08 29 2014 Local Anesthetics

Question 1

Esters

Answer 1

Cocaine
Tetracaine
Benzocaine
Procaine
Chlorprocaine

Question 2

Amides

Answer 2

Lidocaine
Mepivacaine
Priolocaine
Bupivacaine
Bupivacaine SR
Proivacaine
EMLA

Question 3

Local anesthetic

Answer 3

drug that reversibly blocks impulse conduction – blocks voltage gated sodium channels

Question 4

what are characteristics of a perfect local anesthetic?

Answer 4

• non-irritating
• transient effect
• low systemic toxicity
• quick onset
• action to span duration of surgery

(lidocaine is close to perfect right now)

Question 5

Structure Activity Relationship

Answer 5

• aromatic ring (lipophilic group)
• Intermediate chaine
  
  • ester: -COO-CH2-CH2-N
  • aminde: - NH-CO-CH2-N
• ionizable group (usually a 3 degree amine)

Question 6

pH/pKA for local anesthetic

Answer 6

-weak bases
log (BH+)/(B)= pka-pH

• more acidic the pH = increase in BH+
• more basic pH = more B

Neural form required to diffuse to side of activation, but charged form is required for activity.

NOTE: infection decreases pH (more acidic)
-can’t inject local anesthetic into an inflamed area.

Question 7

Path of Anesthetic to receptor sites

Answer 7

LA + H+ = LAH+

1. extracellular – slightly basic
   - LA travels through bilayer– and contacts sodium channel and blocks it.
2. Intracellular – slightly more acidic
   - once LA enters the cell, there is a shift in charge = LAH+
   - trapped here

Question 8

Mechanism of Action of Local anesthestics

Answer 8

Modulated Receptor Hypothesis: LA binding changes conformational state of the channel.

Affinity for activated and inactivated states vs. resting state.

• fibers that fire at a faster rate are more susceptible to the effects of local anesthetics
  1. neutral form enters membrane, binding site is on the cytoplasmic face of channel.
  2. Charged LA required for binding to channel site.

Question 9

Frequency dependent block

Answer 9

repeated depolarizatioins produce more effective anesthetic binding— after rate are more susceptible to effects of local anesthetics

Question 10

Important properties of local anesthestics

Answer 10

1. highly lipophilic
   - helps LA diffuse and stay in fatty membrane
   - helps with potency and duration
   - slower onset of action
2. High pkA = slows onset of action – more ionized at same pH vs. another anestethic.
3. High Protein Binding = duration (not metabolized/excreted quickly)

Question 11

Epidural

Answer 11

Neuraxial Block

–just short of the Dura

Question 12

Spinal block

Answer 12

Neuraxial block

- enter subarachnoid space

Question 13

Caudal block

Answer 13

Neuraxial block

-epidural space in caudal canal

Question 14

Clinical uses

Answer 14

1. Topical
2. Infiltrate (local – numb a specific area on surface)
3. Regional Anesthesias and Analgesia
   A. - Peripheral blocks
   -plexus anesthesis – single injection or continuous infusion.
   
   • Individual nerve block (ex femoral)
   • IV regional (Bier Block)– Turnicate and hurts A LOT!!!
     B. -Neuraxial Blocks
     -spinal (low volume), epidural/caudal (high volume)

Question 15

Incremental increase in the concentration of LA administered during a Neuraxial Block can cause a loss of what nerves and in which order:

Answer 15

1. Autonomic Pain – C-fibers
2. Sensory
3. Motor

Question 16

Effect of a Peripheral block (what goes first? and what follows).

Answer 16

motor block occurs before proximal sensory loss (which occurs before distal sensory loss).

Last thing ppl lose is sensation in fingers

Question 17

Why do they use vasoconstrictors with local anesthetic?

Answer 17

-decreases absorption irrespective of the site of injection
-increases tissue binding for duration of action of long acting drugs
(increase time that locals are at site of action)

BEWARE OF HITTING A VESSEL WITH epinephrine/ Phenylephrine.
- use a low does to test if epinephrine is injected intravascularly – in 2 min the heart starts beating like crazy!

Question 18

Elimination of Esters?

Answer 18

plasma pseudocholinesterase

Metabolite produced: PABA and derivatives

• PABA is allergenic
• Enzyme deficiency may lead to potentiation of action

Question 19

Elimination of Amides

Answer 19

Liver CYP450, water soluble metabolites – urinary excretion.

