Channel closed
+ + + +
- - - -
+ + + +
- - - -
Benzodiazepine site
Cl-
Empty receptor is inactive, and the coupled chloride channel is closed.
GABAA receptors are composed of , , subunit families of which a combination of five or more span the postsynaptic membrane and surround a chloride channel.
Fig 1A Mechanism of action of GABA and benzodiazepines
GABA receptor
+ + + +
- - - -
+ + + +
- - - -
Benzodiazepine site
GABA
GABA
Cl-
Cl-
Binding of GABA causes chloride channel to open
Fig 1B Mechanism of action of GABA and benzodiazepines
GABA receptor
+++++++
--------------
+++++++
--------------
GABA
Cl-
Cl- Cl-
Cl-Cl-
Cl-
Benzodiazepine
Entry of chloride ions hyperpolarizes cell, making it difficult to depolarize and thus reducing neural excitability
Benzodiazepines modulate the GABA effects by binding to their receptors near and 2 subunits of GABAA receptor, thus increasing further the chloride influx.
Binding of GABA is enhanced by
benzodiazepine, resulting in a greater entry of chloride ion
Fig 1C Mechanism of action of GABA and benzodiazepines
Pharmacological Action of BZs
• Sedation (antianxiety)• Hypnosis• Anticonvulsant• Muscle relaxant• Amnesia
Duration of Action of Benzodiazepines
Therapeutic Uses
• Anxiety disorders• Sleep disorders• Muscular disorders• Seizures• Anesthesia
Anxiety Disorders
• BZ’s are effective for the treatment of the anxiety symptoms due to depression schizophrenia, panic disorders, social anxiety disorder, GAD, performance anxiety, post traumatic stress disorder, OCD, phobias
• The anti-anxiety effect of BZ’s is less subjective to tolerance
• Long acting agents are preferred, (e.g. lorazepam, diazepam, alprazolam)
Sleep disorders
• Flurazepam – reduces sleep-induction time and awakening
• Temazepam – used for pt w/ inability to stay asleep
• Triazolam – recurring insomnia, tolerance, rebound insomnia
Muscular disorders
Diazepam - muscle spasms, spasticity in multiple sclerosis and cerebral palsy Clonazepam - chronic epilepsy
Diazepam or Lorazepam - status epilepticus
Chlordiazepoxide, Clorazepate, Diazepam, Oxazepam - alcohol withdraw related seizures
Anesthesia
• Conscious sedation – Midazolam
• Induction of anesthesia- Midazolam, Lorazepam
• Anxiety provoking and unpleasant procedures- Midazolam
Pharmacokinetics
• Absorption – rapid and complete (lipophilic properties)
• Distribution – throughout the body
• Duration of action – determines use
• Drug fate – metabolized to active compounds
Relationship of Half Life and Indication
Pharmacokinetics - Continued
• BZ’s are lipophilic and they completely absorbed after oral administration.
• Half life's of BZs is very important because the duration of action will determine the therapeutic use.
• Many BZ’s are converted to active metabolites in the body
• Lorazepam and Oxazepam do not form active metabolites. They undergo extrahepatic conjugation
Metabolism
Benzodiazepines Half Life and Age
Dependence
• Psychological and physical – high doses, prolonged periods
• Abrupt discontinuation- withdrawal
• Long half-life – delayed withdrawal
• Short half-life – abrupt, severe withdrawal• Withdrawal Signs- anxiety, confusion, insomnia,
agitation, tremors, hyperreflexia and seizures
Tolerance
• A decrease in responsiveness to repeated dose of the drug when used for more the 1-2 weeks
• Cross tolerance may occur among the different BZs agents.
