Neuro 2

Question 1

Barbituates:

Name (4)

Answer 1

1. phenobarbital
2. pentobarbital
3. thiopental (only one commonly used now)
4. secobarbital

Question 2

Barbituates:
MOA
Clinical Use (2)

Answer 2

“BarbiDURATes INCREASE DURATION”
-Facilitate GABA-A action by INCREASE DURATION of Cl- channel opening–>decrease neuron firing

1. Sedative for anxiety/seizures/insomnia
2. induction of anesthesia (THIOPENTAL)

“Barbie likes it to last longer, while Ben likes it more frequently” (yes, barbie dumped ken for ben)

Question 3

Barbituates:
Adverse(4)
Contra(1)
Overdose treatment

Answer 3

1. Respiratory & Cardiovascular depression (can be fatal)
2. CNS depression (exacerbated by ETOH)
3. Dependence
4. P450 inducer

• Contra: Porphyrias
• Overdose tx: supportive (assist resp. and maintain BP)

Question 4

Benzodiazepines:

Name 8

Answer 4

1. Diazepam
2. Lorazepam
3. Triazolam
4. Temazepam
5. Oxazepam
6. Midazolam
7. Chlordiazepoxide
8. Alprazolam

Question 5

Benzodiazepines:
MOA
Which have short half-lives? Why does this matter?

Answer 5

“FREnzodiazepines INCREASE FREQUENCY”
-Facilitate GABA-A action by INCREASE FREQUENCY of Cl- channel opening

• Most drugs have long half-lives and active metabolites except ‘ATOM’
  1. Alprazolam
  2. Triazolam
  3. Oxazepam
  4. Midazolam
• these are short acting–>higher addiction potential

Question 6

What 3 drugs all bind the GABA-A Receptor?

What type of receptor is it?

Answer 6

1. Benzo
2. Barbs
3. Alcohol
   - Ligand-gated Cl- channel

Question 7

Benzodiazepines:
Clinical uses (8)

Answer 7

1. Anxiety
2. spasticity
3. Status epilepticus (lorazepam/diazepam/midazolam)
4. eclampsia
5. detox (esp ETOH-withdrawal)
6. Night terrors/ sleep walking (increase STAGE2/ decrease STAGE4&REM)
7. General anesthetic (amnesia, muscle relaxation)
8. hypnotic (insomnia)

Question 8

What 3 benzo’s are used to treat status epileptics

Answer 8

1. Diazepam
2. lorazepam
3. midazolam

Question 9

Benzodiazepines:
Adverse
Comparison to Barbituates
Overdose treatment

Answer 9

1. dependence
2. CNS depression (exacerbated by ETOH)
3. precipitate seizures w/ causing Acute Benzo if chronic Benzo use

• Benzos safer than Barbs b/c less respiratory depression, coma, antidote available
• Overdose tx: Flumazenil (competitive GABA:Benzo-R antagonist

Question 10

Non-benzodiazepine Hypnotics:

Name 3

Answer 10

“all ZZZs put you to sleep”

1. Zolipidem
2. Zaleplon
3. esZopiclone

Question 11

Non-benzodiazepine Hypnotics:
MOA
Effect on sleep cycle
Clinical Use (1)
Duration?

Answer 11

• Bind BZI subtype of GABA-R
• Sleep cycle less affected (no change in REM) as compared with Benzos

1. insomnia
   - short duration b/c rapidly metabolized by liver

Question 12

Non-benzodiazepine Hypnotics:
Adverse (2)
Antidote

Answer 12

1. Ataxia
2. HA/ confusion

-effects reversed by Flumazenil

Question 13

Non-benzodiazepine Hypnotics:

Compare to older sedative hypnotics(4)

Answer 13

1. Modest day-after psychomotor depression
2. few amnestic effects
3. less dependence risk than Benzos
4. lower abuse potential (increase dose= increase GI upset)

Question 14

2 ways for local anesthetic to cross BBB?

Answer 14

1. lipid soluble

2. active transport

Question 15

Drugs with decreased solubility in blood have what kind of onset/duration?
Example?

Answer 15

rapid induction & rapid recovery times

• Nitrous Oxide (N2O) has low blood/low lipid solubility
• -> fast induction & low potency

Question 16

Describe MAC

Answer 16

Minimal Alveolar Concentration

=concentration required to prevent 50% of subjects from moving in response to noxious stimulus

Question 17

what’s the relationship btw potency and MAC

Answer 17

inverse

potency= 1/MAC

Question 18

What effect does increased drug solubility in lipids have on potency?
Example?

