Sedative hypnotics
8,832 views
63 slides
Feb 13, 2019
Slide 1 of 63
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
About This Presentation
This ppt discusses pharmacology of sedatives and hypnotics along with their adverse effects
Slide Content
Sedative-Hypnotic Drugs
P S PATKI
SCHOOL OF MEDICINE.
BANGALORE.
PATKI1
P S PATKI
SCHOOL OF MEDICINE.
BANGALORE.
PATKI1
Objectives
Define sedative and hypnotics.
Different stages of CNS Depressants.
Name benzodiazepines and pharmacological actions.
Name their adverse effects and indications.
Name two barbiturates ,
PATKI2
Define sedative and hypnotics.
Different stages of CNS Depressants.
Name benzodiazepines and pharmacological actions.
Name their adverse effects and indications.
Name two barbiturates ,
PATKI2
Dose-response curves for two
hypothetical sedative-hypnotics
PATKI3
hypothetical sedative-hypnotics
PATKI3
Sedative hypnotics
Sedatives
Drugs that ↓ excitement, calm down
and cause drowsiness without
producing sleep.
Drugs that ↓ excitement, calm down
and cause drowsiness without
producing sleep.
HYPNOTICS
Drugs that induce and maintain sleep
similar to normal arousal sleep.
Drugs that induce and maintain sleep
similar to normal arousal sleep.
Tranquillizer
Drugs that reduces tension and
anxiety without drowsiness or sleep
Drugs that reduces tension and
anxiety without drowsiness or sleep
Sleep Pattern
NREM sleep
(slow wave EEG sleep)
REM sleep
(fast wave EEG sleep)
NREM sleep
(slow wave EEG sleep)
REM sleep
(fast wave EEG sleep)
Different phases of sleep and their characteristics
NREM sleep
Stage 0 (awake)
From lying down to falling asleep and occasional nocturnal
awakenings – constitutes 1-2% of sleep time
eye movements are irregular or slowly rolling
Stage 1 (dozing)
Eye movements are reduced but there may be bursts of rolling
Neck muscles relax - occupies 3-6% of sleep time
Stage 2
Little eye movement, subjects are easily arousable
This comprises 40-50% of sleep time
NREM sleep
Stage 0 (awake)
From lying down to falling asleep and occasional nocturnal
awakenings – constitutes 1-2% of sleep time
eye movements are irregular or slowly rolling
Stage 1 (dozing)
Eye movements are reduced but there may be bursts of rolling
Neck muscles relax - occupies 3-6% of sleep time
Stage 2
Little eye movement, subjects are easily arousable
This comprises 40-50% of sleep time
Stage 3 (deep sleep transition)
Eye movements are few, subjects are not easily arousable
This comprises 5-8% of sleep time
Stage 4 (cerebral sleep)
Eyes are practically fixed, subjects are difficult to arouse.
Night terror may occur at this time
This comprises 10-20% of sleep time
slow wave sleep: physical restoration process
REM: consolidation of learning
During stage 2, 3 and 4 – HR, BP and respiration are steady and
muscles are relaxed
Eye movements are few, subjects are not easily arousable
This comprises 5-8% of sleep time
Stage 4 (cerebral sleep)
Eyes are practically fixed, subjects are difficult to arouse.
