Neuropharm- Comp 1

Question 1

A1 Receptor binding effects

Answer 1

• increased vascular smooth muscle contraction
• mydriasis (increased contraction of pupillary sphincter m.)
• increased intestinal and bladder spincter contraction

Gq protein class

Question 2

a2 R binding effects

Answer 2

• inhibition of NT release ( - NE from nerve endings, Ach from adjacent PS neurons)
• decreased sympathetic outflow
• increased platelet aggregation
• decreased lipolysis
• decreased insulin release
• decreased aqueous humor production

Gi protein class

Question 3

B1 R effects

Answer 3

• increased hr, contractility
• increased renin release –> which increases BP
• increased lipolysis

Gs protein class

Question 4

B2 R effects

Answer 4

• Smooth m. Relaxation (vasodilation in skeletal m., bronchodilation, uterine smooth m., GI smooth m.)
• CNS: presynaptic Rs stimulate NT release
• increased aqueous humor production
• increased HEart contraction
• increased platelet aggregation
• increased insulin secretion, increased lipolysis, increased glycogenolysis
• increased K+ uptake

Gs protein class

Question 5

NSAIDs
(Aspirin, ibuprofen, naproxen)

Mechanism of Action

Answer 5

Cox inhibition

Aspirin is irreversible, others are reversible

Question 6

NSAIDs
(Aspirin, ibuprofen, naproxen)

Use

Answer 6

• Decrease PGE2 synthesis, stops pain nerve sensitization
• Early intervention
  against platelet action.
  Acute pain suppression.

Tension headache & Migrane Acute action

Question 7

NSAIDs
(Aspirin, ibuprofen, naproxen)

Toxicity

Answer 7

Bleeding, GI irritation, erosions, and ulcers

• salicyclism, increased leukotrienes (asthma, allergies) with aspirin
• -> with allergy to ASA, avoid NSAIDs

Question 8

Acetaminophen

Mechanism of action

Answer 8

Weak COX inhibition

Question 9

Acetaminophen

Use

Answer 9

• Decease PGE2 synthesis
• Stops pain nerve sensitization
• Less GI effects than NSAIDs

Tension headaches

Question 10

Acetaminophen

Toxicity

Answer 10

Liver toxicity at high doses Or EtOH consumption

N-acetylcysteine is the antidote

Question 11

Benzodiazepines

Examples and Mechanism

Answer 11

Estazolam, Flurazepam. Temazepam

Potentiate GABA
at Cl-channel (increase frequency)

Question 12

Benzodiazepines

Use

Answer 12

Muscle relaxant; Anxiolytic
Status epilepticus seizures

Tension headaches

EtOH withdrawal, muscle relaxant, sedative, preop-sedation/induction of mechanically ventillation

Question 13

Benzodiazepines

Toxicity

Answer 13

• Drowsiness
• Impaired judgement
• Depressed motor skills
• Anterograde amnesia
• Tolerance
• Dependence

Question 14

Antimuscarinics

Examples and MOA

Answer 14

Cyclobenzaprine
Methocarbamol
Orphenadrine
Amitriptyline

M3 Block; Amitriptyline (tricyclic antidepressant) inhibits reuptake of 5HT and NE

Question 15

Antimuscarinics

Use

Answer 15

Local Strain, muscle spasm

Tension headaches

Question 16

Tizanidine

Mechanism of Action

Answer 16

Centrally acting α2 adrenergic agonist (reduced norepinephrine outflow)

Question 17

Tizanidine

Use

Answer 17

Muscle relaxant

-Migraine prophylaxis
Multiple sclerosis, amyotrophic lateral sclerosis (ALS)

Also for tension headaches

Question 18

Tizanidine

Toxicity

Answer 18

Drug interactions (fluoroquinolones) with CYP1A2 
raises tizanadine levels

Results in enhanced CNS effects

Question 19

“Ergots”

Mechanism of Action, Drugs

Answer 19

• Ergotamine
• Ergotamine Tartrate and Caffeine (Cafergot)
• Dihydroergotamine

Vasoconstrictor at
5-HT1B/1D receptor

Question 20

“Ergots”

