W7 Local Anaesthesia Agents PDF

Summary

This document contains lecture notes on local anaesthetics, specifically focusing on topics such as common local anaesthetics, their properties, pharmacodynamics, pharmacokinetics, vasoconstrictors, and topical anaesthetics. The document also provides information about esters and amides, as well as specific examples of local anaesthetic agents often used in dentistry.

Full Transcript

BOH1 Local Anaesthesia

Local Anaesthetic
Agents

Presented by

Ashleigh Ayo
BOH Discipline Coordinator – Local Anaesthesia
Sydney Dental School

Credits to : Dr Rex Huang

The University of Sydney 2
 COMMONWEALTH OF AUSTRALIA
›
›
Copyright Regulations 1969
› WARNING
›
This material has been reproduced and communicated to you
›
by or on behalf of the University of Sydney pursuant to Part
›
›
›
VB of the Copyright Act 1968 (the Act).The material in this
›communication may be subject to copyright under the Act.
Any further reproduction or communication of this material
by you may be the subject of copyright protection under the
Act.
Do not remove this notice

The University of Sydney 1
We recognise and pay respect to the Elders and
communities – past, present, and emerging – of the
lands that the University of Sydney's campuses stand
on. For thousands of years they have shared and
exchanged knowledges across innumerable
generations for the benefit of all.
 Objective

– To understand the local anaesthetics which are
available and know about their properties

– Topics covered:
– common local anaesthetics and their properties
– pharmacodynamics, and pharmacokinetics of LAs
– effect of vasoconstrictors
– topical anaesthetic

The University of Sydney 3
W7: LA Agents

LEARNING OBJECTIVES/OUTLINE
To understand the local anaesthetics which are available and know about their properties
1. Common local anaesthetics and their properties
2. Pharmacodynamics, and pharmacokinetics of LAs
3. Effect of vasoconstrictors
4. Topical anaesthetic

NOTES

LA AGENTS
Differ by their intermediate chains:
Esters; “one i in the name)
○ Procaine
○ Benzocaine
○ Cocaine
○ Tetracaine
Amides; AMIDES MORE COMMONLY
USED “ 2 i’s in the name”
○ Lignocaine
○ Articaine
○ Mepivacaine
○ Prilocaine
○ Bupivacaine
○ Roprivacaine

ESTERS VS AMIDES
ESTERS

PROCAINE
“Brand name - Novocaine”
Introduced 1905
Slow onset (6-10 mins)
○ High pKa
Short duration (60 mins)
○ Rapid pseudocholinesterase (carboxylesterase) metabolism in plasma (98%)
○ Enables higher dose (10 mg/kg)
○ Short half life
Vasodilating
Problems:
○ Hypersensitivity rxns to inactive metabolite para-aminobenzoate (PABA)
○ Pseudocholinesterase deficiency: cannot break down certain ester
anaesthetics, affecting 1 in 2800-3000 ppl
Abnormally slow metabolism
Risk of methemoglobinemia; not enough O2 circulating w/in blood
Available as 2% w/ no vasoconstrictor, available in 2ml ampoule (40 mg in 2ml)
SUMMARY; Typically NOT USED bc of hypersensitivity & more effective amides
○ Risks causing allergic rxn
○ Amide-linked LAs are:
Relatively stable in solution
Slowly metabolised by hepatic amidases
Hypersensitivity rxns to amide LAs are extremely rare

BENZOCAINE
Used in some topical applications
○ Sore throat lozenges
○ Mouthwash
○ Throat spray
○ Gel, paste
Can also be used for earache, sunburn etc
Overuse of high concentrations have led to methaemoglobinaemia
AMIDES (MOST COMMONLY USED IN DENTISTRY)
NOTE: 5 AND 6 NOT COMMONLY USED
1. Lignocaine
No.1 Gold standard
2% plain or with adrenaline (27.5 mcg)
1:80,000
Half life is 1.5-1.8 hours
○ Takes a couple hours to completely wear off + have feeling
Lignospan Special
2. Articaine
4%
1:100,000 adrenaline
Half life is 1.8 hours (little bit longer)
Septanest
3. Prilocaine
2.2ml OR 1.8ml cartridges
3% w/ or w/o felypressin (vasoconstrictor); generally w/ felypressin
Plain
Half life similar to lignocaine
Citanest
4. Mepivacaine
3% plain
Longer half life of 2-3 hours; raises peak plasma levels (the highest
concentration in the blood after a dose)
Scandonest/Carbocaine
5. Bupivacaine
0.5% plain OR
1:200,000 adrenaline
Half life 1.5-5.5 hours
Long lasting; used for surgeries
6. Ropivacaine
0.5%, 0.75%. 1%
Plain