Night terror may occur at this time
This comprises 10-20% of sleep time
slow wave sleep: physical restoration process
REM: consolidation of learning
During stage 2, 3 and 4 – HR, BP and respiration are steady and
muscles are relaxed
There are marked, irregular eye movements; dreams and night-
mares occur, which may be recalled if the subject is aroused
HR, BP – fluctuate, respiration irregular
Muscles are fully relaxed, DREAMS
Erection occurs in males
About 20-30% of sleep time is spent in REM
Normally stages 0-4 and REM occurs in succession over a
period of 80-100 min. Then stages 1-4-REM repeated cyclically
A normal 8 hrs sleep consists of 4 or 5 cycles of quite sleep
alternating with REM sleep
REM sleep (paradoxical sleep)
mares occur, which may be recalled if the subject is aroused
HR, BP – fluctuate, respiration irregular
Muscles are fully relaxed, DREAMS
Erection occurs in males
About 20-30% of sleep time is spent in REM
Normally stages 0-4 and REM occurs in succession over a
period of 80-100 min. Then stages 1-4-REM repeated cyclically
A normal 8 hrs sleep consists of 4 or 5 cycles of quite sleep
alternating with REM sleep
REM sleep (paradoxical sleep)
Stages of sleep
Insomnia
It is defined as inadequate sleep and may be
manifested as difficulty in falling asleep or
difficulty in maintaining sleep with
intermittent wakening during sleep
Exhaustion, tension, anxiety, depression,
caffeine, jet lag, etc…
It is defined as inadequate sleep and may be
manifested as difficulty in falling asleep or
difficulty in maintaining sleep with
intermittent wakening during sleep
Exhaustion, tension, anxiety, depression,
caffeine, jet lag, etc…
Classification
1.Benzodiazepines:
Long acting (>24hrs):
Diazepam
Intermediate acting (6-24 hrs):
lorazepam, oxazepam, nitrazepam, alprazolam
short acting (< 6hrs):
triazolam, midazolam
1.Benzodiazepines:
Long acting (>24hrs):
Diazepam
Intermediate acting (6-24 hrs):
lorazepam, oxazepam, nitrazepam, alprazolam
short acting (< 6hrs):
triazolam, midazolam
Classification
1.Benzodiazepines:
Hypnotic:
diazepam, alprazolam, triazolam, flurazepam
Antianxiety:
diazepam, oxazepam, lorazepam, alprazolam
Anticonvulsant:
diazepam, lorazepam, clonazepam, clobazam
Muscle relaxant: Diazepam
GA: midazolam
Depression: Alprazolam
1.Benzodiazepines:
Hypnotic:
diazepam, alprazolam, triazolam, flurazepam
Antianxiety:
diazepam, oxazepam, lorazepam, alprazolam
Anticonvulsant:
diazepam, lorazepam, clonazepam, clobazam
Muscle relaxant: Diazepam
GA: midazolam
Depression: Alprazolam
Classification
2. Barbiturates:
Long acting :
phenobarbitone, mephobarbitone
Short acting:
secobarbitone, pentobarbitone, butobarbitone
Ultra short acting :
thiopentone, methohexitone
2. Barbiturates:
Long acting :
phenobarbitone, mephobarbitone
Short acting:
secobarbitone, pentobarbitone, butobarbitone
Ultra short acting :
thiopentone, methohexitone
Classification
3. Newer non-benzodiazepine hypnotics:
Zopiclone
Zolpidem
Zaleplon
3. Newer non-benzodiazepine hypnotics:
Zopiclone
Zolpidem
Zaleplon
Benzodiazepines (BZD)
Mechanism of action:
BZD act on midbrain ascending reticular formation and
Limbic system
Bind to BZD receptor (integral part of GABA
A receptor –Clˉ channel
complex)
Mechanism of action:
BZD act on midbrain ascending reticular formation and
Limbic system
Bind to BZD receptor (integral part of GABA
A receptor –Clˉ channel
complex)
Mechanism of action:
Benzodiazepines
Increase in chloride conductance
No GABA mimetic action
Potentiates the inhibitory effects of GABA
Increase the frequency of opening of Cl
-
channel
Binds to specific site on GABA-A receptor
Membrane Hyperpolarization
CNS depression
Benzodiazepines
Increase in chloride conductance
No GABA mimetic action
Potentiates the inhibitory effects of GABA
Increase the frequency of opening of Cl
-
channel
Binds to specific site on GABA-A receptor
Membrane Hyperpolarization
CNS depression
GABA
A
- BZD receptor Cl
-
channel complex
A
- BZD receptor Cl
-
channel complex
Pharmacological actions of BZD
1.Sedation and hypnosis:
Reduces sleep latency
Reduces intermittent awakening
Time spent in stage II ↑ and stage III & IV ↓
Shortens REM phase
Body movements during sleep ↓
Sleep quality similar to natural sleep
Tolerance develops gradually
1.Sedation and hypnosis:
Reduces sleep latency
Reduces intermittent awakening
Time spent in stage II ↑ and stage III & IV ↓
Shortens REM phase
Body movements during sleep ↓
Sleep quality similar to natural sleep
Tolerance develops gradually
Pharmacological actions of BZD
2. Anxiolytic - ↑ depressant effect
3. Muscle relaxant – medullary site action
4. Anticonvulsant – ↑ seizure threshold
5. Amnesia
6. Other actions – analgesia and ↓ nocturnal
gastric secretion
2. Anxiolytic - ↑ depressant effect
3. Muscle relaxant – medullary site action
4. Anticonvulsant – ↑ seizure threshold
5. Amnesia
6. Other actions – analgesia and ↓ nocturnal
gastric secretion
Pharmacokinetics
Well absorbed orally
IM – irregular
Plasma protein binding varies : diazepam –
99% and flurazepam – 10%
Widely distributed in the body
Well absorbed orally
IM – irregular
Plasma protein binding varies : diazepam –
99% and flurazepam – 10%
Widely distributed in the body
Diazepam
Desmethyldiazepam
Oxazepam
Medazepam
Chlorzepate
Alprazolam
Midazolam
Triazolam
Glucuronide
conjugation
Temazepam
Lorazepam
Flurazepam
Desmethylflurazepam
elimination
Hydroxylated
metabolites
Chlordiazepoxide
Desmethylchlordia
zepoxide
Desmethyldiazepam
Oxazepam
Medazepam
Chlorzepate
Alprazolam
Midazolam
Triazolam
Glucuronide
conjugation
Temazepam
Lorazepam
Flurazepam
Desmethylflurazepam
elimination
Hydroxylated
metabolites
Chlordiazepoxide
Desmethylchlordia
zepoxide
Pharmacokinetics
Highly lipid soluble – two phase plasma concentration
decay curve
Metabolised in the liver – dealkylation and hydroxylation
Excreted in urine
Diazepam undergoes enterohepatic circulation
Cross placenta and are secreted in milk
Highly lipid soluble – two phase plasma concentration
decay curve
Metabolised in the liver – dealkylation and hydroxylation
Excreted in urine
Diazepam undergoes enterohepatic circulation
Cross placenta and are secreted in milk
Effects of ligand BZD receptor
Agonist AntagonistInverse
agonist
LigandBenzodiazepinesFlumazenilβ- carboline
EffectsSedation, hypnosis,
antianxiety,
anticonvulsant,
muscle relaxation
Blocks &
reverses the
effect of BZD
Arousal, anxiety,
↑ muscle tone,
convulsions
Agonist AntagonistInverse
agonist
LigandBenzodiazepinesFlumazenilβ- carboline
EffectsSedation, hypnosis,
antianxiety,
anticonvulsant,
muscle relaxation
Blocks &
reverses the
effect of BZD
Arousal, anxiety,
↑ muscle tone,
convulsions
D- Diagnostic and Minor operative procedures
I. Insomnia
A- Alchohol withdrawal syndrome
Z-
E- Epilepsy
P- Preanesthetic Medication
A- Anxiety
M- Muscle relaxation in tetanus,
cerebral palsy
I. Insomnia
A- Alchohol withdrawal syndrome
Z-
E- Epilepsy
P- Preanesthetic Medication
A- Anxiety
M- Muscle relaxation in tetanus,
cerebral palsy
Long term treatment with hypnotics:
Rebound insomnia
Change in sleep architecture
Reduced effectiveness due to blockade of slow wave sleep
Blocks the slow wave sleep – it is important for physical
restoration process
Suppression of REM sleep
Rebound insomnia
Change in sleep architecture
Reduced effectiveness due to blockade of slow wave sleep
Blocks the slow wave sleep – it is important for physical
restoration process
Suppression of REM sleep
Adverse effects of BZD
BZD – relatively safe drug with a wide margin of
safety
Dizziness, vertigo, disorientation, muscle
weakness, impaired motor coordination,
prolongation of reaction time, hangover (less
common).
BZD – relatively safe drug with a wide margin of
safety
Dizziness, vertigo, disorientation, muscle
weakness, impaired motor coordination,
prolongation of reaction time, hangover (less
common).
Adverse effects of BZD
Blurred vision, nausea, dry mouth, urinary
incontinence.
irritability & sweating
Tolerance to sedative effects
Not teratogenic ; flaccidity & respiratory
depression in neonate
Blurred vision, nausea, dry mouth, urinary
incontinence.