Toxicity

Answer 20

Vasoconstriction in

coronary arteries. Avoid coronary artery disease, atherosclerosis

Question 21

“Ergots”

Use

Answer 21

Counteracts the early

vasodilating phase of Acute Migrane

Question 22

“Triptans”

MOA, Drugs

Answer 22

• Sumatriptan
• Almotriptan
• Rizatriptan
• Zolmitriptan
• Naratriptan
• Eletriptan
• Partial Agonist at
  5HT1D/1B receptors
• Vasoconstriction to reverse vasodilatory phase

Question 23

“Triptans”

Use

Answer 23

Migraine (acute) and cluster
headaches

Oral, Nasal, SQ administration; short duration requires multi-dose, but must limit daily dosing

Question 24

“Triptans”

Toxicity

Answer 24

All Drugs:
Paresthesias, dizziness, muscle weakness, coronary vasoconstriction, chest pain. Not for coronary artery disease patients.

Serotonin syndrome: SSRIs, MAOIs, tricyclic antidepressants, St John’s Wort, linezolid

Question 25

Propranolol

MOA

Answer 25

Nonselective Beta

Blocker

Question 26

Propanolol

Use

Answer 26

Prevents trigeminal
nerve excitement

Migrane Prophylaxis

Question 27

Propanolol

Toxicity

Answer 27

• Hypoglycemia
• Bronchoconstriction via beta2 blockade
• Vasoconstriction

Question 28

Amitriptyline

MOA

Answer 28

Tricyclic blocks

reuptake of 5-HT

Question 29

Amitriptyline

Use

Answer 29

Maintains serotonin
against vasodilating phase

Migrane prophylaxis

Question 30

Amitriptyline

Toxicity

Answer 30

• Anticholinergic (M3) effects
• Alpha1 block (orthostasis)
• H1 block (sedation)

Question 31

Calcium channel Blockers

Examples and MOA

Answer 31

E.g. Verapamil
Diltiazem

Block vascular calcium channels; Vasodilation

Question 32

Calcium channel Blockers

Use

Answer 32

Prevent onset of vasoconstrictive
ischemic phase

Migrane prophylaxis

Question 33

Ca2+ Channel blockers

Toxicity

Answer 33

Hypotension
Constipation
Gingival hyperplasia

Question 34

Valproic Acid and Valproate

MOA

Answer 34

• Mixed action:
  1. Sodium and calcium channel blocker
  2. Increase GABA synthesis
  3. Reduce GABA degradation
  4. Decreases glutamate at NMDA receptor

Question 35

Valproic Acid and Valproate

Use

Answer 35

Migrane Prophylaxis

Absence Seizures, Myoclonic Seizures, Specific Myoclonic Seizures, Generalized Tonic- Clonic Seizures.

Manic phase of bipolar disorder

Question 36

Valproic Acid and Valproate

Toxicity

Answer 36

Birth defects (blocks
folate absorption), severe hepatitis, weight gain, GI upset

Inhibitor of CYP

Question 37

Topiramate

MOA

Answer 37

Potentiate GABA

Blocks sodium channels and Glutamate

Question 38

Topiramate

Use

Answer 38

Migrane prophylaxis

Partial Seizures,
Generalized Tonic- Clonic Seizures
Adjunct therapy for headache

Question 39

Topiramate

Toxicity

Answer 39

• CNS effect
• Teratogen
• Reduced oral contraceptive effect

Question 40

Phenothiazines
Prochlorperazine

MOA

Answer 40

Dopamine receptor antagonists. Also M3 and histamine H1 blockade.

Question 41

Phenothiazines
Prochlorperazine

Use

Answer 41

Antiemetic

Used in migrane prophylaxis

Question 42

Phenothiazines
Prochlorperazine

Toxicity

Answer 42

EPS symptoms and Parkinson’s like effects, increase in prolactin, muscarinic (M3) and histamine (H1) blockade.

Elevated QT interval.