-low blood flow to liver (portal hypertension, CHF) decrease delivery of LA’s to liver– decreasing amide LA metabolism and increasing halftime and serum concentration.

Question 20

Adverse Effects?

Answer 20

1. Systemic toxicity
2. Local (neural tissue) toxicity
3. Allergic reactions
4. Methemoglobin formation

Question 21

How does systemic toxicity occurs when using LAs?

Answer 21

LA acting on other excitatory tissue vs. target nerves.

Range of effects is proportional to LA concentration.

Manifest first as CNS toxicity and then cardiotoxicity

Question 22

Presentation of CNS toxicity from LAs?

Answer 22

tinnitus, perioral numbness, blurred vision, metallic taste, change in mental status, convulsions.

Question 23

Presentationm of Cardiotoxicity from LAs?

And drugs that are cardiotoxic?

Answer 23

Depression of excitability and conduction (prolonged QRS)

Arteriolar dilation (Ca channel effect)

Systemic acidosis –> increases sensitivity to LA toxicity (remember pH/pka formula)

Pregnancy increases sensitivity to toxic effects

DRUGS that are cardiotoxic:

Bupivacaine ( amide) is very cardiotoxic (R+)

Ropivacaine less toxic (L+)

Question 24

How can you try to rescue system from cardiotoxicity form an LA?

Answer 24

IV Lipid Emulsion
- propofol
VERY LIPOPHILIC – takes LA away with it.

Question 25

What happens during local (neural tissue) toxicity from using LAs?

Answer 25

1. Neural injury:
   High concentrations for extended period of time can lead to nervous tissue destruction – membrane damage, cytoskeleton disruption

Motor and sensory loss are seen (Ex. caudal equine syndrome)

Paralysis and paresis may result

2. Transient Neurologic Symptoms (TNS)
   associated with spinally administered Lidocaine and certain surgical positions (lithotomy).

associated with pain or sensory abnormalities in the lower back, buttock, or lower extremities. The symptoms of burning pain and dysethesthia in the L5 and S1 dermatomes usually start after the effects of spinal anesthesia have concluded and may last up to hours to four days

NOT ASSOCIATED WITH MOTOR OR SENSORY LOSS

A self-limited neuropathic pain syndrome

Question 26

Why does Methemoglobinemia occur?

• Drugs that can cause it?
• Plus-oximeter reading?
• Treatment?

Answer 26

-Prilocaine metabolites: O-toluidine act as an oxidizing agent to convert Hb 2+ –> Hb 3+

Benzocain can do this too

Causes chocolate colored blood.
Plus oximeter = 85% saturation

Treatment: methylene blue (reducing agent)

Question 27

Allergic reactions with Esters

Answer 27

PABA –> Hapten Formation –> True IG3 Mediated Allergy

Question 28

Allergic reactions with Amides

Answer 28

Allergic reactions are rare.

Question 29

Methylparaben

Answer 29

preservative that can cause allergic reactions regardless of LA type

Question 30

Cocaine (quick facts)

Answer 30

stimulant, vasoconstrictor

Question 31

Benzocaine

Answer 31

primarily topical, MetHb potential

Question 32

Tetracaine

Answer 32

long duration
potent ester –> spinal anesthesia
toxic at relatively low doses (except for short acting ester rule)

Question 33

Procaine

Answer 33

aka Novocaine
quick onset
short duration
hypersensitivity rxns
TNS implication (rarely used)

Question 34

Chlorprocaine

Answer 34

quick onset
short duration LA
-used to have a bad rep

Question 35

Lidocaine

Answer 35

quick onset, moderate duration and toxicity, TNS explication

DONT USE ON SPINE!

Question 36

Mepivacaine

Answer 36

• longer duration than lidocaine
• lowest pKa of injectable La’s
• Acts as a vasoconstrictor

Question 37

Prilocaine

Answer 37

• Associated with methemoglobinemia

- component of EMLA

Question 38

Bupivacaine

Answer 38

long duration La with devastating potential for cardiac toxicity

Sensory block > motor block

Question 39

Bupivacaine SR

Answer 39

liposomally encapsulated for delivery up to 72hrs/dose.

Use mostly for spinals because you only need to inject a few ccs.

Question 40

Ropivacaine

Answer 40

• long duration with properties similar to bupivacaine but with less cardiotoxicity
• vasoconstriction.

Question 41

EMLA

Answer 41

Eutectic (melting point of compound is less than mp of other ingredients) Mixture of LA prilocaine/ lidocaine for topical anesthesia.