Local Anesthetics

Question 1

Chloroprocaine (Nesacaine)

Chemical Classification
&
MOA

Answer 1

Ester
Short acting

Intracellular Voltage-Gated Na+ Channel Blocker; Blocks initiation & conduction of
nerve impulses

Question 2

Chloroprocaine (Nesacaine)

Acid/Base
pKa
Lipid Solubility
Protein Binding

Answer 2

Acid/Base
Weak base
pKa
8.7
Lipid Solubility
Low
Protein Binding
Low

Question 3

Chloroprocaine (Nesacaine)

Dosing

Answer 3

Max Infiltration Dose:
600 mg

6 mg/kg w/o EPI
14 mg/kg w/ EPI

Question 4

Chloroprocaine (Nesacaine)

Onset
Duration

Answer 4

Onset
Rapid

Duration
30-45 min

Question 5

Chloroprocaine (Nesacaine)

Metabolism
&
Elimination

Answer 5

Plasma:
Hydrolysis by plasma cholinesterase enzymes

Metabolite:
Para aminobenzoic acid (PABA)
Allergy Concern

Renal Excretion

Fastest metabolism rate by 3.5x

Question 6

Chloroprocaine (Nesacaine)

Side Effects
&
Considerations

Answer 6

Prolonged effects d/t ↓ hydrolysis occur in hepatic disease & ↑BUN

↑ sensitivity d/t
↓ PChE levels;
↓protein levels

Question 7

Procaine (Novocaine)

Chemical Classification
&
MOA

Answer 7

Ester
Short acting

Intracellular Voltage-Gated Na+ Channel Blocker; Blocks initiation & conduction of
nerve impulses

Question 8

Procaine (Novocaine)

Acid/Base
pKa
Lipid Solubility
Protein Binding

Answer 8

Acid/Base
Weak Base
pKa
8.9
Lipid Solubility
0.6
Protein Binding
6%

Question 9

Procaine (Novocaine)

Dosing

Answer 9

Max Infiltration Dose:
500 mg

7 mg/kg w/o EPI
8.5 mg/kg w/ EPI

Question 10

Procaine (Novocaine)

Onset
Duration

Answer 10

Onset
Slow

Duration
45-60 min

Question 11

Procaine (Novocaine)

Metabolism
&
Elimination

Answer 11

Plasma:
Hydrolysis by plasma cholinesterase enzymes

**Metabolite: **
Para aminobenzoic acid (PABA)
Allergy Concern

Renal Excretion

Metabolism Rate - Intermediate

Question 12

Procaine (Novocaine)

Side Effects
&
Considerations

Answer 12

Prolonged effects d/t
↓ hydrolysis occurs in hepatic disease & ↑BUN

↑ sensitivity d/t
↓ PChE levels;
↓protein levels

Question 13

Tetracaine (Dicaine)

Chemical Classification
&
MOA

Answer 13

Ester
Long acting

Intracellular Voltage-Gated Na+ Channel Blocker; Blocks initiation & conduction of
nerve impulses

Question 14

Tetracaine (Dicaine)

Acid/Base
pKa
Lipid Solubility
Protein Binding

Answer 14

Acid/Base
Weak Base
pKa
8.5
Lipid Solubility
80
Protein Binding
76%

Question 15

Tetracaine (Dicaine)

Dosing

Answer 15

Local Total Max Dose:
100 mg (topical)

3 mg/kg w/o EPI
3 mg/kg w/ EPI

Question 16

Tetracaine (Dicaine)

Onset
Duration

Answer 16

Onset
Slow

Duration
60-180 min

Question 17

Tetracaine (Dicaine)

Metabolism
&
Elimination

Answer 17

Plasma:
Hydrolysis by plasma cholinesterase enzymes

Metabolite:
Para aminobenzoic acid (PABA)
Allergy Concern

Renal Excretion

Metabolism Rate - Slowest

Question 18

Tetracaine (Dicaine)

Side Effects
&
Considerations

Answer 18

No vasodilatory activity

Prolonged effects d/t
↓ hydrolysis occurs in hepatic disease & ↑BUN

↑ sensitivity d/t
↓ PChE levels;
↓protein levels

Liposome; used to upload ↑ amount of LA into molecule & have consistent release of
LA in