irritability & sweating
Tolerance to sedative effects
Not teratogenic ; flaccidity & respiratory
depression in neonate
Drug interactions- BZD
Alcohol & CNS depressants-Potentiate depressant action
Enzyme inhibitors like Cimetidine, ketoconazole, erythromycin -
↓ metabolism
Caffeine inhibits anxiolytic effect of BZD
Alcohol & CNS depressants-Potentiate depressant action
Enzyme inhibitors like Cimetidine, ketoconazole, erythromycin -
↓ metabolism
Caffeine inhibits anxiolytic effect of BZD
Tolerance and dependence
Less
Tolerance to sedative effects develops slowly
Withdrawal symptoms are mild and slow in onset
Symptoms include anxiety, nervousness, tremor,
dizziness and anorexia
Less
Tolerance to sedative effects develops slowly
Withdrawal symptoms are mild and slow in onset
Symptoms include anxiety, nervousness, tremor,
dizziness and anorexia
Acute over dosage of BZD
Induces sleep; respiratory depression is
mild
Specific antagonist - flumazenil
Induces sleep; respiratory depression is
mild
Specific antagonist - flumazenil
Flumazenil
BZD analogue
Compete with BZD agonist and inverse agonist
and reverses their effects
I.V - action starts in seconds and lasts for 1-2
hours
Elimination t1/2 is 1 hour
Uses:
1.To reverse BZD anesthesia
2. BZD overdosage
BZD analogue
Compete with BZD agonist and inverse agonist
and reverses their effects
I.V - action starts in seconds and lasts for 1-2
hours
Elimination t1/2 is 1 hour
Uses:
1.To reverse BZD anesthesia
2. BZD overdosage
Barbiturates
Derivatives of barbituric acid
Derivatives of barbituric acid
Barbiturates:
Long acting :
phenobarbitone, mephobarbitone
Short acting:
secobarbitone, pentobarbitone, butobarbitone
Ultra short acting :
thiopentone, methohexitone
Long acting :
phenobarbitone, mephobarbitone
Short acting:
secobarbitone, pentobarbitone, butobarbitone
Ultra short acting :
thiopentone, methohexitone
Advantages of BZD over barbiturates
1.Induce sleep- natural
2.No hang over
3.High therapeutic index – 20 hypnotic doses x endanger life
4.Hypnotic dose – does not affect Resp / CV function
5.No action on other systems
6.No Microsomal enzyme induction
7.withdrawl syndrome are less marked
1.Induce sleep- natural
2.No hang over
3.High therapeutic index – 20 hypnotic doses x endanger life
4.Hypnotic dose – does not affect Resp / CV function
5.No action on other systems
6.No Microsomal enzyme induction
7.withdrawl syndrome are less marked
Advantages of BZD over barbiturates
8.Less dependence
9.Lower abuse liability
10.Do not produce hyperalgesia
11.Amnesia without automatism
12.Do not produce generalized CNS depression
13.Less distortion of sleep and rebound phenomena
14.Specific BZD antagonist available
8.Less dependence
9.Lower abuse liability
10.Do not produce hyperalgesia
11.Amnesia without automatism
12.Do not produce generalized CNS depression
13.Less distortion of sleep and rebound phenomena
14.Specific BZD antagonist available
Mechanism of action:
Barbiturates
Increase in chloride conductance
Potentiates the inhibitory effects of GABA
Increase the DURATION of opening of Cl
-
channel
Binds to specific site on GABA-A receptor
Membrane Hyperpolarization
CNS depression
Barbiturates
Increase in chloride conductance
Potentiates the inhibitory effects of GABA
Increase the DURATION of opening of Cl
-
channel
Binds to specific site on GABA-A receptor
Membrane Hyperpolarization
CNS depression
GABA
A
- BZD receptor Cl
-
channel complex
A
- BZD receptor Cl
-
channel complex
GABA mimetic action (high conc.)
