Cardio Pharm Flashcards

Question 1

Q

*Atorvastatin (10-80 mg)
*Rosuvastatin (5-40 mg)
Lovastatin (20-60 mg) Pravastatin (10-80 mg)
Simvastatin (20-40 mg)
Fluvastatin (20-80 mg)

First two are highest efficacy.

Answer

A

HMG CoA reductase inhibitors (statins)
-rate limiting step in de novo cholesterol synthesis.
SREBP senses low cholesterol is activated,
- tries to increase cholesterol biosynthesis, increase receptor mediated LDL, increase removal of LDL from blood, if high enough decrease VLDL production.
LDL-C decrease 18-55%
HDL-C decrease 5-15%
TG decrease 7-30%
_______________________________________
Pharmacokinetics:
Absorption
– Varies from 40% to 75% except for fluvastatin (almost complete)
– Enhanced by food
• All have high first-pass extraction by liver (site of action)
• Most of absorbed dose excreted in bile
• 5% to 30% excreted in urine (statin-dependent)
• Half-lives
– 1-3 hours except for atorvastatin (14 hours), rosuvastatin (19 hours)
– Hepatic cholesterol biosynthesis maximal midnight -2 AM, take in
evening (except ones with long half-lives)

-metabolized by CYP3A4, taken up for organic anion transporter (OAT) on liver
______________________________________
Side effects: myopathy, increased liver enzymes, slight risk of new onset diabetes
-Myopathy (with or without elevations in creatine kinase)
▪ Intense myalgia, first in arms and thighs, then entire body; fatigue
▪ Reversible when drug stopped
▪ Rhabdomyolysis > myoglobinuria > renal failure has been reported in
patients with CK levels 10x over normal
▪ Incidence < 0.1% in absence of other drugs that increase risk
________________________________
Contraindications:
Absolute: Active or chronic liver disease
Contraindicated in women who are pregnant, lactating or likely to become pregnant (category X, teratogenic)

Relative: Concomitant use of certain drugs

Question 2

Q

Evolocumab (11-17 days)

Alirocumab (12 days)

Answer

A

PCSK9 inhibitors
(function of PCSK9, • Produced in the ER, undergoes autocatalytic processing and is secreted • Diverts LDLR from recycling pathway towards lysosome for degradation)
-soaks up the PCSK9 and decrease clearance

LDL-C decreases 60%

Hypersensitivity reactions, possibly neurocognitive events

No contraindications

Question 3

Q

Ezetimibe

Answer

A

cholesterol absorption inhibitors - targets NPC1L1 cholesterol transporter on enterocytes

decreases delivery of cholesterol to liver
increase expression of hepatic LDL receptors
decrease cholesterol content of atherogenic particles

LDL-C decrease around 18%

HDL-C minimal change
TG unknown

Low incidence of reversible impaired hepatic function.

Moderate to severe hepatic impairment.

Question 4

Q

Cholestyramine

Answer

A

Bile acid sequesterant (resin)

Positive, hydrophobic molecule that binds bile acids facilitating their excretion, the liver needs to make more bile acids so it synthesizes more cholesterol (partially offsets) but also increase LDL receptor mediated endocytosis of LDL and VLDL

Have to take with meals or no effects, should not take with other drugs

LDL-C decrease 15-30%
HDL-C decrease 3-5%
TG No change or even increase

Side effects: GI distress, constipation Decreased absorption other drugs

Contraindications:
Absolute: dysbeta- lipoproteinemia,
TG >400 mg/dL (can increase TAGs)

Relative: TG >200 mg/dL

Question 5

Q

Colestipol

Answer

A

Bile acid sequesterant (resin)

Positive, hydrophobic molecule that binds bile acids facilitating their excretion, the liver needs to make more bile acids so it synthesizes more cholesterol (partially offsets) but also increase LDL receptor mediated endocytosis of LDL and VLDL

Have to take with meals or no effects, should not take with other drugs

LDL-C decrease 15-30%
HDL-C decrease 3-5%
TG No change or even increase

Side effects: GI distress, constipation
Decreased absorption other drugs

Absolute: dysbeta- lipoproteinemia, TG >400 mg/dL Relative: TG >200 mg/dL

Question 6

Q

Colesevelam

Answer

A

Bile acid sequesterant (resin)

Positive, hydrophobic molecule that binds bile acids facilitating their excretion, the liver needs to make more bile acids so it synthesizes more cholesterol (partially offsets) but also increase LDL receptor mediated endocytosis of LDL and VLDL

Have to take with meals or no effects, should not take with other drugs

LDL-C decrease 15-30%
HDL-C decrease 3-5%
TG No change or even increase

Side effects: GI distress, constipation
Decreased absorption other drugs

Contraindication
Absolute: dysbeta- lipoproteinemia, TG >400 mg/dL Relative: TG >200 mg/dL

Question 7

Q

Epinephrine

Answer

A

FA: Anaphylaxis, asthma, open-angle glaucoma; α effects predominate at high doses.
Signiicantly stronger effect at β2-receptor than
norepinephrine.