Rebound
Adverse effects
• Drowsiness and confusion• Ataxia• Cognitive impairment• Decreased long-term recall• Decreased learning
Flumazenil
• Benzodiazepine antagonist• Administered i.v.• Rapid onset, short duration• Withdrawal in dependent patients• May cause seizures• Side effects
Other hypnotic Agents
Other hypnotic agents
• All are hypnotic, selective GABAA agonists
• Zolpidem - not an anticonvulsant or muscle relaxant, fewer adverse effects
• Zaleplon - metabolized in liver, 1hr half-life, reduced dosage in elderly and liver damage
• Eszopiclone – metabolized in liver, 6hr half-life
Ramelteon
• Novel hypnotic for sleep induction • Agonist for MT1 and MT2 receptors• Acts via suprachiasmatic nuclei• No effect on GABAergic system• No rebound insomnia or withdrawal• Rapid absorption, extensive metabolism• Dizziness, somnolence, fatigue• Testosterone decrease, prolactin increase
Other Anxiolytic Agents
• Hydroxyzine- an antihistamine, has low tendency for habituation and thus is useful in patients with anxiety who have history of drug abuse. Also Used in dental procedures
• Antidepressants- SSRI, TCAs MAOI duloxetine venlafaxine all have proven efficacy in managing symptoms of anxiety
Buspirone
• Selective anxiolytic effects, slow onset (weeks)• Serotonin 5-HT1A and dopamine D2 agonist• No direct effect on GABAergic system• No anticonvulsant or muscle relaxant properties. • Low sedative, hypnotic, euphoric effects. Low
abuse potential• No rebound insomnia or withdrawal• Low frequency of side effects
Comparison between Buspirone and Alprazolam
Barbiturates
• Phenobarbital• Pentobarbital• Secobarbital• Amobarbital• Thiopental
Chemical Structures of Barbiturates and Other Hypnotic Drugs
Mechanism of Action
Barbiturates:• Interfere with Na+/K+ transport• Inhibit reticular activating system• Inhibit polysynaptic transmission• Potentiate GABA action on Cl- flux• Bind to subunits other than a and b
Barbiturate classification
• Duration of action:
• Thiopental – fast action, duration ~ 30 min, induction of anesthesia
• Phenobarbital – duration > 1 day, seizure treatment
• Pentobarbital, secobarbital, amobarbital- short acting hypnotics, not anxiolytic
Sedative Hypnotic Dose and CNS Effects
Drug Action
• Depression of CNS – dose dependent sedation, hypnosis, anesthesia, coma and death
• Respiratory depression - suppressed CO2 response
• Porphyria - Barbiturates can increase porphyrin synthesis and are contraindicated in patient with acute intermittent porphyria
Barbiturates and the P-450 Enzyme System
• Barbiturates induce the formation of the liver microsomal enzymes that metabolize drugs.
• The p-450 enzyme induction can lead to multiple drug interactions (e.g. birth control, warfarin, corticosteroids, anti epileptics)
• Barbiturates will decrease the serum level of drugs that are metabolized by P-450 enzymes.
Therapeutic Uses
• Anesthesia – induction of anesthesia selected for duration of
action thiopental, ultra short-acting
• Seizures – tonic-clonic, status epilepticus eclampsia, febrile seizures
• Anxiety - sedation, tension, insomnia, mostly replaced by BZ’s
Pharmacokinetics
• Absorbed orally• Distributed throughout body• Sequential redistribution• Short duration of action (thiopental)• Metabolized in liver• Excreted in urine
Adverse effects
• CNS- confusion, sedation, irritability• Hypotension• Drug hangover• Respiratory depression• Addiction• Poisoning
Non-barbiturate Hypnotics
• Chloral hydrate – acetaldehyde derivative sedative and hypnotic,fast sleep induction,Can displaced warfarin from plasma proteins leading to increase anticoagulant effects
• Antihistamines – diphenhydramine, doxylamine can be used for mild insomnia. Both have undesirable side effects. Can be purchase over-the-counter.
• Ethanol - toxic potential
Drug Interaction with Alcohol
• Alcohol when used with benzodiazepines, antihistamines or barbiturates can produced sever CNS depression
• Alcohol should be avoided when a patient is using a sedative hypnotic agent from the classes above.
Special Populations
• Elderly patients are more sensitive to the effect of sedative-hypnotics
• Doses half of those used in young adults are considered safe and effective for the elderly.
• Increase sensitivity to sedative-hypnotics is also more common in patients with cardiovascular disease, respiratory disease or hepatic impairment
Sedative and Hypnotic Drugs Quiz
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