10/11 Sedative Hypnotic Agents - Pilch

Question 1

sedatives

hyponotics

Answer 1

sedative (anxiolytic) agents reduce anxiety and exert a calming effect

hypnotic drugs produce drowsiness and encourage onset/maintenance of sleep state

• hypnotic effects require more pronounced CNS depression than sedation
• hypnotic effect can be achieved with some anxiolytic drugs by increasing dose

Question 2

goals of therapy for GAD (gen anx disorder)

short term

long term

Answer 2

short term

• reduce severity and duration of anx sx
• improve overall fx

long term

• remission with minimal or no anx sx
• no fx impairment
• incr quality of life

Question 3

treatment of GAD

components

factors to consider

• plan
• initiating treatment

Answer 3

usually comprises psychotherapy and drug therapy

plan depends on:

• severity/chronicity of sx
• med history
• comorbid med/psych conditions

initiation of tx? consider:

• anticipated adverse effects
• hx of prior response in pt or family member
• pt preference

anxiolytic medication indicated for patients experiencing sx severe enough to produce fxnl disability

Question 4

short term pharmacotherapy for acute anxiety states

category

examples (7)

similarities/diffs

Answer 4

benzodiazepines (BZs) are most effective and commonly prescribed drugs for rapid relief of acute anxiety sx (incl panic attacks)

• alprazolam (Xanax)
• chlordiazepoxide (Librium)
• clonazapam (Klonopin)
• clorazepate (tranxene)
• diazepam (Valium)
• lorazepam (Ativan)
• oxazepam (Serax)

similarities: all effective as anxiolytics

differences: PK!

• need to consider PK and clinical situation to choose most effective agent

Question 5

benzodiazepines

PK

Answer 5

absorption: v good at crossing bbb! …but also crosses barriers you might not want

lipophilicity is major determinant of rate at which a BZ enters the CNS

• cross placental barrier → can contribute to depression of neonatal vital fx if administered pre-delivery
• detectable in breastmilk → may exert depressant effects in nursing infant

elimination

clearance generally reduced in elderly

Question 6

midazolam

peaks at .4-.8 hr

half life 1-7 hr

use?

why not GAD?

Answer 6

useful for procedural sedation!

• quick onset, will wear off soon after procedure

BUT

not so good for GAD because wears off too quick!

Question 7

why do some drugs have longer half-lives?

what is the effect of multiple doses?

Answer 7

BZs for which parent drug AND metabolites are active tend to have long half-life

• more likely to have cumulative effects (ex. drowsiness) with multiple doses

Question 8

benzodiazepines

pharmacodynamics

site of action

mechanism of action

Answer 8

BZ are GABA-ergic (potentiates action of GABA at GABAa receptor) → enhance inhibition!

GABAa receptor : Cl ion channel

• heteropentameric glycoprotein assembled from 5 subunits
• major isoform in brain is (alpha1)₂(beta2)₂(gamma2)
• activated by GABA (gamma-aminobutyric acid)
  
  • GABA binds at 2 sites between alpha and beta subunits → channel opening → hyperpol → inhibition

BZ mechanism of action: bind to single site between alpha and gamma subunits → increase freqency of GABA-gated channel openings

• same site targeted by flumazenil (BZ antagonist), zolpidem/zaleplon/eszopiclone (hypnotics)
• NOT targeted by barbiturates!

overall effect:

• potentiate Cl ion channel effects of GABA
• potentiate GABAergic inhibition at all levels of neuraxis

Question 9

BZ advantages / disadvantages

Answer 9

advantages

• rapid onset of action
• relatively high therapeutic index AND availability of flumazenil (for OD, if required)
• low risk of drug interactions based on liver enzyme induction
• minimal effects on CV and autonomic fx

disadvantages

• risk of dependence/addiction
• depression of CNS fx
• amnesic effects

Question 10

BZ dosing considerations

Answer 10

general principle: want minimum dose possible for the shortest period of time

• want a dose that does not impair mentation or motor functions

specifics

• rx should be written for short periods (2-4wk) bc little justification for longer term tx
• elderly? → approx half doses are safer, usually effective
• combination with other anti-anx agents, antihistamines, anticholinergics, ethanol should be avoided