Answer 18

increase lipid solubility = increase potency

• Halothane has high lipid/blood solubility–> slow induction and high potency

Question 19

Inhaled anesthetics:

7

Answer 19

all end in “-ane” except N2O

1. Desflurane
2. Halothane
3. Enflurane
4. Isoflurane
5. Sevoflrane
6. Methoxyflurane
7. N2O

Question 20

What kind of effect does N2O as a inhaled anesthetic?

Answer 20

Not strong enough to suppress CNS alone but potentiates other drugs when used in combo

Question 21

Inhaled anesthetics:
MOA
Effects (4)

Answer 21

• Unknown MOA

1. Myocardial depression
2. respiratory depression
3. increased cerebral blood flow (decrease cerebral metabolic demand)
4. N/V (couple with anti-emetic post-surgery)

Question 22

Inhaled anesthetics:
Adverse
1. Halothane
2. Methoxyflurane
3. Enflurane
4. N2O

Answer 22

1. ‘H’alothane–> ‘H’epatotox
2. Methoxyflurane –>Nephrotox
3. ‘E’nfluane–> ‘E’pileptic potential
4. N2O–>expansion of trapped gases in body cavity

Question 23

Describe Malignant Hyperthermia

Etiology

Answer 23

-rare, life-threatening condition in which inhaled anesthetics or succinylcholine induce F/Severe Muscle contractions

• Autosomal Dominant with variable penetrance
• Mutation in VSens RyR–>increase Ca+2 release from SR

Question 24

Treatment for Malignant Hyperthermia

MOA

Answer 24

Dantrolene, RyR antagonist

Question 25

IV anesthetics:

Name 5

Answer 25

“The Mighty King Proposes Foolishly to Oprah”

1. Thiopental (Barb)
2. Midazolam (Benzo)
3. Ketamine (Arylcyclohexylamines)
4. Propofol
5. Opioid (morphine/ fentanyl)

Question 26

Thiopental:
Potency
Lipid Solubility 
Brain entry/ brain effect
Use

Answer 26

• high potency
• high lipid solubility
• rapid entry into brain/ decrease cerebral blood flow

Use: induction of anesthesia and Short surgical procedures

Question 27

Thiopental:

elimination

Answer 27

rapid redistribution into tissue and fat

Question 28

Midazolam:
Use
Admin w/...
Adverse (3)
Treatment of overdose

Answer 28

1. endoscopy (short procedure where you don’t need to put patient completely under

Admin with Gaseous Anesthetics and Narcotics

Adverse:

1. severe post-op Respiratory depression
2. decrease BP
3. anterograde amnesia

Overdose tx: Flumazenil

Question 29

Ketamine ( a Arylcyclohexylamines)
MOA
Heart effects, CNS effects
Adverse (2)

Answer 29

PCP analog–>block NMDA-R
- cardiovascular stimulants/ increase cerebral blood flow

1. disorientation
2. hallucination/ bad dreams

Question 30

Propofol:
MOA
induction
Use(2)
comparison to thiopental

Answer 30

• potentiates GABA-A and inhib NMDA-R (‘pro’ GABA-a, ‘fool’ NMDA-R)
• rapid induction

1. Sedation in ICU
2. short procedures

Less post-op Nausea than thiopental

Question 31

Opioids:
Name 2 IV
MOA

Answer 31

1. Morphine
2. Fentanyl

-bind mu-R and typically combined with other CNS depressants during general anesthesia

Question 32

which IV anesthetic increases cerebral b.flow?

decreases?

Answer 32

increase = ketamine
decrease= thiopental

Question 33

Effect of COPD/atelectasis on induction time for inhaled anesthetics

Answer 33

increase Dead space–>increase time of anesthetic to become effective

Question 34

Effect of increased HR on induction time

Answer 34

increase HR–> increase b.flow–>
decrease partial pressure of drug (dilutes drug in blood)
–> increase time of anesthetic to become effective

Question 35

MAC not affected by:

Answer 35

1. Type of Noxious stimulus
2. Sex
3. Height
4. Weight
5. Duration of exposure

Question 36

How is MAC affected by: 
Age
Hyperthyroidism
Sedative interaction
Amphetamine interaction
Red hair

Answer 36

• MAC is approximated for a 40yo, increase MAC in infancy and decrease MAC in old age
• hyperthyroidism- increase MAC
• Sedative- decrease MAC
• Amphetamine- increase MAC
• Red hair- increase MAC

Question 37

Local Anesthetics: 
Name Esters (4)

Answer 37

1. Procaine
2. Cocaine
3. Tetracaine
4. Benzocaine

Question 38

Local Anesthetics:

Amides (3)

Answer 38

“am’I’des have 2 I’s in name”

1. Lidocaine
2. Mepivacaine
3. Bupivacaine

Question 39

Local Anesthetics:

