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Local anesthetics: agents, actions,

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Title: Local anesthetics: agents, actions,


1
Local anesthetics agents, actions,
misconceptions
  • John Butterworth, MD
  • Professor Head
  • Section on Cardiothoracic Anesthesiology
  • Wake Forest University School of Medicine
  • Winston-Salem, North Carolina

2
Local anesthetics agents, actions,
misconceptions
  • History and general considerations
  • Na channels, cellular electrophysiology, local
    anesthetic actions
  • General characteristics of local anesthesia
  • LA pharmacokinetics
  • LA toxicity
  • Summary

3
History of local anesthesia-1
  • Cocaine use dated to 2000 BC
  • Incas believed coca a gift from the Sun god Manco
    Capac available only to aristocracy
  • 1500s Spaniards seize plantations pay workers
    with coca paste
  • Coca mixed with corn starch or guano, chewed with
    lime or ash first example of free basing
  • Coca use described by explorer Amerigo Vespucci
    (1505)
  • Monardes brings coca leaves back to Europe
    (1580) fails to achieve popularity of tobacco

Erythroxylon coca
4
History of local anesthesia-2
  • Cocaine HCl isolated by Albert Niemann (1860)
  • Merck produces 0.25 lbs cocaine (1862)
  • Koller and Gartner report local anesthesia (1884)
  • Merck produces 3179 lbs (1884) 158,362 lbs
    (1886)
  • Pemberton introduces Coca-Cola (1886)
  • Procaine (1905?)
  • Dibucaine (1929)
  • Lidocaine (1944)
  • Bupivacaine (1963)

Carl Koller
5
Local anestheticsamides vs. esters
  • Common structure
  • Aromatic ring
  • Tertiary amine
  • Alkyl chain
  • Linking bond
  • Amide bond (see lidocaine)
  • Ester bond (see procaine)

Lidocaine
Procaine
6
Local anesthetics agents, actions,
misconceptions
  • History and general considerations
  • Na channels, cellular electrophysiology, local
    anesthetic actions
  • General characteristics of local anesthesia
  • LA pharmacokinetics
  • LA toxicity
  • Summary

7
Membrane potentials andionic currents in nerve
  • Resting potential
  • Characteristic of living cells (-70 mV) arises
    from NaK-ATPase and K leak
  • Action potential
  • Na currents elicited by depolarization
  • Rapidly terminated by Na channel inactivation (K
    channels unneeded for repolarization)

Frog muscle
(A) FROG MUSCLE 5C
EM
70
INa
2 mA/cm2
2 ms
-10
(B) FROG NODE 5C
70
10 nA
2 ms
-30
8
Structural characteristicsof Na channels
  • 1 larger ? subunit (260 kD) (has ion conducting
    path)
  • 1 or 2 smaller ? subunits (35 kD)
  • All subunits are heavily glycosylated

Physiol Rev 199272S15-S48 Ann Rev Biochem
19956493-531 Biophys J 2000791379-87
9
Inactivation gating in D3-D4 link LA binding in
D1-S6 and D4-S6. From Catterall Mackie Ch 15,
p334. Goodman Gilman 9th Edition, 1996
? subunit has 4 domains, each with 6 membrane
spanning ?-helixes (S1-S6)
10
Na channels, local anesthetics, and local
anesthesia
Na channels in Ranvier node
  • Local anesthesia
  • occurs when LAs
  • bind sufficient Na
  • channels to prevent
  • impulse conduction
  • Na channel distribution, impulse conduction, and
    local anesthesia differ for myelinated vs.
    unmyelinated nerves

Black et al. Proc R Soc Lond B 198923839-51
11
Na channel conformations
  • 3 Na channel forms resting, open, inactivated
    (deduced by Hodgkin Huxley in 1952!)
  • Na currents arise when Na ions pass through open
    Na channels
  • LA binding favored by
  • Depolarizing potentials (voltage-dependence)
  • Open or inactivated forms of Na channels
  • More frequent depolarizations (use- or
    frequency-dependence)

12
Use-dependent block of cardiac Na channels by LAs
Control
Control
QX222 0.5 mM
QX222
Hanck et al. J Gen Physiol 199410319-43
13
Tetrodotoxin (TTX) binds Na channels selectively
  • Squid axons have both Na currents (early, inward)
    and K currents (later, outward)
  • TTX inhibits only Na (early, inward) currents
  • TTX has greater affinity and selectivity for Na
    channels than LAs

(A) Time (ms)
0
5
10
I(nA)
10
0
Control
-10
(B)
300 nM TTX
14
  • Tetrodotoxin (TTX)
  • Fugu sushi a delicacy, but contains TTX
  • Chefs undergo a long apprenticeship to reduce
    fatalities
  • Nevertheless, 5-10 Japanese die each year of TTX
    intoxication from fugu

15
Adaptation to TTX a coevolutionary arms race
with toxic newts
  • Garter snakes (Thamnophis sirtalis) have a taste
    for newts (Taricha granulosa)
  • T. granulosa skin contains TTX bad for most
    snakes!
  • Some T. sirtalis species are resistant to TTX
  • Evolution to a future of risk free fugu sashimi?

