CNS depressants
description
Transcript of CNS depressants
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CNS depressants CNS depressants LAB 2
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SOME DRUGS THAT EFFECT CNS
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StimulantsDepressants
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A stimulant is a drug that speeds up activities of the CNS
A depressant is a drug that slows brain and body reactions
Stimulants increase Depressants decrease
HR
BP
RRRelax muscle tensionLower alertness Cause drowsiness
Increase Motor Activity.Increase Alertness.Decrease need for Sleep
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Mild CNS
Moderate CNS
Severe CNS
• Inability to focus• Decreased interest in
surroundings,
• Decreased perception of heat or cold
• Sleep• Drowsiness
• Respiratory failure• Coma, loss of reflexes,• Unconsciousness
• Decreased fatigue• Mental alertness, • Wakefulness,
• Insomnia• Nervousness,• Excessive talking,• Hyperactivity,
• Cardiac dysrhythmias• Seizures, • Confusion,
Depressants St
imul
ants
Low dose
Over dose
Higher dose
increase dose
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Classification on CNS depressant (pharmacological action)
1. General Anesthetics 2. Tranquilizer3. Sedative-Hypnotic Drugs 4. Skeletal muscle relaxants 5. Antiseizure 6. Some types of Antihistamine 7. Opioid and Alcohol 8. Miscellaneous
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GABAIs inhibitory neurotransmitter. Is present throughout the CNS, including the spinal cord.
GABA Receptors
GABA A GABA B
Ligand-gated ion channel (ionotropic receptors)
Metabotropic receptors
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Hyperpolarization of membrane
CI -CI -
CI -
CI -
CI -CI -
CI - CI -
↑ Cl- conductance
GABA A ( Chloride ion channel)
Prevent action potential
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General Anesthesia
• Is characterized by five primary effects : 1. Unconsciousness 2. Amnesia 3. Analgesia 4. Inhibition of autonomic reflexes 5. Skeletal muscle relaxation.
None of the currently available anesthetic agents when used alone can achieve all five of these desired effects
The modern practice of anesthesiology relies on the use of combinations of IV and inhaled drugs
(balanced anesthesia techniques)
To take advantage of the favorable properties of each agent while minimizing their adverse effects
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General anesthetics
Inhaled
Gas (nitrous oxide)
Volatile liquids (halothane)
IV
Barbiturates(thiopental)
Benzodiazepines (midazolam)
Opioids (fentanyl)
Dissociative (ketamine)
Miscellaneous (etomidate, propofol)
MOA of Inhaled anesthetics, barbiturates, benzodiazepines, etomidate, and propofol are facilitate GABA-mediated inhibition at GABAA receptors.
Its antagonism of the action of
glutamic acid on the NMDA receptor
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Sedative-Hypnotic Drugs Sedation : reduction of anxiety Hypnosis : induction of sleep Sedative = anxiolytic = antianxiety = minor tranquilizer : a drug that reduce anxiety
Increase dose of sedative that will lead to hypnosis
Clinical use of Sedative-Hypnotic Drugs 1. Anxiety2. Sleep disorder 3. Antiseizure 4. Anesthesia protocol
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Sedative-hypnotics
Benzodiazepine
Short action Intermediate action
Long action
Barbiturates
Intermediate action
Ultra-short action Short action
Long action
Miscellaneous agent
Chloral hydrate ….etc.
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Increase Sedative-hypnotic Dose
CN
S e
ffect
s
Possible selective anticonvulsant and muscle-relaxing activity
Sedation
Hypnosis
(Benzodiazepines)
Anesthesia
Medullary depression
(Barbiturates) Coma
Relationship between dose of benzodiazepines and barbiturates and their CNS effect
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Tranquilizer • They are drugs which used to relieve mental anxiety and
stress without affecting the consciousness
Major tranquilizer = Antipsychotic
Example Chlorpromazine (CPZ)
MOA : Work by blocking dopamine (D 2 )receptor.
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Work lab • To demonstrate the effect of different types of CNS
depressants as : - Hypnotics. Phenobarbital - Sedatives. Chloral hydrate (at sedative dose) - Tranquilizers. CPZ
To learn how to distinguish between their signs if they
are given as unknown drugs.
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Righting reflex
If it’s lost Righting reflex ------- - ve
If it isn’t lost Righting reflex ------- +ve
righting reflex the ability of the mice to assume an optimal position when there has been a departure from it.
Is widely used to screen compounds with sedative properties
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1- Phenobarbital • Hypnotic drug• Long acting: ( 6-8 hours): After injection of Phenobarbital we can observe : Loss of righting reflex ( -ve)
2- chloral hydrate • Sedative drug • When the dose increased they will induce sleep. • Trichloroethanol is the active metabolite of chloral
hydrate . • Trichloroacetic acid is the toxic metabolite . After injection of chloral hydrate we can observe : NO loss righting reflex (+ve)
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CPZ• After injection of CPZ we can observe signs such as:• No loss of righting reflex (+ ve) • Ataxic gait: loss of muscle coordination .• Catalepsy : rigid body• Creeping gait
• Grasping test (CPZ): When you trying to put the mice on the cord, the mice will fall down
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Calculate the dose Type Example Conc (g%) Dose (mg/kg)
Hypnotic Phenobarbital 2% 200
Sedative Chloral Hydrate 3% 150
Tranquilizer Chlorpromazine 0.2% 40
Injection volume = Dose (mg/Kg) x Body weight in Grams
Conc. g% x 10000
= xxxxx ml
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CPZ
Chloral hydrate
Phenobarbital
Test and sign
Righting test + ve
Righting test - ve
Righting test - ve Ataxic gaitCatalepsy
Creeping gaitGrasping test