Nagelhout Local Anesthetics 2 - Exam 2

Question 1

T/F Pregnancy enhances the effects of LA.

Answer 1

true
-more sensitive to LA

Question 2

T/F Epidurals, even when placed properly, can cause decreased uterine tone, slows labor, and affects uterine/ umbilical blood flow

Answer 2

FALSE

Question 3

T/F If a pt with preeclampsia receives repeated epidural injections of lidocaine, they can develop greater accumulation of LA

Answer 3

true

Question 4

Which LA drug has greater cardiotoxicity, predisposing it to causing ventricular arrhtyhmias?

Answer 4

Bupivacaine

Question 5

T/F Ropivacaine and Levobupivacaine can cause even higher cardiotoxic effects than standard racemic bupivacaine

Answer 5

false

Question 6

T/F LA are teratogenic

Answer 6

false

Question 7

Fetal acidosis results in a greater accumulation of _ (amide/ester) LA in the fetus

Answer 7

amide

Question 8

The elimination half life of amide LA is _ (shorter/longer) in newborns than in adults

Answer 8

longer

-fetuses have larger volume of distribution, ALSO more acidotic

Question 9

T/F Compared to adults, fetuses and newborns are more vulnerable to the toxic effects of LA

Answer 9

false

Question 10

T/F Neonatal neurobehavior solely depends on the choice of LA

Answer 10

false

Question 11

Alkalinization of LA solutions _ (shortens/lengthens) the latency of neural blockade but increases the risk of _ when giving epidurals.

Answer 11

shortens the latency (speeds onset)
HoTN

Question 12

Neuraxial opioid anesthesia produces analgesia without the loss of _ or _

Answer 12

sensation or proprioception

Question 13

Combining neuraxial LA and opioids _ (increases/decreases) block density and allows for admin of a _ (higher/lower) total dose of LA

Answer 13

increases
lower

-reduces S/E risk too!

Question 14

Spinal bioavailability of hydrophilic drugs (morphine and hydromorphone) are _ (more/less) than hydrophobic drugs (fentanyl, sufentanil)

Answer 14

less

Question 15

3 most common S/E of neuraxial opioid admin are:

Answer 15

-pruritis
-N
-V

-fetal bradycardia and maternal resp depression are the most serious tho

Question 16

What is the benefit of mixing 2 different LA?

Answer 16

-helps speed onset and prolong duration when done properly

Question 17

Mixing LA compensates for the _ duration of short -acting agents (Lido, chloroprocaine) and the _ latency of long-acting agents (Tetracaine, Bupivacaine)

Answer 17

short
long

Question 18

Use of _ techniques for regional anesthesia make it possible to give a rapid acting LA then start a short or long acting infusion.

Answer 18

catheter

Question 19

T/F Due to LA toxicities being different between drugs, when mixing them, you are able to give both max doses.

Answer 19

FALSE!

-cut toxic doses to whatever % of the total mix solution

ex) you want a 50/50 bupivacaine and lidocaine solution: give 3.5 lidocaine and 1.5 bupivacaine

Question 20

T/F Spread and depth of LA is less in pregnant pts than nonpregnant pts

Answer 20

false
-pregnant pts have LA spread more and works more significantly

-why?: mechanical and hormonal change-most likely a hormonal factor

Question 21

T/F LA doses should be cut in pregnant pts, but especially in their 1st trimester

Answer 21

true
-hormone changes(progesterone) are the most significant factor increasing the spread/depth of LA, NOT gravid uterus

Question 22

If you give a max dose of a spinal LA at the start of a procedure for a patient, and the surgeon asks if they can give some more 1.5 hr into the case, can they give more LA?

Answer 22

yes

-can safely readminister LA 90 mins after the max dose is given

Question 23

Tumescent anesthesia, known for its use during liposuction, is more common with _ _ procedures in NORA settings

Answer 23

minimally-invasive

Question 24

Tumescent anesthesia involves injecting lidocaine into fat during liposuction at doses of _ - _ mg/kg.