T. sirtalis
T. Granulosa
Geffeney. Science 20022971336-9
16
Local anesthetics agents, actions,
misconceptions
  • History and general considerations
  • Na channels, cellular electrophysiology, local
    anesthetic actions
  • General characteristics of local anesthesia
  • LA pharmacokinetics
  • LA toxicity
  • Summary

17
Why my appreciation for LAs increased on 2 July
2002
18
General characteristics of local anesthesia
  • LA potency
  • LA speed of onset
  • LA duration of action
  • Tendency of LA to produce differential block

19
Potency vs. lipid solubility of procaine,
lidocaine, and etidocaine
  • More potent (Pot) LAs tend to be more lipid
    soluble (Sol)
  • Greater octanol-water partition coefficients also
    correlate with longer onset delay and greater
    protein binding (Bdg)

Relative to procaine 1
20
If pKa determines speed of onset, why do
chloroprocaine and etidocaine have a faster onset
than mepivacaine? Strichartz. Anesth Analg
199071158-70
Temp (oC)
pKa
21
What does binding to serum proteins have to do
with binding to the Na channel? Nothing!
22
Pharmacodynamic characteristics of LAs
  • Increasing potency
  • Prolonged onset time
  • Prolonged duration of action
  • Increasing lipid solubility
  • Increased protein binding
  • Increasing tendency to produce severe
    cardiovascular toxicity
  • In general, all tend to sort together

23
Factors influencing LA activity
  • Increasing dose ?latency of onset ?duration,
    ?block success, ?LA
  • Vasoconstrictors ?duration, block success ?LA
  • Site of injection influences dose, onset,
    duration, success rate, LA
  • Alkalinization (NaHCO3) ?latency of onset
    ?potency
  • Pregnancy ?dermatomal spread, ?LA potency, ?free
    blood LA

24
Effects of pH on LA action
  • ?pH increases fraction of free base (neutral) LA
  • Free base LA has greater membrane permeability
    than protonated LA
  • Generally faster onset of anesthesia if
    bicarbonate added (esp. LA epi compounded at
    factory)
  • But protonated LA more potent at inhibiting Na
    channels inside cell

25
Alkaline pH increases procaine potency in frog
sciatic axons
pH
inhibition
mM
Butterworth. Anesthesiology 198868501-6
26
Influence of pregnancy on local anesthetic
activity
  • Increased spread of neuraxial blocks in pregnancy
    (probably due to CSF volume)
  • Progesterone increases bupivacaine potency in
    rabbits
  • Increased lidocaine potency at median nerve in
    pregnant women

inhibition
Elapsed time (min)
From Butterworth. Anesthesiology 199072962-5
27
Differential block
  • Goal analgesia without motor block
  • Successful for postop and labor analgesia
  • Differential sensory block during onset of
    bupivacaine (contrast mepivacaine)
  • No intraoperative differential block at steady
    state when the block fully set up
  • Myelinated A? fibers more LA-sensitive than A?
    or C fibers (smaller fibers of a given type are
    more LA-sensitive)

28
Bupivacaine produces differential onset of block
mepivacaine does not
Br J Anaesth 199881515-21
29
Local anesthetics agents, actions,
misconceptions
  • History and general considerations
  • Na channels, cellular electrophysiology, local
    anesthetic actions
  • General characteristics of local anesthesia
  • LA pharmacokinetics
  • LA toxicity
  • Summary

30
Local anesthetic pharmacokinetics
  • Differences between LAs and other drugs
  • Sites of injection and LA concentrations in blood
  • Protein binding
  • Metabolism
  • Disease states and pregnancy

31
LAs are differentfrom other drugs
  • LAs lack efficacy when not administered on or
    near site of action
  • CNS and CV toxicity arise from absorption and
    systemic distribution
  • Appropriate local or regional doses produce
    marked toxicity if given at another site or into
    a blood vessel

32
Mepivacaine concentrations in blood after
injection of the same dose in different sites
  • Greatest to Least
  • Intercostal
  • Caudal
  • Lumbar epidural
  • Brachial plexus
  • Sciatic-femoral

Anesthesiology 197237277
33
Protein binding of LAs
  • Erroneously over-emphasized in relation to
    mechanism of LA duration of action
  • All LAs are lipid soluble, so all are
    protein-bound to some extent
  • ?1-acid glycoprotein
  • albumin
  • A greater fraction of more potent LAs is protein
    bound (than less potent LAs)
  • Protein binding declines during pregnancy (but
    not by much!)

