Post on 22-Feb-2016
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Local anaesthetics
Dr JM Dippenaar2013
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Local anesthetic drugs
Amides Esters
Lignocaine
Bupivacaine
Ropivacaine
Levobupivacaine
mepivacaine
Cocaine
PABA esters
Procaine
Chloroprocaine
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Local anesthetic drugs
Amides Esters
Liver metabolism
Pseudocholine esterase
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Local anesthetic drugs
Lignocaine
Cocaine
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Local anesthetic drugs
Bupivacaine
Ropivacaine
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Chemical & physical characteristics
Lipid solubility = potency ∝ onset of actionpKa ∝ onset of action
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pKa
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Chemical & physical characteristics
Lipid solubility = potency, ∝ onset of actionpKa ∝ onset of actionProtein binding = duration of actionIsomerism – Left turning=↑ duration, potency,↓ toxicityLocal factors (inject)– spinal, subcostal (faster) vs. peripheral, epidural (longer) etcNerve anatomy Diameter, myelinated or not, activity
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Physico-chemical propertiesDrug Lipid
solubilitypKa Protein
bindingPotency
Lignocaine 2.9 7.7 64 4
Bupivacaine Levo-bupiva
27 8.18.1
95.594.3
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Ropivacaine 25 8.1 94. 16
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Mechanism of action
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Mechanism of action
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Mechanism of action
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Mechanism of action
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Mechanism of action
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Mechanism of action
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Cocaine
Ester derivativeIntense vasoconstrictionIndirect sympathomimetic
Release NABlock reuptake of NA and dopamine
S/EEuphoria, paranoia, seizuresHypertension, tachycardia
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Prilocaine
Emla cream:Eutetic Mixture of Local AnaestheticAdded to lignocaine in equal quantitiesChanges the melting point of the drugsSkin analgesia within 60min
S/E: Methaemoglobinaemia
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Lignocaine
Amide, pKa = 7.7Low lipid solubilityMetabolism:
Liver 99% (1% unchanged via kidneys)CYP 2D6 and 3A4Monoethylglycinexilidide (MEGX)
Active metaboliteAdditive to CNS side effects
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Bupivacaine
pKa 8.1Slow onset of action
Very potentHighly lipid soluble
Long duration of actionCVS toxicity
Refractory ventricular fibrillation
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Lignocaine vs bupvacaine
Drug Lignocaine Bupivacaine
Potency 4 16
Onset Short Prolonged
Duration Short Prolonged
Protein binding 64% 95%
Toxicity CNS CVS
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Additives to bupivacaine
Glucose80mg (8%) added to 'spinal bupivacaine'
Increase the baricity of bupivacaineHeavier than CSFGravitates to lower spinal regionsSmaller dose for denser block
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Additives to local anaesthetic
Vasoconstrictor = AdrenalineDecreased absorptionIncreased safe doseIncreased duration of action
Opioids = morphine, fentanyl, sufentanilNeuraxial = morphine vs fentanylIncreased duration of action
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Additives to local anaesthetic
Alkalinize = NaHCO3Increased non-ionized fractionFaster onset of actionPrecipitation of adrenaline - no premix!
Anticholinergics = NeostigmineA2-agonist = colonizing, dexmedetomidine
Denser sensory blockProlonged duration of action
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Dosage
Lignocaine = 1% ↓1g in 100ml ↓1000mg in 100ml ↓10 mg/ml
Bupivacaine = 0.5% ↓0.5g in 100ml ↓500mg in 100ml ↓5mg/ml
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Maximum dose for infiltration
Lignocaine3-4mg/kg without adrenaline7mg with adrenaline
Bupivacaine / L-bupivacaine2mg/kg irrespective of adrenalineMaximum of 150mg
Ropivacaine2mg/kg irrespective of adrenaline
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Dosage calculation
Child of 20kg for suture laceration. How many mls of 0.5% bupivacaine with adrenaline may he receive?Toxic dose with adrenaline = 2mg/kgTotal dose - 20kg x 2mg/kg = 40mgEach 0,5% vial has 5mg/ml of bupivacaine Therefore - 40mg /5mg/ml = 8ml of 0.5% bupivacaine!