Question 43

Botulinum toxin

MOA

Answer 43

Cleavage of Snap-25 protein, which prevents vesicle fusion, release of Ach vesicles

Question 44

Botulinum toxin

Use

Answer 44

Migraine prophylaxis

Blepharospasm
Focal hand dystonia
Cervical dystonia

Question 45

Botulinum toxin

Toxicity

Answer 45

Absence of muscarinic actions, loss of muscle tone, fatigue, paralysis, respiratory arrest

Question 46

Carbamazepine
Oxcarbazepine (prodrug)

MOA

Answer 46

Sodium channel blockade

Question 47

Carbamazepine
Oxcarbazepine (prodrug)

Use

Answer 47

Trigeminal neuralgia

Partial Seizures,
Generalized Tonic-Clonic Seizures, Manic episodes

Question 48

Carbamazepine
Oxcarbazepine (prodrug)

Toxicity

Answer 48

Drowsiness, Ataxia, Agranulocytosis, SIADH (hyponatremia), Teratogen, Nausea, diplopia, headache

Potent inducers of CYP isoenzymes (e.g. CYP3A4); induces own metabolism

Question 49

Lorazepam
Diazepam
Midazolam
Clorazepate
Clobazam

Use

Answer 49

Status epilepticus initial treatment, anxiolytic, EtOH withdrawal, muscle relaxant, sedative, preop-sedation/induction of mechanically ventillation, tension headaches

Question 50

Lorazepam
Diazepam
Midazolam
Clorazepate
Clobazam

MOA

Answer 50

Enhance GABA-mediated Cl- influx, increased membrane polarization

Question 51

Lorazepam
Diazepam
Midazolam
Clorazepate
Clobazam

Adverse effects

Answer 51

Sedation

Tolerance can occur with chronic use

Interactions minimal

Question 52

Ethosuximide

Use

Answer 52

Absence seizures

Question 53

Ethosuximide

MOA

Answer 53

Blocks T-type (low-threshold) Ca2+ channels thus reducing pacemaker current underlying thalamic rhythm in spikes and waves seen in generalized seizures.

Question 54

Ethosuximide

Adverse effects

Answer 54

Nausea, headache, dizziness, hyperactivity

Question 55

Felbamate

Use

Answer 55

Refractory to other seizure treatments; typically used for partial and Lennox-Gastault syndrome

Question 56

Felbamate

MOA

Answer 56

• Blocks glycine activation of NMDA-type glutamate receptors

- GABAa receptor potentiation

Question 57

Felbamate

Adverse effects

Answer 57

Aplastic anemia and hepatotoxicity limit its use (must obtain informed consent)

Also: Nausea, vomiting, headache, dizziness, somnolence, insomnia

Question 58

Gabapentin,
Pregabalin
MOA

Answer 58

Blocks presynaptic voltage-gated Ca2+ channels possessing α2δ subunit

May may modulate the release of excitatory neurotransmitters that participate in epileptogenensis and nociception

Question 59

Gabapentin,
Pregabalin
Use

Answer 59

Adjunct therapy for partial seizures, also for neuropathic pain & bipolar disorder

Question 60

Gabapentin,
Pregabalin
ADEs

Answer 60

Somnolence, dizziness, ataxia;
Favorable pharmacokinetic profile; dosage adjustment necessary in renal impairment

• Interactions are minimal

Question 61

Lamotrigine

MOA

Answer 61

Prolong inactivation of voltage-gated Na+ channels, decreases ability of neurons to fire at high frequency

Acts on voltage-gated presynaptic Ca2+ channels– decreases glutamate release

Question 62

Lamotrigine

Use

Answer 62

Partial seizures, primary general epilepsy, Lennox-Gestault Syndrome (can be adjunct or monotherapy)

Also for bipolar disorder maintenance

Question 63

Lamotrigine

ADEs

Answer 63

Dizziness, headache, diplopia, rash including potentially life-threatening Stevens-Johnson syndrome

Slow dose titration required to reduce risk of rash (over 6-8 weeks)

