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PREMEDICATION DRUGS

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Title: PREMEDICATION DRUGS


1
PREMEDICATION DRUGS
  • DR.SUDHIR
  • MUBARAK AL KABEER HOSPITAL

2
PREMEDICATION- DEFINITION
  • Premedication refers to the administration of
    drugs in the period 1 2 hours before induction
    of anaesthesia

3
OBJECTIVES
  • Allay anxiety and fear
  • Reduce secretions
  • Enhance the hypnotic effects of G.A agents
  • Reduce P.O.N.V
  • Prodcuce amnesia
  • Prevent aspiration
  • Attenuate vagal reflexes
  • Attenuate sympathoadrenal response

4
ALLAY ANXIETY FEAR
  • The best way to do this is by
    non pharmacological means
  • Psychotherapy Reassurance
  • Benzodiazepines- most commonly used drugs

5
BENZODIAZEPINES
  • Anxiolytic
  • Amnesic
  • Hypnotic
  • Sedative
  • Most commonly used premedication drug

6
Mechanism of action- Site
  • Modification of emotional response behaviour
    by suppressing the neuronal activity between
    limbic system and hypothalamus
  • Decrease in alertness and arousal- by depressing
    interaction between limbic system and the RAS
  • Anticonvulsant effect inhibition of amygdaloid
    nuclei
  • Muscle relaxant suppression of polysynaptic
    reflexes in spinal cord ( central acting
    relaxant)

7
Mechanism of action- Mode
  • GABA mediated inhibitory effects
  • GABAA RECEPTORS
  • Cortex Limbic system
  • GABAB brain stem spinalcord Baclofen
  • GABAA RECEPTORS they are mebrane protein
    pentameric structure associated with chloride
    channel
  • Three sububits ? ,ß, ?

8
GABA binding site
Chloride channel
Benzodiazepine binding site
9
GABA binding site
Chloride channel
Benzodiazepine binding site
10
  • Benzodiazepines enhance the efects of GABA on
    GABA receptor
  • Thus they increase the frequency of chloride
    channel opening
  • Channel opening times are unchanged (
    contatrast to barbiturates)
  • Increased chloride ions cause neuronal hyper
    polarisation and thus inhibition
  • Stage 3 sleep is increased
  • Stage 4 sleep and REM sleep decreased

11
Classification
  • Long acting diazepam
  • Medium acting temazepam
  • Short acting - midazolam

12
DRUG Dose (mg) Potency Half life Terminal (hrs) Active Metabol-ites Half lifes metabolites
FLUNITRAZEPAM 1 30 12-20 Y 25-30
TEMAZEPAM 20 1.5 4-10 Y
MIDAZOLAM 10 3 1-3 N
ALPROZALAM 0.5 60 10-12 Y
CHLORDIAZEPOXIDE 20 1.5 5-30 Y
CLONAZEPAM 6 5 20-60 N
DIAZEPAM 10 3 24-48 Y 50-120
LORAZEPAM 1 30 10-20 N
OXAZEPAM 30 1 6-25 N
13
Diazepam
  • Most commonly used
  • Insoulble in water so formulated in propylene
    glycol, which is very irritant to veins.
  • Diazemulus lipid emulsion
  • Bioavailability 100
  • Protein binding 90-95.
  • Dosage
  • Premedication 10-15 mg oral 1- 1.5 hrs preop
  • Sedation- 7-15 mg i.v slowly, increments 1-2 mg
  • Status epilepticus- 2mg every minute , max 20 mg
  • Intensive care- not for infusion 5-10mg 4th
    hourly

14
50 120 hrs
4-10 hrs
6-25 hrs
15
Midazolam
  • Imidazo benzodiazepine derivative
  • It is this imidazole ring which imparts water
    solubility at pH lt 4
  • At blood pH, drug becomes lipid soluble due to
    ring closure and penetrates brain rapidly in 90
    seconds peak effect 2- 5 mins
  • Bioavailability 44
  • Hepatic elimination( liver blood flow)
  • Hydroxy-midazolam- active metabolite 1 hr-
    clinically important only after prolonged
    infusion in renal failure

16
  • Midazoalm is 1.5 -2 times more potent than
    diazepam ( ? )
  • Dosage
  • Premedication 15mg oral or 5mg I.M,nasal drops
  • Sedation 2-7mg I.V incre 0.5 1 mg
  • Status epilepticus not recommended ( ? )
  • Intensive care 0.03 -0.2 mg/kg/hr

17
Ring open
Ring closed
18
  • LORAZEPAM
  • Longer duration(10-20 hrs)
  • DOC liver failure
  • CLONZEPAM
  • Can be used in status epilepticus
  • Seizure adjuvant
  • FLUMAZENIL
  • Competetive antagonist, reverses all effects
  • Has slight intrinsic agonist property so can
    precipitate seizures ( INVERSE AGONISM )
  • Short half life 1 hr, may need repeated
    injections or infusion
  • 0.2 mg ,then 0.1 mg increments ( dont exceed 3
    mg)