↓ glutamate induced neuronal transmission
↓ glutamate induced neuronal transmission
Pharmacological actions - barbiturates
CNS:
Sedation & hypnosis
Anesthesia (higher doses)
Anticonvulsant effect (sub hypnotic doses)
Hyperalgesia
Respiratory system
Respiratory depression
CNS:
Sedation & hypnosis
Anesthesia (higher doses)
Anticonvulsant effect (sub hypnotic doses)
Hyperalgesia
Respiratory system
Respiratory depression
SLEEP
NREM
(1,2,3,4)
REM
NREM
(1,2,3,4)
REM
NREM
(1,2,3,4)
REM
Natural
sleep
BZD
induced
Barbiturate
induced
Sudden
discontinuation
Increased
REM
Nightmares
Night terror
NREM
(1,2,3,4)
REM
NREM
(1,2,3,4)
REM
NREM
(1,2,3,4)
REM
Natural
sleep
BZD
induced
Barbiturate
induced
Sudden
discontinuation
Increased
REM
Nightmares
Night terror
Uses- Barbiturates
1.Epilepsy: Phenobarbitone
2.Anaesthesia: Thiopentol sodium
3.Kernicterus
4.Narcoanalysis
5.Sedation & hypnosis
6.Pre-anesthetic medication
1.Epilepsy: Phenobarbitone
2.Anaesthesia: Thiopentol sodium
3.Kernicterus
4.Narcoanalysis
5.Sedation & hypnosis
6.Pre-anesthetic medication
Adverse effects - barbiturates
Hangover
Mental confusion, impaired
performance and judgement
Idiosyncrasy
Hypersensitivity
Hangover
Mental confusion, impaired
performance and judgement
Idiosyncrasy
Hypersensitivity
Tolerance & dependence - Barbiturates
Develops on repeated administration
Psychological & physical dependence – abuse
Withdrawal symptoms
Anxiety, restlessness, abdominal cramps,
Hallucination, delirium & convulsions
Develops on repeated administration
Psychological & physical dependence – abuse
Withdrawal symptoms
Anxiety, restlessness, abdominal cramps,
Hallucination, delirium & convulsions
Acute barbiturate poisoning
Drug automatism
Manifestation- CNS depression, shallow resp., CV
collapse, renal failure, pulmonary complications, bullous
eruptions
Treatment:
Gastric lavage - activated charcoal
General supportive measures – A B C
Forced alkaline diuresis (Na bicarbonate1meq/kg IV +- mannitol)
Haemodialysis
Drug automatism
Manifestation- CNS depression, shallow resp., CV
collapse, renal failure, pulmonary complications, bullous
eruptions
Treatment:
Gastric lavage - activated charcoal
General supportive measures – A B C
Forced alkaline diuresis (Na bicarbonate1meq/kg IV +- mannitol)
Haemodialysis
Contraindications- Barbiturates
1.Acute intermittent porphyria
2.Liver and kidney disease
3.Severe pulmonary insufficiency
1.Acute intermittent porphyria
2.Liver and kidney disease
3.Severe pulmonary insufficiency
Drug interactions - Barbiturates
1)Enzyme induction ↓ effectiveness– warfarin, tolbutamide, OCP,
2)CNS depressants- opioids, alcohol– additive action
3)Sodium Valproate – ↑ plasma conc. of phenobarbitone
1)Enzyme induction ↓ effectiveness– warfarin, tolbutamide, OCP,
2)CNS depressants- opioids, alcohol– additive action
3)Sodium Valproate – ↑ plasma conc. of phenobarbitone
NON- BENZODIAZEPINE HYPNOTICS:
Zolipidem, Zopiclone, Zoleplon
Binds selectively to Benzodiazepine receptors
Facilitates GABA mediated neuronal inhibition
CNS depression
Zolipidem, Zopiclone, Zoleplon
Binds selectively to Benzodiazepine receptors
Facilitates GABA mediated neuronal inhibition
CNS depression
Produces Hypnotic effect with minimal anticonvulsant
and muscle relaxant properties
It produces natural sleep without alteration of REM
sleep.
Minimal hangover effects
Short duration of action
Less likely to produce Tolerance and dependence
and muscle relaxant properties
It produces natural sleep without alteration of REM
sleep.
Minimal hangover effects
Short duration of action
Less likely to produce Tolerance and dependence
Short acting agentsLong acting agents
Preferred in patients with sleep
onset insomnia
No REM suppression
Less hangover
Less tolerance and dependence
Less respiratory depression
Preferred in patients with daytime
anxiety, who can tolerate sedation
on next day and with depression.
Disadvantages:
Early morning awakening
Rebound anxiety
Amnesic episodes
Disadvantages:
Next day confusion
Cognitive impairment on next day
Delayed cognitive impairment
Preferred in patients with sleep
onset insomnia
No REM suppression
Less hangover
Less tolerance and dependence
Less respiratory depression
Preferred in patients with daytime
anxiety, who can tolerate sedation
on next day and with depression.