1. LIGNOCAINE
 MOST WIDELY USED:
○ Consistent
○ Predicable
○ Effective
○ Safe results
Also comes in other concentrations: plain/with vasoconstrictor, in diff. Volumes, in
glass ampules
○ 0.5%-2% for injection
○ 4%-10% for topical anaesthetic

FEATURES
Rapid onset (2-4 minutes), moderate duration
○ pKa 7.8
Allergies extremely rare
90% metabolised in liver (CYP 3A4)
Excreted in urine (90% metabolites, 10% as free drug)
Very few contraindications for use
○ Eg. pt w/ cirrhosis of liver (chronic liver damage); contraindication

2. ARTICAINE

NOT USED FOR BLOCK INJECTIONS; works very well for infiltration (better
than lignocaine)
Safe to use in children over the age of 4
Should not be used during pregnancy (category B3 drug)
Avoid when breastfeeding: pts should not breastfeed for at least 4 hrs
following injection

FEATURES
Similar onset and duration to lignocaine
Metabolised by cholinesterases in plasma (90%)
 ○ Consider use in patients w/ decreased liver function; won't be metabolised by
liver where it will cause stress
90% secreted as articainic acid

3. PRILOCAINE

Less binding affinity to sodium channels vs lignocaine
Prilocaine undergoes biotransformation in liver, kidney and lungs
Orthotolidine is a metabolite produced → can cause methemoglobinemia
Excretion via kidneys
Pregnancy Category A drug
Prilocaine/Felypressin not as effective as Lignocaine/Adrenaline → L/A
first choice is pt has not contraindications

4. MEPIVACAINE

Use in ppl above 4 yo
Maximum dose 6.6mg/kg
Rapid onset and medium duration
No vasoconstrictor → less vasodilator effect → less effective on muscle cells;

5. BUPIVACAINE
 Comes in vials in AUS NOT CARPULES → have to draw it up ourselves
Higher pKa, protein binding, lipid solubility
○ Slower onset
○ Increased duration (soft tissue 8-12 hours+ → won’t use as OHT)
○ More potent than lignocaine
Often used in addition to lignocaine for oral surgery
Greater muscle affinity than lignocaine
○ Higher cardiotoxicity
Half life 1.5-5.5 hours

PHARMACODYNAMICS - EFFECT OF DRUG ON THE BODY

Vasodilation LAs on their own are vasodilators; dilate blood
vessels
Cocaine is only LA which produces a
vaso-constricting effect
Procaine most potent

CNS Depression
Anticonvulsant at low levels; medication used
to prevent or treat seizures (convulsions),
BUT
Can induce seizures at high levels (inhibitory
neurons inhibited)

CVS Decreases excitability of myocardium,
“direct action of local anaesthetics decreases conduction rate (heart rate),
on the heart when they enter the decreases force of contraction
bloodstream in significant Causes hypotension (low blood pressure)
amounts; immediate blocking of
sodium channels”

PHARMACOKINETICS - EFFECT OF BODY ON THE DRUG

Absorption Vasodilation; if no added vasoconstrictor → blood
vessels remain wide open → blood flows freely carrying
LA quickly away from application site:
○ Increases rate of absorption
○ Decreases duration of LA
○ Increases potential for overdose
Rate also depends on vascularity of site; more vascular
area → more absorption → taken away
 Absorbed poorly from GIT
Very well absorbed trans-mucosally (but poorly from intact
skin)