MOA

Answer 39

block Na+ channels by binding inner portion of receptor

Question 40

Local Anesthetics:
Order of Neuron affected

Order of sensation loss

Answer 40

• most effective in rapidly firing neurons
• small myelinated >small unmyelinated> large myelinated > large unmyelinated

-pain > temp > touch > pressure

Question 41

Local Anesthetics:
Structure/charge
Affect of Infection in area to drug effect

Answer 41

• tertiary –> penetrate membrane in uncharged form then binds to ion channel as charged form
• In infected/acidic tissue, alkaline anesthetics are charged and can’t penetrate membrane effectively —> NEED MORE ANESTHETIC

Question 42

Local Anesthetic:
Use
Allergy

Answer 42

1. Minor surgical procedures
2. spinal anesthesia

• if allergic to esters, give amides

Question 43

Local Anesthetics:

Adverse

Answer 43

1. CNS excitation
2. Severe cardiovascular tox (Bupivacaine)
3. HTN, Hypotension, Arrhythmia (cocaine)
   4 Methemoglobinemia (Benzocaine)

Question 44

Neuromuscular blocking drugs:

Clinical Uses

Answer 44

Muscle paralysis in surgery or Mechanical Ventilation

selective for motor nicotinic-R

Question 45

Depolarizing Neuromuscular Blocking Drugs:
Name Drug (1)

Answer 45

Succinylcholine

Question 46

Succinylcholine:

MOA

Answer 46

Strong Ach-R agonist–>produces sustained depolarization and prevents muscle contraction

Question 47

Succinylcholine:

Phase I vs Phase2 block

Answer 47

Phase I: prolonged depolarization–>Flaccid paralysis

• No Antidote
• Potentiated by AchEi

Phase 2: repolarized but desensitized

• Ach-R are available
• reversed with AchEi

Question 48

Succinylcholine:

Complications (3)

Answer 48

1. hypercalcemia
2. hyperkalemia
3. malignant hyperthermia

Question 49

Nondepolarizing Neuromuscular Blocking Drugs:
Name Drugs (6)

Answer 49

“containe -cur-“ in them

1. Tubocurarine
2. atracurium
3. mivacurium
4. pancuronium
5. vecuronium
6. rocuronium

Question 50

Nondepolarizing Neuromuscular Blocking Drugs:
MOA
Reversal(3)

Answer 50

• competitive antagonists- compete with Ach for receptor
• Reversal:
  1. Neostigmine (w/atropine to prevent bradycardia)
  2. edrophonium
  3. other cholinesterase inhibitors

Question 51

Dantrolene:
MOA
Clinical Use(2)

Answer 51

• binds RyR to prevent Ca+2 release from SR

1. Malignant Hyperthermia
2. Neuroleptic Malignant Syndrome

Question 52

Baclofen:
MOA
Clinical Use (3)

Answer 52

-Activates GABA-b-R at spinal cord level–>skeletal muscle relaxation (PERIPHERAL)

1. Muscle spasms (acute low back pain)
   2 Post-spinal injury
2. MS

Question 53

Cyclobenzaprine:
MOA
Structurally similar to what?
Clinical Use (1)
Adverse

Answer 53

-CENTRALLY acting sk.muscle relaxant.
Structurally similar to TCAs

1. Muscle spasms (not neuro-related)

Adverse similar to anticholinergic drugs.

1. Drowsiness
2. Dry mouth
3. Dizzy
4. Blurred Vision

Question 54

NT changes in Parkinson’s disease

Answer 54

decrease DA

increase Ach

Question 55

Parkinson’s Disease drugs (5)

Answer 55

“BALSA”

1. Bromocriptine
2. Amantadine
3. Levodopa (w/ carbidopa)
4. Selegiline (and COMT inhibitors
5. Antimuscarinics (Benztropine)

Question 56

Which parkinson’s drug inhibits DOPA decarboxylase (DDC)?

Overall effect

Answer 56

Carbidopa

prevents peripheral L-DOPA –> dopamine conversion

Question 57

Name the 2 COMT inhibitors.
Overall effect
Which crosses the BBB?

Answer 57

1. Entacapone (‘can’t get ENTA the brain’)
2. Tolcapone (‘can go TOLtally everywhere’)

prevents L-Dopa breakdown into 3-O-methyldopa (3-OMD)

Question 58

Name the 2 MAO inhibitor used in Parkinson’s.
What specific MAOi do they inhibit
Overall effect

Answer 58

1. Selegiline= enhances response to L-DOPA
2. Rasagiline

• inhib MAO-Type B
• prevent Dopamine –> DOPAC conversion

Question 59

Name 3 Dopamine agonists in PD.

Which are ergots and which are non-ergots?