Answer 24

35-55mg/kg
-conc can peak 12-16 hr after infusion

Question 25

How is giving 35-55mg/kg of LA for liposuction ok when max dose of Lido with epi is 7mg/kg?

Answer 25

It’s directly injected into fat, which has less vasculature. This helps constrict the vessels in there to avoid trauma while the surgeon sucks the rest of the fat out

Question 26

Without liposuction, tumescent anesthesia max dose of lidocaine is _ mg/kg

Answer 26

28mg/kg

Question 27

When using tumescent anesthesia for endovenous laser therapy (varicose vein therapy) , peak lidocaine conc are seen much earlier between _ - _ hr after injection

Answer 27

1-2

Question 28

Tumescent Anesthesia LA risks:

Answer 28

-higher conc LA
-rapid injection
-perivascular injection
-removing epi from the LA formula

Question 29

Tumescent anesthesia preparation:

Answer 29

0.9: 1 L
sodium bicarb: 12mEq (12.5mL of a 8.4% amp)
Epi: 1mg
Lidocaine: 500mg

Question 30

Eutectic mixture of lidocaine and prilocaine (EMLA) is most often used for:

Answer 30

topical numbing kids hands for IV start

-little numbing bandaid they wear on the way to the hospital

Question 31

Lidocaine-Epinephrine-Tetracaine (LET) main uses:

Answer 31

-topical numbing for suturing kids lacerations (also tetracaine-epi-cocaine [TAC])
- numbing endotracheal area before intubation

Question 32

Tetracaine- Epi-Cocaine max safe dose
-adults
-kids

Answer 32

A: 3-4mL
K: 0.05mL/kg

Question 33

What does hyaluronidase (HSE) do naturally?

Answer 33

naturally occurring enzyme in tissue that helps stuff spread around in tissue/skin

-good for ophtho cases for one time LA injections into eyeball

Question 34

What does HSE do for LA?

Answer 34

-faster onset
-shorter duration
-higher risk toxicity (d/t spread)

Question 35

What is process of forming catecholamines?

Answer 35

1. Phenylalanine
   2.Tyrosine + tyrosine hydroxylase
   3.DOPA
   4.Dopamine
   5.NE(increased NE INHIBITS conversion of tyrosine)
   6.Epi (mainly made in adrenal medulla)

Question 36

2 main molecules that metabolize (break down) catecholamines, and where they’re stored:

Answer 36

cathechol-O-methyltransferase (COMT)
- stored in nerves

monoamine oxidase (MAO)
-stored in synapse

Question 37

ACh is made by combining Acetyl CoA and choline via _

Answer 37

Choline Acetyl Transferase

Question 38

ACh is broken down by _ into choline and acetyl CoA

Answer 38

cholinesterase

Question 39

ANS works _ _ with renin, cortisol, and other hormones

Answer 39

in concertq

Question 40

T/F SNS demonstrates both acute and chronic adaptation to stress pre and post synaptically

Answer 40

true

Question 41

Presynaptic _ receptors play a large role in regulating sympathetic release

Answer 41

alpha

Question 42

When you see vagus nerve, think _ nervous system

Answer 42

MUSCARINIC/ PARAsympathetic (rest, digest, etc)

-atropine blocks this! (increases HR, eyes dilate, etc) ATROPINE IS ANTICHOLINERGIC/ PARASYMPATHOLYTIC

Question 43

If a drugs is a PREsynaptic alpha agonist, it is sympatho_

Answer 43

LYTIC
-works on alpha 2 receptors pre-synaptically to DECREASE release of NE, decreasing SNS effects
-DECREASES catecholamines

Question 44

If a drug is a POSTsynaptic alpha agonist, it is sympatho_

Answer 44

MIMETIC
-works on adrenergic receptors post-synaptically to increase SNS effects
-increases catecholamines

Question 45

2 ways to dilate the pupil:

Answer 45

sympathomimetic (alpha1 agonist)

OR

parasympatholytic (anticholinergic drug: ATROPINE)

-if using atropine, will block pupil constriction AND near vision accommodation (CYCLOPLEGIA)

-THINK EYEDROPS FOR DILATION

Question 46

SNS effects in heart:

Answer 46

increase everything!
-VIA beta1

-PNS decreases everything (SA and AV node, purkinje, atria and ventricle)

Question 47

SNS increases in Alpha1 + Beta2 cause a _ effect in blood vessels.