Distribution LA binds to α-1 acid glycoprotein (AAG)
○ AKA orosomucoid, a carrier protein for neutral,
positively charged basic drugs (albumin is carrier
for acidic, negatively charged drugs)
LA is distributed to all tissues once in bloodstream
○ More in highly perfused organs (eg. brain, liver,
kidneys etc.)
○ Less in elderly, medically compromised patients bc
of decreased circulation
Elimination ½ life = time required for a 50% reduction
of drug level w/in blood

Metabolism Esters are hydrolysed in the plasma by
(biotransformation) pseudocholinesterase (P)
○ 1 in 2800 ppl will have some atypical form of P →
can’t metabolise ester LAs in body → issues
Procaine hydrolysed to para-aminobenzoic acid (PABA)
and diethylamino alcohol
○ PABA is an allergen
Amides are primarily metabolised in the liver (except
articaine; plasma)
○ Liver function and hepatic perfusion (hypotension,
congestive heart failure, cirrhosis) can affect blood
levels and toxicity
○ Prilocaine metabolite, orthotoluidine, if left to
accumulate, can produce methemoglobinemia
Prilocaine has some extra-hepatic metabolism (in the
lungs)
Articaine primarily metabolised by tissue and plasma
cholinesterases (95%); the rest in the liver

METABOLIC PATHWAYS!!

EXCRETION
 Both esters and amides are excreted via kidneys w/ small amounts being eliminated
as the parent compound → urine
Kidneys for both LA and metabolites
○ 10% of cocaine found in urine
○
↳
eg pt.

– 90% metabolised in liver (CYP 3A4)

– Excreted in urine (90% as metabolites, 10% as free drug)

– Half life 1.5 - 1.8 hours
[] of LA in bloodstream to reduce by half
time it takes for
hours to completely wear off t have feeling again
trakes couple

The University of Sydney 17
 4 % Sol

1 : 100 000 adrenaline
,

Articaine
not used for block injections
-

infiltration ; works more efficiently for
infiltration than lignocaine
very well for
-works

The University of Sydney 18
 Articaine

– Synthesised in 1969 as “Carticaine”
– Used in Germany since 1975, in Canada since
1983

– Safe to use in children over the age of 4

– Should not be used during pregnancy (category
B3 drug)

– Avoid when breastfeeding: patients should not
breastfeed for at least 4 hours following injection

– Much literature and debate on articaine:
– ‘Superior’ drug to lignocaine
– Lingual and inferior alveolar nerve damage

The University of Sydney 19
 Articaine

– Has been widely adopted in Europe and North America

– Comes as 4% solution with vasoconstrictor (1:100,000
or 1:200,000)

– Similar onset and duration to lignocaine
– Half-life 1.8 hours (little longer
~
bit

be better suited for articaine
articaine is metabolised in
plasma - pt's wo/ liver issues
good thing !; may

of way
it's metabolised , not going through liver +
causing stress

– Metabolised by cholinesterases in plasma (90%)
be

– Consider its use in patients with decreased hepatic function

– 90% excreted as articainic acid
The University of Sydney 20
 Prilocaine

– Manufactured as 2.2ml or 1.8ml
(Euro) cartridges
generally, seen / Gelypressin
~ brand name

f
– Marketed as "Citanest" with or
without felypressin as
vasoconstrictor
& brand name

S
– Less binding affinity to sodium
channels (c.f. lignocaine)

– Half life similar to lignocaine

The University of Sydney 21
 Prilocaine

– Prilocaine undergoes biotransformation in liver, kidney and
lungs

– Orthotoluidine a metabolite: can cause
methaemoglobinaemia

– Excretion via kidneys

– Pregnancy Category A drug
if pt has
first choice
no

- contraindications

– Prilocaine / felypressin not as effective as lignocaine /adrenaline
– Newcomb, G. M., & Waite, I. M. (1972). The effectiveness of two local analgesic preparations in reducing haemorrhage
during periodontal surgery. Journal of Dentistry, 1(1), 37–42.