Answer 59

Ergot:
1. Bromocriptine

Non-Ergot

2. Pramipexole
3. Ropinirole

Question 60

Drug which increases dopamine availability in PD?

Adverse

Answer 60

Amantadine (increase DA release, decrease DA reuptake)

Adverse:

1. Ataxia
2. Livedo reticularis (purple lacey skin- may want to google picture)

Question 61

Agents which increase L-DOPA availability in Pd

Answer 61

Agents prevent PERIPHERAL L-DOPA degradation–> increase L-DOPA entering CNS to be converted to Dopamine centrally

1. Levodopa (w/ carbidopa)- blocks DDC, reduces Levodopa side effects of N/V
2. Entacapone & Tolcapone- block COMT

Question 62

Agents which prevent DA breakdown in PD

Answer 62

Agents act CENTRALLY to inhib breakdown of dopamine

1. Selegiline- block MAO-B (adverse= orthostatic hypotension)
2. Tolcapone- block COMT centrally

Question 63

Agents which curb excess cholinergic activity in PD

Answer 63

Benzotropine (“PARK your Mercedes-BENZ”)

-improves tremor and rigidity but has little effect on bradykinesia in Parkinsons

Question 64

Levodopa/ carbidopa:
MOA
Adverse (2)

Answer 64

• L-DOPA can cross BBB –> converted by central -DDC to dopamine
• peripheral DDC is inhibited by Carbadopa
• this combo together increases the bioavailability of L-DOPA in brain with limited adverse

1. Arrhythmias (from peripheral formation of catecholamines)
2. Dyskinesia-Akinesia (‘on-off’) symptoms (long-term use)

Question 65

Selegiline, Rasagiline:
MOA
Clinical Use
Adverse (1)

Answer 65

-inhib MAO-B–>increase dopamine availability
Use: adjunct agent to L-dopa in PD
Adverse: enhance effects of L-dopa

Question 66

Alzheimers drugs:

Name (5)

Answer 66

NMDA-R antagonist
1. Memantine

AchEi

2. Donepezil
3. galantamine
4. rivastigmine
5. tacrine

Question 67

Memantine:
MOA
Use
Adverse (2)

Answer 67

• non-competitive NMDA-R antagonist–> prevent excitotox mediated by Ca+2
• Alzheimer drugs

1. Dizzy/confusion
2. Hallucinations

Question 68

Donepezil, galantamine, rivastigmine, tacrine:
MOA
Use
Adverse (3)

Answer 68

• AchEi–> increase Ach
• Alzheimer treatment: don’t change disease course but may slow progression

1. N
2. Dizzy
3. insomnia

Question 69

Huntington Disease:

Name 3 drugs

Answer 69

1. Tetrabenazine
2. Reserpine
3. Haloperidol

Question 70

Tetrabenazine, reserpine:
MOA
Use
Adverse (2)

Answer 70

• inhib vesicular monoamine transporter (VMAT) –> decrease dopamine vesicle packaging and release
  -Huntington disease
  Adverse: monitor for hypotension and depression

Question 71

Haloperidol:
MOA
Use

Answer 71

• D2-R antagonist
  1. Huntington disease
  2. Anti-psych drug

Question 72

Riluzole:
MOA
Effect

Answer 72

• unknown MOA
• decrease glutamate excitotoxicity –> increase survival

“For LOU Gehrig disease, give riLOUzole”

Question 73

Triptans:
Name (1)
MOA

Answer 73

Sumatriptan (nasal or pill)

• 5-HT1b/1d agonists.
  1. inhib CN V
  2. prevent vasoactive peptide release
  3. induce vasoconstriction

Question 74

Triptans:
Use (2)
Adverse (2)
Contra (2)

Answer 74

Use: 1. Acute migraine 2. cluster HA
Adverse: 1. Coronary vasospasm 2. mild paresthesia
Contra: 1. CAD(caution in elderly) 2. Pritzmetal angina

Question 75

Drugs causing Cinchonism (2)

Answer 75

1. Quinidine

2. Quinine

Question 76

Drugs causing Parkinson-like syndromes (3)

Answer 76

“cogwheel rigidity of ARM”

1. Antipsychotics
2. Reserpine
3. Metoclopramide

Question 77

Drugs causing Seizures(4)

Answer 77

“with seizures, I BItE my tongue”

1. Isoniazid (B6 def)
2. Buproprion
3. Imipenem/cilastatin
4. Enflurane

Question 78

Drugs causing Tardive Dyskinesia (2)

Answer 78

1. Antipsychotics

2. Metoclopramide

Question 79

Drugs causing Nephrotoxicity/ Ototoxicity (4)

Answer 79

1. Aminoglycosides
2. Vancomycin
3. Loop diuretics
4. Cisplatin (may respond to amifostine)