Question 64

Levetiracetam

MOA

Answer 64

Assumed to act on synaptic protein SV2A, a/w antiseizure activity in mice

Question 65

Levetiracetam

Use

Answer 65

Broad spectrum drug, focal seizures, primary general tonic/clonic seizures; off label for status epilepticus

Question 66

Levetiracetam

ADEs

Answer 66

Nervousness, dizziness, depression, seizures
Pregnancy: animal studies show teratogenic effects

**No CYP or UGT metabolism

Question 67

Phenobarbital
(Barbituates)
MOA

Answer 67

Enhances GABA-mediated Cl- influx

Question 68

Phenobarbital
(Barbituates)
Use

Answer 68

Partial seizures, primary general tonic/clonic seizures; Status epilepticus alternative

Question 69

Phenobarbital
(Barbituates)
ADEs

Answer 69

Sedation, decreased cognition, ataxia, hyperactivity

**Potent inducer of CYP isoenzymes

t½ 75-110h

Question 70

Phenytoin, Fosphenytoin

MOA

Answer 70

Prolong inactivation of voltage-gated Na+ channels , decreased glutamate release

Question 71

Phenytoin, Fosphenytoin

Use

Answer 71

Complex partial seizures, general tonic/clonic seizures, status epilepticus, prevention or treatment of seizures during neurosurgery

Nonseizure: ventricular arrythmias, sometimes from digitalis intodication

Question 72

Phenytoin, Fosphenytoin

ADEs

Answer 72

Diplopia, ataxia, hypotension, bradycardia, gingival hyperplasia, hirsutism, neuropathy, nystagmus, jaundice, osteomalacia, skin coarsening, purple glove syndrome (IV), SJS/TEN/DRESS
- Teratogenic (interference with folic acid absorption)

• Nonlinear elimination kinetics at therapeutic doses;
• Potent inducer of CYP isoenzymes

Question 73

Topiramate

MOA

Answer 73

Likely:
Prolonged inactivation of voltage-gated Na+ channels

Increased GABA synthesis and decreased GABA degradation

Blocks kainite and AMPA glutamate receptors

Weakly inhibits carbonic anhydrase

Question 74

Topiramate

Use

Answer 74

Partial seizures, Primary General Tonic/Clonic seizures, Lennox-Gestalt syndrome (adjunctive)

Nonseizure: Migrane prophylaxis, cluster headaches, neuropathy, weight loss with phenteramine

Question 75

Topiramate

ADEs

Answer 75

• Somnolence
• cognitive slowing
• confusion
• paresthesias
• Hyperthermia most commonly in children; metabolic acidosis; renal calculus

Use with caution in patients with renal impairment and those with hepatic impairment

-Inhibits CYP2C19 and a weak inducer of CYP3A4

Question 76

Valproate

MOA

Answer 76

increased GABA synthesis, increased GABA transport from synapse, and decreased GABA degradation, or may mimic GABA actions at postsynaptic receptor sites

Possibly blocks voltage-gated Na+ channels

Possibly blocks T-type Ca2+ channels thus reducing pacemaker current underlying thalamic rhythm in spike and waves seen in generalized seizures

Possible histone deacetylation

Possible block of NMDA receptors

Question 77

Valproate

Use

Answer 77

Generalized tonic/clonic seizures,
Focal seizures,
Absence seizures,
Status Epilepticus (off-label)

Nonseizure: Acute mania with bipolar disorder, migrane prophylaxis, diabetic neuropathy

Question 78

Valproate

ADEs

Answer 78

Nausea, tremor, weight gain, hair loss, teratogenic, thrombocytopenia, hyperammonia, hepatotoxic, rare acute pancreatitis (Boxed warning)

Inhibits CYP isoenzymes

Question 79

Aspirin

MOA

Answer 79

Irreversible acetylation of serine on COX-1and 2. Blocks Thromboxane (TXA2)