The University of Sydney 22
 effect/duration

Mepivacaine
added to prolong
generally
be it doesn't
vasoconstrictor t trends to wear off much quicker
delivered plain who
-generally it
have
vasoconstricter in

– Less effect on muscle cells
– Less vasodilator effect
half life
- longer

– Half-life 2-3 hours
– Raises peak plasma levels

The University of Sydney 23
 Mepivacaine

– Other names:
– Carbocaine
– Scandonest

– Rapid onset and medium duration

– Use in people above 4 years of age

– Maximum dose 6.6mg/kg

The University of Sydney 24
 Bupivacaine won't OHT
use as
lasts 8-11 hours ->

it
in Aus NOT carpuses + have to draw up ourselves
Comes in vials

The University of Sydney 25
 Bupivacaine

– *Cannot purchase dental cartridges in Australia
– Need drawing-up needle and syringe

– Higher pKa, protein binding, lipid solubility
– Slower onset
– Increased duration (soft tissue 8-12 hours +)
– More potent than lignocaine

– Often used additional to lignocaine for oral surgery
– Greater muscle affinity than lignocaine
– higher cardiotoxicity
– Half-life 1.5-5.5 hours

The University of Sydney 26
 Pharmacodynamics – effect of drug on the body
As on their own are vasodilators ; dialate blood vessels

- Vasodilation (procaine most potent) constrict blood vessels

– Cocaine only LA which produces vaso-constricting effect
r

don't cocaine

– CNS
↳ we use

– Depression
– Anticonvulsant at low levels
– Can induce seizures at high levels (inhibitory neurons inhibited)
– CVS cardiovascular

– Decreases excitability of myocardium, decreases conduction rate,
decreases force of contraction
Lignocaine (IV) has been used to treat ventricular tachycardia (VT)
- can decrease conduction rate in heart (doesn't happen to everyone

and premature ventricular contractions (PVCs)
– Causes hypotension ; low blood
pressure

The University of Sydney 27
 Pharmacokinetics – effect of body on the drug

– Absorption
no vasoconstrictor-> blood vessels remain wide open
blood flows freely carrying LA quickly away
↑from application site -↑ rate of absorption

– Vasodilation; if no added vasoconstrictor: increases rate of
absorption, decreases duration of anaesthesia and increases
potential for overdose
area to more
vascular

– Rate also depends upon vascularity of site
more

; absorption >
-
taken away

– Absorbed poorly from GIT

– Very well absorbed trans-mucosally (but poorly from intact
skin)

The University of Sydney
 Pharmacokinetics – effect of body on the drug

– Distribution
– LA binds to α-1 acid glycoprotein (AAG)
– AKA orosomucoid, a carrier protein for neutral, +vely
charged basic drugs (albumin is carrier for acidic,
-vely charged drugs)
La once injected is distributed to all tissues once in bloodstream-> Lance CUS CNS
Kidney brain

– LA is distributed to all tissues once in bloodstream
, , ,

erc. effects

– More in highly perfused organs (brain, liver, kidneys
etc)
– Less in elderly, medically compromised patients 3 bc of
circulation
t

– Elimination ½ life = time required for a 50% reduction of
drug level in blood

The University of Sydney
 Pharmacokinetics – effect of body on the drug
– Metabolism (biotransformation) lin
-3000ppI will have some

form of P-s can't metabolise ester
a typical
in

body -> issues
↑

– Esters are hydrolysed in the plasma by pseudocholinesterase (P)

Procaine hydrolysed to para-aminobenzoic acid (PABA) and
diethylamino alcohol

PABA is an allergen

1/2800 people have an atypical form of
pseudocholinesterase
– They will not metabolise ester local aanesthetics and
other esters such as succinylcholine (muscle relaxant)
properly

The University of Sydney 30
 Pharmacokinetics
– Metabolism (biotransformation)

– Amides are primarily metabolised in the liver except (metabolised
articaine
plasma)
in

Liver function and hepatic perfusion (hypotension, congestive
heart failure, cirrhosis) can affect blood levels and toxicity
Prilocaine metabolite, orthotoluidine, if left to accumulate, can
produce methaemoglobinaemia*
Prilocaine has some extra-hepatic metabolism (in the lungs)
Articaine primarily metabolised by tissue and plasma
cholinesterases (95%); the rest in the liver

*Other amides can also cause methaemoglobinaemia

The University of Sydney 31
 Metabolic pathways
exam
?!