Answer 47

shunting
-vasoconstricts and vasodilates in different parts to move blood to vital organs

Question 48

When you see alpha receptors, think:

Answer 48

VASOCONSTRICTION

Question 49

When you see beta 2 receptors, think:

Answer 49

VASODILATION
-think of vessels!

Question 50

When you see beta1 receptors, think:

Answer 50

CONTRACTILITY/ HR

HEART ONLY!! (well, besides kidneys)

Question 51

T/F PNS has a massive effect on blood vessels

Answer 51

FALSE! Actually it is mainly just the SNS

Question 52

SNS effect on lungs:

Answer 52

bronchoDILATION -beta2

Question 53

PNS effect on lungs:

Answer 53

bronchoCONSTRICTION

Question 54

SNS effect on GI tract:

Answer 54

relaxes GI system= SPHINCTERS CONTRACTED(a)
-decrease GI motility!
-full stomach!
SCARED SHITLESS

Question 55

PNS effect on GI tract:

Answer 55

stimulates = SPHINCTERS RELAXED
-increased motility

Question 56

SNS effects on kidneys:

Answer 56

increased renin secretion via beta1
- other non heart location = adipocytes

Question 57

PNS effects on kidneys:

Answer 57

-

Question 58

SNS effect on GU system:

Answer 58

relaxes bladder(b), CONTRACTS SPHINCTER(a) = NO PEE
-alpha1 contracts PREGNANT pt uterus
-beta2 has tocolytic effect on uterus (relaxed)
-liver increases BG(a + b)

Question 59

PNS effects on GU system:

Answer 59

contracts bladder, relaxes sphincter = MORE PEE
- no effects on liver and uterus

Question 60

SNS effects on pancreas:

Answer 60

decreases insulin secretion (a)
increases insulin secretion (b)
-tries to increase BG
lipolysis (a, b1,2,3)

Question 61

Phenylephrine is a pure _ agonist:

Answer 61

alpha
-hella increased SBP
-hella increased DBP
-HR - reflex brady
-hella increased SVR

Question 62

NE is moreso _ than _ agonist.

Answer 62

alpha>beta
- hella increased SBP
-kinda increased DBP
-slight increase Hr
-hella increase SVR

Question 63

Epi is moreso _ than _ agonist

Answer 63

beta>alpha
-increased SBP
-DECREASED DBP
-hella increased HR
-DECREASED SVR (at low doses-beta1)

Question 64

Dobutamine is a pure _ agonist

Answer 64

beta
-increase SBP
-hella decreased DBP (vasodilatory)
-hella increased HR
-hella decreased SVR

Question 65

Dopamine works on dopamine, alpha, and beta receptors to:

Answer 65

-kinda increase SBP
-decrease DBP
-kinda increase HR
-decrease SVR (slight increase in high doses)

Question 66

ANS Mechanisms
-Interference of NT synthesis (less NT made)

Answer 66

sympatholytic

-choline acetyl transferase inhibitors
-alpha-methyl tyrosine (inhibits tyrosine conversion)

Question 67

ANS mechanisms
-Metabolic transformation by same pathway as precursor of NT (imposter-attaching to alpha2 presynaptic R)

Answer 67

sympatholytic
-Methyldopa

Question 68

ANS mechanisms
-Blockade of transport system at nerve terminal membrane (BLOCKS reuptake)