34
Protein binding of lidocaine (2 ?g/ml) decreases
during pregnancyFragneto et al. Anesth Analg
199479295-7

Trimester
35
LA metabolism
  • Esters (half-lives in seconds to minutes)
  • Hydolyzed by nonspecific esterases
  • Clearance independent of liver flow function
  • Active metabolites (p-aminobenzoic acid (PABA)
    and allergy with procaine or benzocaine)
  • Amides (half-lives in hours)
  • N-dealkylation or hydroxylation (CYP450)
  • Clearance depends on liver blood flow, function
  • Active metabolites (prilocaine ? o-toluidine)

36
Effects of pregnancy, drugs, and organ failure on
LA kinetics
  • Renal failure increases Vd accumulation of
    metabolic products
  • Hepatic failure increases amide Vd, decreases
    clearance
  • Cardiac failure decreases amide clearance
  • Cholinesterase deficiency or inhibition decrease
    ester clearance
  • Pregnancy increases amide clearance
  • ? and H2 blockers decrease amide clearance

37
Local anesthetics agents, actions,
misconceptions
  • History and general considerations
  • Na channels, cellular electrophysiology, local
    anesthetic actions
  • General characteristics of local anesthesia
  • LA pharmacokinetics
  • LA toxicity
  • Summary

38
CNS toxicity from LAs
  • Progression of signs symptoms with ?LA
  • Vertigo
  • Tinnitus
  • Ominous feelings
  • Circumoral numbness
  • Garrulousness
  • Tremors
  • Myoclonic jerks
  • Convulsions
  • CNS depression
  • CV depression
  • CV toxicity requires greater LA doses and
    concentrations than CNS toxicity
  • Convulsive LA dose inversely related to LA
    potency
  • Acidosis, hypercarbia ? convulsive dose

39
LA doses and blood concentrations producing
convulsions in sheep similar rank order as for
potency
Rutten. Anesth Analg 198969291-9
40
Acidosis and hypercarbia reduce the convulsive
dose of lidocaine in cats Englesson Grevsten.
Acta Anaesthesiol Scand 1974 1888-103
41
Cardiovascular toxicity from LAs
  • Bupivacaine vs. lidocaine more avid binding,
    delayed unbinding from cardiac Na channels
  • S- isomers (levo-bupivacaine and ropivacaine)
    less potent at CV toxicity than R isomers or
    racemic mixes
  • LAs inhibit conduction system, contractility,
    cAMP formation, multiple enzyme systems
  • LAs vasoconstrict (low dose) dilate (high dose)
  • Mechanism of LA-induced cardiac death
  • Arrhythmias?
  • Left-ventricular depression?
  • Resuscitation drug failure?

42
(No Transcript)
43
Mortality, arrhythmias and LV depression in
anesthetized dogs
  • More inducible arrhythmias with B, LB than R,L
  • When MAPlt45 mmHg, ACLS epi used to restore
    MAPgt55
  • Continued epi more often needed for Li (86)
    than others
  • Epi-induced VF (EpVF), death more common with B
    than R or Li

of animals
Groban. Anesth Analg 2000911103 Anesth Analg
20019237 RAPM 2002 (in press)
44
Neurotoxic effects of LAs
  • 2-chloroprocaine
  • Large doses injected accidentally in CSF produce
    cauda equina syndrome
  • Metabisulfite, low pH
  • Toxicity disappeared when 2-CP reformulated
  • Toxicity returns when generic manufacturers use
    old formulation!
  • Spinal lidocaine
  • Deficits first linked to microcatheters later
    reported after single-shot spinal anesthetics
  • 5 lidocaine (not other spinal LAs) in vitro
    produces irreversible nerve block
  • Transient neurologic symptoms linked with
    arthroscopy, lithotomy position, and lidocaine
    spinal anesthesia

45
Allergy to LAs
  • Frequently a misdiagnosis of toxic reactions to
    LAs or epinephrine
  • Cross reaction between PABA and methylparaben (a
    preservative sometimes included with amide LAs)
  • True allergy (including anaphylaxis) more common
    with esters (particularly those related to PABA)
    than amides

46
(No Transcript)
47
Evaluation of 90 patients referred for LA
hypersensitivity
  • 0 of 90 reacted to 1100 LA dilutions!
  • Few respond to undiluted LA even among 14
    referred after anaphylactoid reactions
  • Thus, almost no patients had real LA allergy