Disadvantages:
Early morning awakening
Rebound anxiety
Amnesic episodes
Disadvantages:
Next day confusion
Cognitive impairment on next day
Delayed cognitive impairment
NMDA receptor
(N-methyl-D-aspartate)
Mediate slow excitatory responses
Long term adaptive changes in the brain
Normal stimulation – learning and memory(synaptic
plasticity)
Over stimulation – excitotoxicity in brain
(neurodegenaration and apoptosis
(N-methyl-D-aspartate)
Mediate slow excitatory responses
Long term adaptive changes in the brain
Normal stimulation – learning and memory(synaptic
plasticity)
Over stimulation – excitotoxicity in brain
(neurodegenaration and apoptosis
NMDA receptor BLOCKERS
Ketamine: IV general anesthetic
Phencyclidine: Psychedelic drugs
Memantine: Alzheimer's disease
Topiramate and Felbmate: Anti epileptic drugs
Ketamine: IV general anesthetic
Phencyclidine: Psychedelic drugs
Memantine: Alzheimer's disease
Topiramate and Felbmate: Anti epileptic drugs
5-HT RECEPTORS
5-HT
5-HT
1
5-HT
2
5-HT
3
5-HT
4 5-HT
5-7
1a
1b
1d
2a
2b
2c
5-HT
5-HT
1
5-HT
2
5-HT
3
5-HT
4 5-HT
5-7
1a
1b
1d
2a
2b
2c
1Selective Serotonin uptake inhibitors
Citalopram
Escitalopram
Fluoxetine
Fluoxamine
Sertraline
SSRIs
antidepressants
Citalopram
Escitalopram
Fluoxetine
Fluoxamine
Sertraline
SSRIs
antidepressants
5-HT 1A Partial agonists
Buspirone
Gepirone
Ipsapirone
Anxiolytic drugs
5-HT 1D Partial agonists
Sumatriptan
Naratriptan
Zolmitriptan
Rinzatriptan
Migraine drugs
3
4
Buspirone
Gepirone
Ipsapirone
Anxiolytic drugs
5-HT 1D Partial agonists
Sumatriptan
Naratriptan
Zolmitriptan
Rinzatriptan
Migraine drugs
3
4
5-HT 2A, 2C antagonists
CLOZAPINE
OLANZAPINE
RESERPIDONE
ARIPIPRAZOLE
ZIPRASIDONE
NEWER
ANTIPSYCHOTIC
DRUGS
METHYSERGIDE
CYPROHEPTADINE
PROPHYLAXIS OF
MIGRAINE
5
CLOZAPINE
OLANZAPINE
RESERPIDONE
ARIPIPRAZOLE
ZIPRASIDONE
NEWER
ANTIPSYCHOTIC
DRUGS
METHYSERGIDE
CYPROHEPTADINE
PROPHYLAXIS OF
MIGRAINE
5
5-HT 3 antagonists
ONDANSETRON
GRANISETRON
DOLOSETRON
ANTIEMETIC DRUGS
6
ONDANSETRON
GRANISETRON
DOLOSETRON
ANTIEMETIC DRUGS
6
5-HT 4 agonists
CISAPRIDE
MOSAPRIDE
METOCLOPRAMIDE
PROKINETIC AGENTS
7
CISAPRIDE
MOSAPRIDE
METOCLOPRAMIDE
PROKINETIC AGENTS
7
Melatonin
It is a mediator that is synthesized from 5-HT in the pineal
gland.
Melatonin receptors are mainly found in the retina
and brain.
Melatonin secretion is high at night and low by day, therefore it
is important in the regulation of circadian rhythm
Melatonin is medicinally used to control “jet-lag”
Ramelteon
It is a mediator that is synthesized from 5-HT in the pineal
gland.
Melatonin receptors are mainly found in the retina
and brain.
Melatonin secretion is high at night and low by day, therefore it
is important in the regulation of circadian rhythm
Melatonin is medicinally used to control “jet-lag”
Ramelteon
Melatonin
Hormone of the pineal gland secreted at night
Synchronizing action – sleep-wakefulness cycle with circadian
rhythm
Treatment of jet-lag, elderly hypnotic dependent insomniacs and
shift workers
RAMELTEON
It is a selective agonist at the MT1 and MT2 R of melatonin
Used in insomnia – difficulty in falling asleep
Hormone of the pineal gland secreted at night
Synchronizing action – sleep-wakefulness cycle with circadian
rhythm
Treatment of jet-lag, elderly hypnotic dependent insomniacs and
shift workers
RAMELTEON
It is a selective agonist at the MT1 and MT2 R of melatonin
Used in insomnia – difficulty in falling asleep
TERIMA KASIH
Tags
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 8,832
- Slides 63
- Favorites 38
- Age 2487 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
32 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
35 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
32 views
14
Fertility awareness methods for women in the society
Isaiah47
30 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
29 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
30 views