19
PHENOTHIAZINES
  • They produce the following effects
  • Central antiemetic action
  • Sedation
  • Anxiolysis
  • H2 receptor antagonism
  • ? adrenergic anatagonism
  • Anticholenergic properties
  • Potentiation of opiod analgesia
  • Side effects extrapyramidal effects
  • Promethazine trimeprazine ( children)

20
ANTIMUSCURANIC DRUGS
  • Used for there
  • Antisialogue action
  • Avoid bradycardia due to
  • anaesthetic agents
  • surgical stimulus( occulocardiac reflex,
    mesenteric traction)
  • ? blocked or digitalised patients
  • Intermittent suxamethonium
  • Avoid reflex bronchospasm ( COPD)
  • Children ( vagal predominance)
  • Disadvantages
  • Dry mouth ,palpitations, arrthymias, blurred
    vision
  • Central anticholergic syndrome

21
ATROPINE HYOSCINE
Dose 0.6mg 0.4mg
potency 1 2
Duration 1-1.5hrs 1-1.5hrs
CNS Central anticholenergic syndrome Yes -excitatory Yes- depression Motion sickness,vestibular disorders
Tachycardia More (initial bradycardia- partail agonist- M2 receptors less
Antisialogue less more
Bronchodilatation More less
Physiological dead space more less
Mydriasis Less More(cycloplegia)
22
  • GYCOPYRROLATE
  • Synthetic antimuscuranic drug
  • Ionised quaternary amine so doesnot cross BBB
    placenta
  • Prolonged duration of action- 6hrs
  • No or Less tachycardia
  • Ideal for cardiac patients ( IHD)
  • Pupillary and other changes minimal
  • Antisialagogue action more
  • Dose 0.1 0.4 mg

23
a2 RECEPTOR AGONISTS
  • Action they decrease noradrenaline release in
    both central and peripheral symp. N.
  • CNS
  • tractus solitarius hypotension bradycardia
  • Locus coerulus sedation
  • Vagal nuclei
  • Spinal supraspinal level(non opioid) -
    Analgesia
  • Peripheral
  • Decrease cardiac rate
  • Decrease smooth muscle tone
  • Increase coronary blood flow
  • Induce diuresis
  • Platelet aggregation

24
Anaesthesia - a2 agonists
  • Decrese MAC requirements
  • Attenuate sympathoadrenal responses associated
    with intubation and surgery
  • CLONIDINE( 100-300 mics orally)
  • DEXMEDETOMEDINE
  • AZEPEXOLE
  • Side effects dry mouth, sedation,depression,
    bradycardia, rebound hypertension

25
Other drugs
  • NSAIDS
  • Diclofenac
  • Ketorolac
  • TAM mixture children
  • ( trimeprazine,atropine,mefenamic acid)

26
  • ANTIEMETICS
  • ANTACIDS
  • NEXT CALSSES

THANK YOU
27
  • 8. Atropine
  • a) may cause bradycardiab) dilates the pupil in
    premedicant dosec) has a shorter duration of
    action than glycopyrrolated) increases the
    physiological dead spacee) has both muscarinic
    and nicotinic effects

28
  • TTTTF

29
  • Flumazenil
  • a) may induce panic attacks in susceptible
    patientsb) has anticonvulsant activity in
    patients with epilepsyc) has a long duration of
    actiond) may cause nausea and vomitinge) has
    inverse agonist action at benzodiazepine receptors

30
  • TFFTT

31
  • Glycopyrrolate
  • a) can act at central cholinergic receptorsb)
    can increase the physiological dead spacec) can
    dilate the pupild) is equally effective when
    given orallye) is five times more potent as an
    antisialagogue than atropine

32
  • FTTFT c) hence use with caution in glaucoma.

33
  • Midazolam
  • a) is an anticonvulsant b) is lipid soluble at
    physiological pH c) has no active metabolites
    d) has an elimination half-life of 2-4 hours e)
    can be administered as nasal drops for
    premedication  

34
  • TTFTT

35
  • Hyoscine
  • a) causes tachycardiab) causes sedationc)
    causes mydriasisd) is an antiemetice) has a
    weaker antisialagogue effect than atropine

36
  • TTTTF

37
  • Hyoscine hydrobromide causesa) antiemesisb)
    somnolencec) pupillary dilatationd) tachycardia
    followed by bradycardiae) extrapyramidal
    symptoms

38
  • TTTTF

39
  • Chlorpromazinea) can cause dystonic
    reactionsb) antagonises apomorphine-induced
    vomitingc) is a dopamine antagonist at the
    chemoreceptor trigger zoned) is a weak
    alpha-adrenergic agoniste) undergoes extensive
    first-pass metabolism

40
  • TTTFT

41
  • Clonidinea) is an alpha-2 receptor agonistb)
    is a dopamine antagonistc) causes tachycardiad)
    inhibits salivatione) reduces the minimum
    alveolar concentration of halothane 

42
  • TFFTT
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