Question 80

ASA

Use

Answer 80

Analgesic, Antipyretic, Anti-inflammatory, Low dose antiplatelet

Question 81

ASA

Toxicity

Answer 81

• Bleeding, GI irritation, erosion, ulceration, allergic reactions (leukotriene mediated)
• Compensated resp. alkalosis. (Manage by ion trapping)
• salicylism (ringing ears), Reye’s syndrome

Question 82

Dipyridamole

MOA

Answer 82

• Phosphodiesterase inhibitor -blogs PGI2 binding (increases cAMP, cGMP, and NO
• –>Vasodilator (PGI2).
• Inhibits TXA2 synthesis and receptors; Antiplatelet

Question 83

Dipyridamole

Use

Answer 83

Combine with aspirin for stroke and TIA prevention

Question 84

Dipyridamole

Toxicity

Answer 84

Bleeding, hypotension, vasodilation

Question 85

Cilostasol

MOA

Answer 85

Phosphodiesterase inhibitor (increases cAMP). Acts to stabilize platelets; Antiplatelet

Question 86

Cilostasol

Use

Answer 86

Intermittent claudication.
Thrombosis in peripheral vascular disease.
Prevents stroke.

Question 87

Cilostasol

Toxicity

Answer 87

Vascular headache, tachycardia (secondary to vasodilation)

Question 88

Clopidogrel

MOA

Answer 88

Irreversible ADP receptor blocker. Stops expression of surface GPIIb/IIIa.
Prodrug; Antiplatelet

Question 89

Clopidogrel

Use

Answer 89

Angioplasty, stent, CAD, Stroke
vascular ischemia with atherosclerosis.
Acute coronary syndrome.

Question 90

Clopidogrel

Toxicity

Answer 90

Bleeding.
Alternative if patient has aspirin contraindication.
Safer than Ticlopidine.

May lose effect due to inactive CYP2C19.
14% of population is variant and cannot convert clopidogrel to active form. These patients are at risk for MI stroke and death.

Question 91

Ticlopidine

MOA

Answer 91

Irreversible ADP receptor blocker. Stops expression of surface GPIIb/IIIa.
Prodrug; Antiplatelet

Question 92

Ticlopidine

Use

Answer 92

Angioplasty, stent, CAD, Stroke
vascular ischemia with atherosclerosis.
Acute coronary syndrome.

Question 93

Ticlopidine

Toxicity

Answer 93

Bleeding.
**Neutropenia,
agranulocytosis, thrombotic thrombocytopenic purpura (TTP) and aplastic anemia

Question 94

Prasugrel

MOA

Answer 94

Irreversible ADP receptor blocker. Stops expression of surface GPIIb/IIIa.
Prodrug; Antiplatelet

Question 95

Prasugrel

Use

Answer 95

Angioplasty, stent, CAD, Stroke
vascular ischemia with atherosclerosis.
Acute coronary syndrome.

Faster onset, more consistent action than clopidogrel.

Question 96

Prasugrel

Toxicity

Answer 96

Multi-enzyme conversion to active metabolite, therefore less problems with enzyme inactivity.
Conversion by CYP3A4 and CYP2B6; not CYP2C19.
Bleeding.

Question 97

Ticagrelor

MOA

Answer 97

Reversible ADP receptor blocker

Direct acting; Antiplatelet

Question 98

Ticagrelor

Use

Answer 98

Angioplasty, stent, CAD, Stroke
vascular ischemia with atherosclerosis.
Acute coronary syndrome.

Faster action than clopidogrel
Prevents thrombotic events

Question 99

Ticagrelor

Toxicity

Answer 99

Drug inhibits CYP3A4 (so will increase concentrations of drugs such as statins).