Question 11

BZ toxic effects

Answer 11

1. anxiolytic doses → drowsiness, impaired judgment, diminished motor skills (can impact driving, job perf, personal relationships)

• overuse is a common cause of confusional state in elderly
• high dose → toxicity presenting as lethargy or state of exhaustion or gross sx of ethanol intox (behavioral inhibition)

2. can cause significant dose-related anterograde amnesia and significantly impair ability to learn new info

Question 12

BZ

tolerance, psychologic dependence, physiologic dependende

Answer 12

all potential results of prolonged use of BZ

• after extended use, abrupt cessation → withdrawal sx (states of incr anx, insomnia, CNS excitability)
  
  • BZ with longer half-life is eliminated more slowly → cause less severe withdrawal signs
• to avoid withdrawal sx…taper doses slowly over weeks!

Question 13

BZ toxicity:

ODs

Answer 13

dedative-hypnotics are durgs most frequently involved in deliberate OD!

severe toxicity: respiratory depression complicated by aspiration of gastric contents (more likely if ethanol present)

good news → even after v high dose ingenstion, outcome is rarely fatal if discovered early and conservative tx regimen started

• ensure patent airway (ventilate if necessary), maintain plasma volume, renal output, cardiac fx
• rapid reversal agent: flumazenil

Question 14

flumazenil

Answer 14

synthetic BZ derivative used to

• reverse CNS depressant effects of BZ OD
• hasten recovery after BZ use in medical procedures

mechanism: competitive inhibitor of BZ on GABAa receptors

• antagonizes actions of BZ and zolpidem, zaleplon, eszopiclone, but not barbiturates → i.e. ANY GABA-ERGIC DRUGS!

IV flumazenil acts rapidly, but with short half-life (0.7-1.3hr)

• rapid action: so fast it can precipitate withdrawal
• short half-life: all BZs have longer duration of action than flumazenil → sedation commonly recurs → repeated admin is required

Question 15

long term pharmacotx for GAD

classes

examples

how do they work?

Answer 15

considered first-line drugs in chronic management of GAD, esp in presence of depressive sx

selective serotonin reuptake inhibitors (SSRIs)

• escitalopram (Lexapro)
• paroxetine (Paxil)
• sertraline (Zoloft)
• fluoxetine (Prozac)

serotonin-norepinephrine reuptake inhibitors (SNRIs)

• duloxetine (Cymbalta)
• venlafaxine (Effexor)

anti-anx response of antideps requires 2-4wk or longer!

how do they work?

potentially reduce somatic anxiety symptoms by activating stress-adapting neuronal pathways

• not reducing activation (like BZ)
• instead, activating pathways for coping!

Question 16

buspirone (BuSpar)

Answer 16

has selective anxiolytic effects without causing marked sedative, hypnotic, euphoric effects

• NOT GABA-ergic → low risk of dependence, low tolerance, can be taken chronically
• takes 2 weeks or longer → NOT suitable for acute anx states

mechanism: believed to be through…

• partial agonist activity at 5-HT1a receptors
• affinity for brain dopamine D2 receptors

considered second-line agent bc of inconsistent reports of long-term efficacy and lack of efficacy for other potential concurrent depressive disorders

Question 17

buspirone toxicity

Answer 17

better toxicological profile than BZs or antidepressants!

adverse rxns: nausea, abd pain, drowsiness, dizziness

• typically transient

drug interactions → interacts with CPY3A4 :(

• inducers and inhibitors of CYP3A4
• MAO inhibitors → can result in elevated bp

Question 18

hypnotics

categories

examples

Answer 18

drugs used for tx of insomnia

GABAergic drugs

1. benzodiazepines

• triazolam (Halcion)
• temazepam (Restoril)
• estazolam (ProSom)
• flurazepam (Dalmane)
• quazepam (Doral)