Agent Site Enzyme/Process
Lignocaine liver de-ethylation CYP 450

Prilocaine liver/kidneys/lung amidase

Articaine plasma carboxyesterase*

Bupivacaine liver glucuronic acid
conjugation

Procaine plasma cholinesterase*

*this is the same enzyme

The University of Sydney 32
 Excretion

– Both esters and amides are excreted via kidneys with small
amounts being eliminated as the parent compound
& lost in some capacity
in urine

https://secure.i.telegraph.co.uk/multimedia/archive/02766/kidney_2766748b.jpg

The University of Sydney
 Excretion

– Excretion: for dialysis pr contact their renal specialist for safe
pathway

– Kidneys for both the local anaesthetic and metabolites
,
7

– 10% of cocaine found in urine
– < 3% lignocaine present in urine

– Significant renal impairment can result in increased
potential for toxicity
– Eg. dialysis patients
– Glormerulonephritis/polynephritis

The University of Sydney 34
 Additional agents to LA drug
I must
add acid to LA be Lt on its own is fairly clinically insignificant
Buffering agents
– Sodium hydroxide, hydrochloric acid and EDTA etc may
be added to adjust the pH of the solutions (especially if
adrenaline present)
– pH of plain solutions adjusted to between 4-7
– pH of adrenaline containing solutions adjusted to
between 3.5-5
of morth tissue : 7 3-7 4
-

put..

– pH is a prime factor in the burning sensation of LA

The University of Sydney 35
 Additional agents to LA drug

Antioxidant
– Commonly sodium metabisulfite

– Prevents oxidation of vasoconstrictor
– Also tends to lower the pH
this
patients may
be allergic to

– The addition of adrenalin and sodium metabisulfite
lowers the local anaesthetic solution pH, resulting in a
slower onset of action and increased ‘burning’ sensation
during injection

The University of Sydney 36
 Additional agents to LA drug

Sodium chloride
– To adjust the solution to make them isotonic

The University of Sydney 37
 What about
vasoconstrictors?
vaso-activity of any LA influences :

of LA
-

potency
-
duration of action

https://3fybkfrr10x3tgp41p45lr3a-wpengine.netdna-ssl.com/wp-content/uploads/2016/01/cold.jpg

The University of Sydney 37
 Vasoconstrictors

– All amide local
anaesthetics are
vasodilators

– Vasoconstrictors are
added to
– counter effects of
vasodilation

(
– slow local absorption of
drug ! increase
duration of action !
reduce toxicity be won't >
-
have
“Local Analgesia in Dentistry”, Roberts & Sowray 3rd ed.
to
give as much LA

:. LA is where we injected it/ where we want it

The University of Sydney 39
 Dentistry without a vasoconstrictor

– Paterakis, K., et al. (2018). "Efficacy of epinephrine-free articaine compared to
articaine with epinephrine (1:100 000) for maxillary infiltration, a randomised
clinical trial." J Oral Rehabil 45(6): 467-475.

– Duration of anaesthesia: longer with vasoconstrictor
– Recovery of sensation: faster without vasoconstrictor
– Pulpal anaeshtesia was more reliable with articaine and vasoconstrictor
– Soft tissue anaesthesia was deeper and longer when epinephrine was used

–“Epinephrine-containing articaine delivers a longer, more effective anaesthesia and is
preferable for caries treatments and longer invasive treatments of the soft tissue.”

– “A pain-free treatment of the soft tissue up to 15 minutes can be
performed under the vasoconstrictor-free anaesthetic without causing
long-lasting numbness.”