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Toxicity: Classification
Local toxicityNeurotoxicityTransient neurological symptoms
MyotoxicitySystemic toxicityCNSCVS
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Systemic toxicity
Intravascular injection Increased absorption
↑plasma concentration
Distribution Vessel rich organ group
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Toxicity: ↑ absorption
Excessive doseSite of injection Intercostal>caudal>epidural>brachial plexus
Physico-chemical properties↓ Lipid solubility }↓ Protein binding } ↑ absorption↓ Potency }
Vasoconstrictor
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Toxic doses
Lignocaine3-4mg/kg without adrenaline7mg with adrenaline
Bupivacaine / L-bupivacaine2mg/kg irrespective of adrenalineMaximum of 150mg
Ropivacaine 2mg/kg irrespective of adrenaline
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Toxicity
CNS CVS (Lignocaine 7x more) (Bupivacaine 3x more)
Convulsions Refractory ventricular fibrillation
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CNS toxicityInitial phaseCircumoral paresthesia, tinnitus, confusion
Excitatory phaseConvulsions
Depressive phaseLoss of consciousnessComaRespiratory arrest
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CVS toxicity
Initial phaseHypertension, tachycardia
Intermediate phaseMyocardial depression → COHypotension
Terminal phaseVasodilatation, hypotension, bradycardiaConduction defects, dysrhythmias
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Bupivacaine cardiac toxicity
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Toxicity
To ↓ complications due to bupivacaine
RopivacaineLevo-bupivacaine
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Ropivacaine
Amide , pKa = 8.1Lower lipid solubilityMetabolismLiver 99% (1% unchanged via kidneys)CYP 1A2 (fluvoxamine ↓ metabolism 16%)
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Ropivacaine
Biphasic vascular effectLow[ ] = vasoconstrictionHigh [ ] = vasodilatation
Faster dissociation from cardiac Na+ channels than bupivacaineHigher threshold for CNS symptoms
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Ropivacaine: clinical uses
Pain relief: Epidural for labour, post op: 0.2% @6-15ml/hSurgery: 0.75%-1% up to 12ml bolus
Well differentiated blockGood sensory blockadeMuch less motor blockade
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L-bupivacaine
L isomer of bupivacainepKa 8.1As potent as racemic mixture Potentially less CVS toxicityL-isomer less direct cardiotoxic effects
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Rx of toxicity
ConvulsionsBZ ThiopentonePropofol
Ventricular fibrilationBretilium Intralipid®
K+ channel openers
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Rx of toxicity
Ventricular fibrilationBretilium Intralipid®
K+ channel openers
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Bretilium tosylate
Class III anti arrhythmicSlows phase 3 repolarisationProlongs refractory period↓ release of NANot manufactured currently
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K+ channel openers
Pinacidil, bimakalimOpens K+
ATP channelsShorten action potential in Purkinje fibersProlongs plateau phaseHyperpolarise resting membrane potential
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K+ channel openers: side effects
Shorten action potential =↓ Ca++ influxReduced contractility
Excessive coronary vasodilatationCoronary steal with steal prone anatomy
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K+ channel openers
Improve AV conduction ButMyocardial depression
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Intralipid®
Lipid emulsionSoya oilEgg phospholipidsGlycerol
TPN, Propofol↑ effective antidoteBupivacaine induced CVS collapse
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Intralipid® : proposed actions
Lipid sinkDraws Bupivacaine from plasmaDecreased free fraction
High lipid concentrationForced lipid influx into myocyteOverwhelms L-CAT↑ FFA for energy production↑ susceptibility for resuscitation
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