Answer 68

sympathomimetic
-Cocaine

Question 69

ANS mechanisms
-Blockade of transport system of storage vesicle(no protective vesicle, MOA eats NT)

Answer 69

sympatholytic
-Reserpine

Question 70

ANS Mechanism
-Promotion of exocytosis or displacement of NT from axon terminal (turbo boost)

Answer 70

sympathomimetic
-Amphetamine, tyramine, ephedra, ketamine

Question 71

ANS Mechanism
-Prevention of release of NT

Answer 71

sympatholytic
-botox, clonidine, precedex (sits on alpha 2 subunitR telling neuron it has enough NT in NMJ)

Question 72

ANS Mechanisms
-Mimicry of NT at postjunctional sites (artificial NT) this one is big

Answer 72

sympathomimetic
-nicotine, phenylephrine, dobutamine, albuterol, terbutaline, isoproterenol

Question 73

ANS Mechanisms
-Blockade of postsynaptic receptor this one is big

Answer 73

Sympatholytic
-atropine, atracurium, terazosin, propranolol, metoprolol, atenolol

Question 74

ANS Mechanism
-Inhibition of enzyme break down of NTthis ones different

Answer 74

PARAsympathoMIMETIC
-ACEi, MAOi, COMT inhibitors, edrophonium, neostigmine!

Question 75

ANS Mechanism
-Interference of 2nd messenger(prolongs action by preventing 2nd messenger breakdown)

Answer 75

sympathomimetic
-PDE 3 inhibitors (Milrinone)

Question 76

Atropine poisoning mnemonic

Answer 76

RED as a beet,
BLIND as a bat,
DRY as a bone,
MAD as a hatter,
HOT as a hare

-often seen in ER from OTC anticholinergic OD

Question 77

Analeptic is basically:

Answer 77

opposite of what neuroleptic anesthesia drugs do
-confident, anorexic, increased speech/motor function, decreased fatigue, alert

Question 78

Alpha 1 POST synaptic R

Answer 78

vasoconstriction
mydriasis
relax GI
contract GI sphincters

Question 79

Alpha 2 PRE synaptic R

Answer 79

inhibits NE release (precedex, clonidine)

Question 80

Alpha 2 POST synaptic R

Answer 80

platelet aggregation
hyperpolarize CNS cells

Question 81

Beta 1 POST synaptic R

Answer 81

increase conduction velocity
increase automaticity
increase contractility

Question 82

Beta 2 POST synaptic R

Answer 82

vasodilation
bronchodilation
GI relax
Uterine relax
Bladder relax
glycogenesis
lipolysis

Question 83

Dopamine 1 POST synaptic R

Answer 83

vasodilation -renal artery

Question 84

Dopamine 2 PRE synaptic R

Answer 84

inhibits NE release

Question 85

Which anticholinergic drug causes the most sedation?

Answer 85

Scop>Atropine>Glyco
glyco=0

Question 86

Which anticholinergic drug causes the most antisiagogue effect?

Answer 86

Scop>Glyco>Atropine

Question 87

Which anticholinergic increases HR the most>

Answer 87

Artopine>Glyco>Scop

Question 88

Which anticholinergic has equal benefits of increased HR, relaxing smooth musc, and antisiagogue

Answer 88

Glyco

Question 89

Which anticholinergic has the most mydriasiscycloplegia?

Answer 89

Scop>Atropine> Glyco=0

Question 90

Which anticholinergic has the most PONV prevention

Answer 90

scop>atropine
glyco-0

Question 91

T/F Anticholingergics increase H ion release into stomach

Answer 91

false, decrease

Question 92

Stim of PRE synaptic Alpha2R =

Answer 92

decreased NE release

Question 93

Stim of PRE synaptic Beta2R=

Answer 93

increased NE release

Question 94

Blockade of PRE synaptic Alpha2R=

Answer 94

increased NE release

Question 95

Blockade of PRE synaptic Beta2R=

Answer 95

decreased NE release