Bleeding

Question 100

Abciximab

MOA

Answer 100

High affinity for GPIIb/IIIa receptors

Blocks the glycoprotein IIb/IIIa pathway involved in cross-linking platelets

Long-acting (7-10 days)

Question 101

Abciximab

Use

Answer 101

Angioplasty, stent, CAD, Stroke

Question 102

Abciximab

Toxicity

Answer 102

Bleeding

Question 103

Eptifibatide
Tirofiban
MOA

Answer 103

Short-acting,
reversible, binds GPIIb/IIIa receptors

Antiplatelet

Question 104

Eptifibatide
Tirofiban
Use

Answer 104

Angioplasty, stent, CAD, Stroke

Question 105

Eptifibatide
Tirofiban
Toxicity

Answer 105

Bleeding

Question 106

Heparin
Unfractionated
MOA

Answer 106

Binds Antithrombin III to reduce active clotting factors (II and Xa)

Question 107

Heparin
Unfractionated
Use

Answer 107

IV anticoagulant.
Rapid acting, t1/2 1.5 hrs.
Does not cross placenta (safe in pregnancy)

Question 108

Heparin
Unfractionated
Toxicity

Answer 108

Bleeding
- Use protamine to bind heparin (antidote).
Thrombocytopenia
Osteoporosis
Hyperkalemia
Hypersensitivity

Question 109

Low Molecular Weight Heparins

MOA

Answer 109

Enoxaparin, Dalteparin, Tinzaparin

Binds Antithrombin III to reduce active clotting factors

Question 110

Low Molecular Weight Heparins

Use

Answer 110

SQ anticoagulant. Rapid acting t1/2 4-6 hrs

Question 111

Low Molecular Weight Heparins

Toxicity

Answer 111

Bleeding, less thrombocytopenia

Question 112

Fondaparinux
Idraparinux
MOA

Answer 112

Synthetic pentasaccharide of heparin which binds to antithrombin III.
Selective for factor Xa vs II

Question 113

Fondaparinux
Idraparinux
Use

Answer 113

Anticoagulant

Fondaparinux: s.c., t1/2 17-21 hrs (dosed once daily)

Idraparinux: s.c., t1/2 80 hrs (dosed once per week)

Question 114

Fondaparinux
Idraparinux
Toxicity

Answer 114

Bleeding, but minimal thrombocytopenia

Question 115

Warfarin

MOA

Answer 115

Blocks vitamin K epoxide reductase. Stops clotting factor synthesis.

Question 116

Warfarin

Use

Answer 116

Delay of 4-5 days for anticoagulant benefit. - Check INRs

Hypercoagulopathy, vascular necrosis, and protein C deficiency can be controlled by heparin.

Crosses placenta (teratogen)

Question 117

Warfarin

Toxicity

Answer 117

Bleeding.

Add vitamin K or replace clotting factors (severe bleed).

Drug interactions (protein 
binding and CYP mediated)

Question 118

Bivalirudin
Argatroban
Dabigatran
MOA

Answer 118

Hirudin-like Direct Thrombin Inhibitors (DTI)

Question 119

Bivalirudin
Argatroban
Dabigatran
Use

Answer 119

Alternative to heparin in HIT. Rapid injectable, short-acting. Angioplasty, stent.

Dabigatran to prevent stroke in nonvalvular atrial fibrillation–Oral formulation

Question 120

Bivalirudin
Argatroban
Dabigatran
Toxicity

Answer 120

Bleeding, but no thrombocytopenia.

Idarucizumab is the antidote.

All require dose adjustment in renal impairment.

Question 121

Rivaroxaban
Apixaban
Edoxaban
MOA

Answer 121

Direct factor Xa inhibitor
(oral drugs)
Rapid onset

Question 122

Rivaroxaban
Apixaban
Edoxaban
Use

Answer 122

DVT, prevent strokes in patients with atrial fibrillation
VTE prophylaxis and treatment

Little monitoring, unlike warfarin

Question 123

Rivaroxaban
Apixaban
Edoxaban
Toxicity

Answer 123

Bleeding risk especially with drugs that inhibit CYP3A4.

No antidote, use antifibrinolytics for severe bleed

Impaired renal or hepatic function result in increased drug effect.