1100 Undiluted
deShazo. J All Clin Immunol 197963387-94
48
Treatment of LA toxicity
  • Depends on severity
  • Allow minor reactions to IV LAs to dissipate
    spontaneously
  • Seizures maintain airway provide O2
  • May terminate sz with thiopental or midazolam
  • May need to intubate (succinylcholine?)
  • Cardiac toxicity follow ACLS guidelines (note
    use of amiodarone for arrhythmias and
    epinephrine/vasopressin)
  • Allergy steroids, H1 blockers, epinephrine
    (depending on severity)

49
Local anesthetics agents, actions,
misconceptions
  • History and general considerations
  • Na channels, cellular electrophysiology, local
    anesthetic actions
  • General characteristics of local anesthesia
  • LA pharmacokinetics
  • LA toxicity
  • Summary

50
Summary
  • LAs bind and inhibit Na channels voltage-,
    state-, and frequency-dependence (use dependent
    block)
  • Potency, lipid solubility, protein binding, onset
    time, duration, CV toxicity tend to sort together
  • No direct mechanistic action of pKa on onset or
    protein binding on duration of action
  • Pharmacodynamic effects of dose, pH,
    vasoconstrictors, pregnancy differential block
  • Pharmacokinetics esters vs. amides
  • Toxicity CNS vs. CV neurotoxicity allergy

51
Local anesthetics agents, actions,
misconceptions
  • John Butterworth, MD
  • Professor Head
  • Section on Cardiothoracic Anesthesiology
  • Wake Forest University School of Medicine
  • Winston-Salem, North Carolina

52
Effects of pH on LA action
  • With ?pH, ?fraction of LA in free base (neutral)
    form
  • Free base has greater membrane permeability than
    protonated LA
  • Generally faster onset of anesthesia if
    bicarbonate added (esp. LAepi)
  • Faster onset lt ?free base LA
  • But protonated LA more potent at inhibiting Na
    channels inside cell

53
Effects of pH on LA action
  • With ?pH, ?fraction of LA in free base (no
    positive charge) form
  • Free base has greater membrane permeability than
    protonated LA
  • Generally faster onset of clinical anesthesia
    when bicarbonate added (esp. LAepi)
  • Faster onset lt ?free base LA
  • Protonated LA more potent at inhibiting Na
    channels inside cell

54
Two ways that LAs inhibitNa currents
  • Tonic (infrequent depolarizations)
  • Phasic, use-dependent, or frequency-dependent
    (greater inhibition during trains of
    depolarizations gt0.5 Hz)
  • With frequent depolarizations Na channels spend
    more time open or inactivated
  • With each succeeding impulse additional LA-free
    Na channels open and bind LAs

55
Pregnancy increases 1 lidocaine inhibition of
human median nerve sensory fibers
inhibition
Elapsed time (min)
Butterworth. Anesthesiology 199072962-5
56
History of cocaine anesthesia-1
  • South America and the Incas
  • Coca a gift from the Sun god Manco Capac
  • Available only to religious aristocracy in Incan
    society
  • Spaniards pay lower classes and slaves with coca
    paste to increase output
  • Coca mixed with corn starch or guano, chewed with
    lime or ash, first example of free basing
  • Chewed coca dripped on trephination sites

57
Effects of pH on LA action
  • ?pH reduces fraction of free base (neutral) LA
  • Free base LA has greater membrane permeability
    than protonated LA
  • Generally faster onset of anesthesia if
    bicarbonate added (esp. LA epi compounded at
    factory)
  • But protonated LA more potent at inhibiting Na
    channels inside cell

58
Membrane potentials andionic currents in nerve
  • Resting potential Characteristic of living cells
    (-70 mV) arises from NaK-ATPase and K leak
  • Action potential Na currents elicited by
    depolarization
  • Rapidly terminated by Na channel inactivation (K
    channels not necessary for repolarization in
    mammals)
  • Na channels and currents similar amongst
    differing species

Frog muscle
(A) FROG MUSCLE 5C
EM
70
INa
2 mA/cm2
2 ms
-10
(B) FROG NODE 5C
70
10 nA
2 ms
-30
59
Membrane potentials andionic currents in nerve
  • Resting potential
  • Characteristic of living cells (-70 mV) arises
    from NaK-ATPase and K leak
  • Action potential
  • Na currents elicited by depolarization
  • Rapidly terminated by Na channel inactivation (K
    channels unneeded for repolarization)

60
Many classes of compounds bind and inhibit Na
channels
  • Local anesthetics
  • General anesthetics
  • Dihydropyridine Ca channel blockers
  • ?2 agonists
  • Toxins
  • Tetrodotoxin (puffer fish, amphibians), saxitoxin
    (red tide)
  • Batrachotoxin (frog), grayanotoxin
    (rhodedendron), scorpion toxins, etc.
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