The University of Sydney 40
 Adrenaline (epinephrine)

– Acts on alpha, beta receptors
– CVS: "Think adrenaline in
Sight/flight"
peripheral vasoconstriction
increases rate and force of contraction of myocardium ; hear
dilation of coronary vessels
i
a
harder
increase in blood pressure

– Respiratory:
Potent bronchodilator (smooth muscle) j open Lung airways-pf
breathe
– CNS: not a potent stimulator
– ‘There are no absolute contraindications to the use of vasoconstrictors
in dental local anaesthetics, since epinephrine is an endogenously
produced neurotransmitter.’ inamorale produce it all be
– Pallasch TJ, Vasoconstrictors and the heart. J Cal Dent Assoc 26:668-76, 1998. time -

Cavitriny be allergic uxu

The University of Sydney 41
 Felypressinof adrenaline
form
Syndic

– Synthetic analogue of vasopressin (antidiuretic hormone, released
from posterior pituitary)

wa
– No direct effects on myocardium used pr
on a... can be
heart issues

– Can cause coronary artery spams, (constriction) leading to angina, if
given intravenously
in
-
Won't use pregnancy
- Vasopressin derivative related to oxytocin
- ? induce premature labour - theoretical risk (avoid in pregnancy)

– No evidence that felypressin is safer than adrenaline loter than it
doesn't have effect on
myocardion)

– Scully's Medical Problems in Dentistry (Seventh Edition) 2014, Pages 51-96
– Bronzo, A. L. A., Cardoso, C. G., Ortega, K. C., & Décio, M. (2012). Felypressin increases blood pressure during dental
procedures in hypertensive patients. Arquivos Brasileiros de Cardiologia. h

The University of Sydney 42
 Adrenaline injected into the blood stream could
result in:

– Adverse reactions include, palpitations, tachycardia,
arrythmias, anxiety, headache, tremor, hypertension

– Increased oxygen demands on myocardium
– increased heart rate and contractility

– Effect usually lasts for a few minutes

The University of Sydney 43
Topical anaesthetics

https://www.therecoveryvillage.com/wp-content/uploads/2019/05/CveF_u68.jpeg

The University of Sydney 44
 Topical anaesthetics

– Penetrates mucous membranes, not intact skin*

– Depth of penetration ~2-3mm
of needle in
enough getlip
I just to

get that pain
to away

– Ingredients:
– Benzocaine
– Lignocaine of

– Prilocaine 3
combination
one we generally use is a

nese 2

– Unflavoured topical has a bitter taste - have suction

- shir parch
* Except for EMLA (lignocaine/prilocaine mixture, non-ionised base form)
Lastof scope
The University of Sydney 45
 Topical anaesthetics - available

– Topical applicators
– “Oraqix”
– “Cetacaine”

–

Lee, H.-S. (2016). Recent advances in topical anesthesia. Journal of Dental Anesthesia and Pain Medicine, 16(4), 237.
https://doi.org/10.17245/jdapm.2016.16.4.237
The University of Sydney 46
 > binds vi Saliva -
mucosa
-

ointment on

Topical anaesthesia gen runnue
Unrowr
goes to back of pr

-

ointment/adhesive
Soi

– Xylocaine 5% Ointment
– 5% lignocaine ↑ Adheres huoor
– Need to apply to dry mucosa for any topical LA

– Does not work on intact skin
– Onset of action 3-5 minutes
– Duration of action 15-20mins

The University of Sydney 47
 “Oraqix”
-ligoid very runny ; can't
ointment inho
ger an

solcus
, space
not
big enough - blunt lip

– Lignocaine 25mg/g
– Prilocaine 25mg/g

– Intrasulcular - warning: do not inject! workingirona :

– Liquid which gels at body temperature
– Use: apply to periodontal sulcus prior to scaling/cleaning
– Onset 30s
– Duration 17-20mins

– Friskopp et. al. J Clin Periodontol. 2001 May;28(5):453-8. The anesthetic onset and duration of a
new lidocaine/prilocaine gel intra-pocket anesthetic (Oraqix) for periodontal scaling/root planing.
won't numb effective
pup won't get DEEP be
-

,
to
ovely
The University of Sydney
 4 main :

or/or wo adrenaline
I.

Lignocaine
Arlicaine we adrenaline
2..
3 mepivicaine (plain)
4. Prilocaine
w/ felypressin

Ashleigh Ayo
Lecturer – Discipline of Oral Health
Sydney Dental School
Faculty of Medicine and Health
University of Sydney
[email protected]

[email protected]