Other formulation:
Tetracaine Gel 4%

Question 19

Lidocaine (Xylocaine)

Chemical Classification
&
MOA

Answer 19

Amide - Intermediate Acting

Intracellular Voltage-Gated Na+ Channel Blocker; Blocks initiation & conduction of
nerve impulses

Question 20

Lidocaine (Xylocaine)

Acid/Base
pKa
Lipid Solubility
Protein Binding

Answer 20

Acid/Base
Weak Base
pKa
7.9
Lipid Solubility
2.9
Protein Binding
70%

pKa closest to physiologic pH = faster OOA

Question 21

Lidocaine (Xylocaine)

Dosing

Answer 21

Max Infiltration Dose:
300 mg;
500 mg w/ EPI

5 mg/kg w/o EPI
7 mg/kg w/ EPI

Max Spinal Dose:
100 mg

Question 22

Lidocaine (Xylocaine)

Onset
Duration

Answer 22

Onset
Rapid

Duration
60-120 min

Question 23

Lidocaine (Xylocaine)

Metabolism
&
Elimination

Answer 23

Hepatic:
Oxidative dealkylation by microsomal enzymes

Metabolites:
Xylidide
Monoethylglycine-xylidide

Lungs:
1st Pass

Renal Excretion:
5%

Metabolism Rate - Intermediate

Question 24

Lidocaine (Xylocaine)

Side Effects
&
Considerations

Answer 24

Vasodilatory activity = ↑potency & DOA

Metabolite monoethylglycine-xylidide accounts for 75% of antidysrhythmic effects

Highest risk for TNS when given intrathecally

Prolonged clearance in hepatic disease

Can cross
placental barrier

↑ sensitivity d/t
↓ PChE levels;
↓protein levels

Prolonged clearance w/ PIH

Liposome; used to upload ↑ amount of LA into molecule & have consistent release of
LA in tissues

Question 25

Lidocaine (Xylocaine)

Other Indications

Answer 25

Eutectic Mixture of LA (EMLA)
Lidocaine 2.5% + Prilocaine 2.5% = 5% LA

Dose: 1-2 g/10 cm2 area
Readiness: 45 min OOA
Duration: 2 hrs

Question 26

Prilocaine

Chemical Classification
&
MOA

Answer 26

Amide - Intermediate

Intracellular Voltage-Gated Na+ Channel Blocker; Blocks initiation & conduction of
nerve impulses

Question 27

Prilocaine

Acid/Base
pKa
Lipid Solubility
Protein Binding

Answer 27

Acid/Base
Weak Base
pKa
7.9
Lipid Solubility
0.9
Protein Binding
55%

pKa closest to physiologic pH = faster OOA

Question 28

Prilocaine

Dosing

Answer 28

Max Infiltration Dose:
400 mg

6 mg/kg w/o EPI
8.5 mg/kg w/ EPI

Question 29

Prilocaine

Onset
Duration

Answer 29

Onset
Slow

Duration
60-120 min

Question 30

Prilocaine

Metabolism
&
Elimination

Answer 30

Hepatic:
Microsomal enzymes

Metabolite:
Ortholuidine

Lungs:
1st Pass

Renal Excretion:
5%

Metabolism Rate - Most Rapid

Question 31

Prilocaine

Side Effects
&
Considerations

Answer 31

Less vasodilatory activity

Methemoglobinemia @ dose >600 mg d/t ortholuidine metabolite oxidizing Hgb

Can cross placental barrier

↑ sensitivity d/t
↓ PChE levels;
↓protein levels

Tx for methemoglobin;
Methylene Blue:
IV: 1-2 mg/kg
over 5 min
Max: 7-8 mg/kg
OOA: 30-60 min

Question 32

Prilocaine

Other Indications

Answer 32

Eutectic Mixture of LA (EMLA)
Lidocaine 2.5% + Prilocaine 2.5% = 5% LA

Dose: 1-2 g/10 cm2 area
Readiness: 45 min OOA
Duration: 2 hrs

Question 33

Mepivacaine (Carbocaine)

Chemical Classification
&
MOA

Answer 33

Amide - Intermediate Acting

Intracellular Voltage-Gated Na+ Channel Blocker; Blocks initiation & conduction of
nerve impulses

Question 34

Mepivacaine (Carbocaine)