Question 124

Streptokinase
Urokinase
MOA

Answer 124

Natural tissue plasminogen activator (tPA); a protease which targets plasminogen to plasmin

Question 125

Streptokinase
Urokinase
Use

Answer 125

Infused in thrombosed vessel to lyse clot. (Fibrinolytic)

Streptokinase is a bacterial protein, can induce allergic reactions.
Replaced with newer drugs (alteplase)

Question 126

Streptokinase
Urokinase
Toxicity

Answer 126

All drugs increase bleeding.

Contraindications: Prior intracranial hemorrhage and malignant intracranial neoplasms

Reversed by aminocaproic acid tranexamic acid.

Block plasmin interaction with fibrin

Question 127

Anistreplase

MOA

Answer 127

(Streptokinase
plus plasminogen)
Activates plasminogen to plasmin

Question 128

Anistreplase

Use

Answer 128

Infused in thrombosed vessel to lyse clot.

Question 129

Anistreplase

Toxicity

Answer 129

All drugs increase bleeding.

Contraindications: Prior intracranial hemorrhage and malignant intracranial neoplasms

Reversed by aminocaproic acid tranexamic acid.

Block plasmin interaction with fibrin

Question 130

Alteplase
Reteplase
Tenecteplase
MOA

Answer 130

Human Recombinant tissue plasminogen activators tPA

Faster onset of action than alteplase

Longer t1/2 than alteplase or reteplase

Question 131

Alteplase
Reteplase
Tenecteplase
Use

Answer 131

Infused in thrombosed vessel to lyse clot.

Use IV asap, within 3 hrs for optimal benefit

Use: MI, acute ischemic stroke, pulmonary embolism, central venous catheterization.

Question 132

Alteplase
Reteplase
Tenecteplase
Toxicity

Answer 132

All drugs increase bleeding.
Contraindications: Prior intracranial hemorrhage and malignant intracranial neoplasms

Reversed by aminocaproic acid tranexamic acid.

Block plasmin interaction with fibrin

Question 133

Nifedipine

MOA

Answer 133

Calcium channel blocker

Question 134

Nifedipine

Use

Answer 134

Common to all CCBs; antianginal, antihypertensive

Arterioles relax, TPR and afterload decrease.
BP falls, heart works less for systole.

Stroke prevention

Question 135

Nifedipine

Toxicity

Answer 135

Arteriole action only
Decreases TPR, BP.
May elicit the SANS reflex and tachycardia.
Common to all “dipines”

Question 136

Labetalol

MOA

Answer 136

Alpha and Beta 1,2 antagonist, antioxidant potential

Question 137

Labetalol

Use

Answer 137

Hypertensive crisis, congestive heart failure, cocaine withdrawal

Question 138

Labetalol

Toxicity

Answer 138

Bronchoconstriction, masking hypoglycemia (beta-2), orthostasis (alpha-1)

Question 139

“Statin” drugs MOA
Lovastatin
Atorvastatin
Pravastatin
Simvastatin
Rosuvastatin

Answer 139

Competitively inhibit HMG CoA reductase.

Question 140

“Statin” drugs use
Lovastatin
Atorvastatin
Pravastatin
Simvastatin
Rosuvastatin

Answer 140

There is an increase in the number of LDL receptors
LDL decreases 25-45%.

Stroke prevention

Question 141

“Statin” drugs Toxicity
Lovastatin
Atorvastatin
Pravastatin
Simvastatin
Rosuvastatin

Answer 141

Hepatic toxicity, Myopathy, rhabdomyolysis

Drug interactions: enzyme inhibitors

Question 142

Cytochrome P450 Enzyme inhibitors

Answer 142

• grapefruit juice
• protease inhibitors,
• amiodarone
• cimetidine
• azole antifungals (e.g. ketoconazole)
• erythromycin
• sulfonamides
• isoniazid
• valproic acid
• quinidine
• acute alcohol abuse

Question 143

Cytochrome P450 Enzyme inducers

Answer 143

• St John’s wort
• phenytoin, phenobarbital, carbamazepine
• griseofulvin
• rifampin
• chronic alcohol abuse
• nevirapine

Question 144

B3 R effects

Answer 144

Gs

Increased lipolysis, increased thermogenesis, increased bladder relaxation