2. non-BZ hypnotics

• zaleplon (Sonata)
• zolpidem (Ambien)
• eszopiclone (Lunesta)

*. new non-GABAergic hypnotics

• ramleteon (Rozerem)
• suvorexant (Belsomra)

Question 19

hypnotics goal of tx

Answer 19

• correct underlying sleep complaint
• consolidate sleep
• improve daytime fx
• avoid adverse effects

same principle holds: wants lowest possible dose for shortest possible time to be effective

Question 20

GABAergic drugs used as hypnotic agends

Answer 20

most commonly used drugs for insomnia

1. benzodiazepines

• hypnotic doses are higher than anxiolytic doses → effects
  
  • incr total sleep time
  • decr sleep latency (time to fal asleep) and awakenings
• prolonged use at hypnotic dose? dependency!
  
  • cessation → withdrawal! and associated rebound insomnia :(

2. non-BZ hypnotics (zolpidem, zaleplon, eszopiclone)

• bind to same GABAa site as BZs (more selective → only hit alpha1 subunits)
• effects
  
  • decrease time to persistent sleep
  • zolpidem/eszopiclone → incr total sleep time
    
    • zaleplon does not incr total sleep time
• risk of dependency!!! not recommended for long-term use
  
  • abrupt cessation → withdrawal sx (less severe than BZ) and rebound insomnia (zolpidem and zaleplon at high doses)
• favorable clinical features: rapid onset of activity, short half-lives, modest day-after psychomotor depression, few amnesic effects
  
  • unlike some BZs, no anticonvulsant and muscle-relax activities

Question 21

hypnotic agents : benzodiazepines

effects

dependency risk

Answer 21

1. benzodiazepines

• hypnotic doses are higher than anxiolytic doses → effects
  
  • incr total sleep time
  • decr sleep latency (time to fal asleep) and awakenings
• prolonged use at hypnotic dose? dependency!
  
  • cessation → withdrawal! and associated rebound insomnia :(

Question 22

hypnotics: non-BZ GABAergics

mech of action

effects

dependency risk

favorable ft

diff from BZ

Answer 22

2. non-BZ hypnotics (zolpidem, zaleplon, eszopiclone)

• bind to same GABAa site as BZs (more selective → only hit alpha1 subunits)
• effects
  
  • decrease time to persistent sleep
  • zolpidem/eszopiclone → incr total sleep time
    
    • zaleplon does not incr total sleep time
• risk of dependency!!! not recommended for long-term use
  
  • abrupt cessation → withdrawal sx (less severe than BZ) and rebound insomnia (zolpidem and zaleplon at high doses)
• favorable clinical features: rapid onset of activity, short half-lives, modest day-after psychomotor depression, few amnesic effects
  
  • ​short half-life means you recover from them quicker

major diffs from BZ:

• shorter half lives
• ​unlike some BZs, no anticonvulsant and muscle-relax activities

Question 23

non-GABAergic hypnotics

ramelteon (Rozerem)

mech

effects

adv effects

Answer 23

new nonGABAergic hypnotic

mechanism:

• agonist at MT1 and MT2 receptors in brain
  
  • MT receptors thought to be involved in maintaining circadian rhythm underlying sleep-wake cycle
• has NO GABAergic effects in CNS

effects:

• decr sleep latency
• increases sleep periods
• NO rebound insomnia, NO risk of dependence
• effective for treatment of sleep apnea too

common adv effects: dizziness, headache, somnolence

caveat: not as effective as the z-drugs

Question 24

non-GABAergic hypnotics

suvorexant (Belsomra)

mech

effects

adv effects

Answer 24

new nonGABAergic hypnotic

mechanism:

• antagonist at orexin receptors in brain
  
  • orexin is an nt in the wakefulness pathway → central promoter of wakefulness
• has NO GABAergic effects in CNS

effects:

• decr sleep latency
• increases sleep periods
• associated with risk of abuse or dependence (controlled sub)

common adv effects: day-after somnolence, headache, dizziness

• can cause “sleep-driving” behavior, amnesic effects