Acid/Base
pKa
Lipid Solubility
Protein Binding

Answer 34

Acid/Base
Weak Base
pKa
7.6
Lipid Solubility
1
Protein Binding
77%

pKa closest to physiologic pH = faster OOA

Question 35

Mepivacaine (Carbocaine)

Dosing

Answer 35

Max Infiltration Dose:
300 mg;
500 mg w/ EPI

5 mg/kg w/o EPI
7 mg/kg w/ EPI

Max Spinal Dose:
100 mg

Question 36

Mepivacaine (Carbocaine)

Onset
Duration

Answer 36

Onset
Slow

Duration
90-180 min

Question 37

Mepivacaine (Carbocaine)

Metabolism
&
Elimination

Answer 37

Hepatic:
Microsomal enzymes

Renal Excretion:
5%

Metabolism Rate - Intermediate

Question 38

Mepivacaine (Carbocaine)

Side Effects
&
Considerations

Answer 38

Dysrhythmias; SB & SA

Subsequent dose (2nd)
↑ risk of dysrhythmias

↑ HR & SBP; ANS response

Lacks vasodilatory activity

Highest risk for TNS when given intrathecally

Can cross placental barrier
Prolonged eliminationin fetus

↑ sensitivity d/t
↓ PChE levels;
↓protein levels

Question 39

Bupivacaine (Marcaine)

Chemical Classification
&
MOA

Answer 39

Amide - Long Acting

Intracellular Voltage-Gated Na+ Channel Blocker; Blocks initiation & conduction of
nerve impulses

Question 40

Bupivacaine (Marcaine)

Acid/Base
pKa
Lipid Solubility
Protein Binding

Answer 40

Acid/Base
Weak Base
pKa
8.1
Lipid Solubility
28
Protein Binding
95% to α-1-acid glycoprotein

Question 41

Bupivacaine (Marcaine)

Dosing

Answer 41

Max Infiltration Dose:
175 mg
225 mg w/ EPI

2.5 mg/kg w/o EPI
2.5 mg/kg w/ EPI

Max Spinal Dose:
20 mg

Question 42

Bupivacaine (Marcaine)

Onset
Duration

Answer 42

Onset
Slow

Duration
240-480 min

Question 43

Bupivacaine (Marcaine)

Metabolism
&
Elimination

Answer 43

Hepatic:
Aromatic hydroxylation, N-dealkylation, amide hydrolysis & conjugation by microsomal enzymes

Lungs:
1st Pass
Dose-dependent

Renal Excretion:
5%

Metabolism Rate - Slowest

Question 44

Bupivacaine (Marcaine)

Side Effects
&
Considerations

Answer 44

Vasodilatory activity

↑ affinity for cardiac toxicity in neuraxial anesthesia

Least risk for TNS when given intrathecally

Continuous or intermittent epidural infusions can cause hepatic toxicity

Can cross placental barrier

↑ sensitivity d/t
↓ PChE levels;
↓protein levels

Liposome; used to upload ↑ amount of LA into molecule & have consistent release of
LA in tissues

FDA released Bupivacaine ER (Exparel); up to 90 hrs

Question 45

Bupivacaine (Marcaine)

Other Indications

Answer 45

Combination of Chloroprocaine & Bupivacaine has rapid onset w/
8.4% NaHCO3 (1 ml ONLY) in 30 ml of LA

Question 46

Ropivacaine (Naropin)

Chemical Classification
&
MOA

Answer 46

Amide - Long Acting

Intracellular Voltage-Gated Na+ Channel Blocker; Blocks initiation & conduction of
nerve impulses

Question 47

Ropivacaine (Naropin)

Acid/Base
pKa
Lipid Solubility
Protein Binding

Answer 47

Acid/Base
Weak Base
pKa
8.1
Lipid Solubility
~2.9-28
Protein Binding
94% to α-1-acid glycoprotein

Question 48

Ropivacaine (Naropin)

Dosing

Answer 48

Max Infiltration Dose:
200 mg

3 mg/kg w/o EPI
4 mg/kg w/ EPI

Question 49

Ropivacaine (Naropin)

Onset
Duration

Answer 49

Onset
Slow

Duration
240-280 min

Question 50

Ropivacaine (Naropin)

Metabolism
&
Elimination

Answer 50

Hepatic:
CYP450 enzymes

Renal Excretion:
5%