• Adrenergic receptor activation is dose-dependent
• β1 = β2; α1 = α2 ……. BUTEPI has higher affinity for beta receptors
• Cardiac effects:
– Positive inotrope and chronotrope
(have to be careful in those with diseased heart as this will increase oxygen demand)

Vascular effects:
B2 (skeletal muscle)> a1
-slight reduction in systemic vascular resistance
-diastolic will fall a little bit and so wide pulse pressure results
-higher doses will lead to alpha activity vasoconstriction) overcoming beta2

(Summary of functions)

1.Skeletal muscle - vasodilation, potassium uptake (B2)
2. Metabolism - hyperglycemia (glycogenolysis, gluconeogenesis) , lipolysis (B2),
3. Bronchodilation -inhibits histamine release from mast cells (B2)
4. increased heart rate and contractility (B1)
5. increased renin (B1)
______________________________
(Uses)
1. ***drug of choice for anaphylaxis (acute severe allergic reaction)
2. Cardiac arrest
3. Asthma
4. Local anesthetic - (given with alot of epinephrine, the enhanced local vasoconstriction increases the life of the drug)
5. Open angle glaucoma
___________________________________
(Toxicities)
1. palpitations
2. hypertension
3. Tremor
4. anxiety
-contraindicated in patients on non-selective beta blockers and those with hyperthyroidism (you can get a hypertensive crisis)

Question 8

Q

Norepinephrine

Answer

A

FA: a1 > a2 > B1: hypotension and septic shock

Dose-dependent responses
alpha 1= alpha 2, beta1 (minimal)

Cardiovascular effects: negligible -effects to the heart.
-Both arterial and venous tone are increased
-increased systolic and diastolic blood pressure, reflex drop in heart rate (baroreceptors) - increased peripheral resistance
_____________________________
(USES)
1. **hypotension in sepsis
2. **cardiogenic shock

Question 9

Q

Dopamine (cardio)

Answer

A

D1 = D2 > B > alpha ] 
Lower doses (due to beta effects): Unstable bradycardia, HF, shock; inotropic and chronotropic 
Higher doses vasoconstriction at high doses due to α effects.

effects are dose dependent

Low (DA1/DA2)

increases contractility, HR, Blood pressure minimally
**renal perfusion increases

Intermediate dose (B1)

*increases contractility
increases heart rate, blood pressure and renal perfusion.

High dose (B1 + alpha)
-*increase contractility, heart rate, blood pressure, and risk of arrhythmias
-no real effect on renal perfusion
______________________________

USES: hypotension and low cardiac output

TOXICITY: ARRHYTHMIA (both ventricular and supraventricular); wide QRS; angina

Question 10

Q

What are first line treatments for CHF

Answer

A

1- beta blockers are (generally) contraindicated for a patient with acute- decompensated CHF- this is CHF low EF where the patient is acutely symptomatic, w/low BP etc as the negative inotropic effect can cause further deterioration.

The drugs we discussed that are used in stable CHF are metoprolol and carvedilol

Question 11

Q

Phenylephrine

Answer

A

Alpha-1 adrenergic agonist

Causes: increased arterial/vascular tone, decreased venous capacitance, causes reflexive decrease in HR.

Hypotension (vasoconstrictor) if can’t use NE, ocular procedures (mydriatic), rhinitis (decongestant), or red eye

Question 12

Q

Midodrone

Answer

A

Alpha-1 agonist 
**with black box warning
FA: Autonomic insufficiency and postural
hypotension. May exacerbate supine
hypertension.

Metabolized in liver/tissues to active metabolite. Activates alpha1 receptors > vasoconstriction increasing systolic and diastolic blood pressures while standing, sitting and supine.

Indicated to treat *postural hypotension when nonpharmacologic treatment fails.
Adverse event: SUPINE hypertension

Question 13

Q

Clonidine
Guanfacine
Alpha Methyldopa

Answer

A

both are alpha2 adrenergic agonists which has central action decreasing SNS outflow.
Decreasing HR, decreasing arterial/venous tone.

Uses: hypertension, anxiolytic, ADHD

(Toxicity): dry mouth, sedation, depression, rebound hypertension

Clonidine: useful for treatment resistant hypertension

Alpha Methyldopa - pregnancy associated hypertension.

Question 14

Q

Isoproterenol (IV only)

Answer

A

non selective beta agonist, B1 = B2.
B1: increase HR, contractility, conduction velocity
B2: decreased PVR (afterload)

USES: **1. Stokes-Adams attack: Sudden collapse into unconsciousness due to a disorder of heart rhythm in which there is a slow or absent pulse resulting in syncope (fainting) with or without convulsions. In this condition, the normal heartbeat passing from the upper chambers of the heart to the lower chambers is interrupted. TLDR: syncope due to slow or absent pulse

cardiac arrest
heart block
evaluation of tachyarythmia

TOXICITY

tachycardia
Hypertension
Dysrhythmia

Question 15

Q

Dobutamine (IV only)

Answer

A

Beta 1 selective agonist + some alpha 1 activity (just to be fucking annoying)

*increased contractility > chronotropic effect
alpha1 action maintains peripheral resistance

USES:
#1 drug for cardiogenic shock with maintained BP
-add to NE in septic shock with low CO
-stress test

TOXiCITY:

Tachyarrhythmia
Premature ventricular contractions
Hypertension

Question 16

Q

Albuterol (short)

Salmeterol (long)

Answer

A

Acts on beta 2 receptors in lung

Uses: Asthma, bronchospasm

Toxicity: tremor, nervousness

Question 17

Q

Amphetamine

Cocaine

Answer

A

Indirect and mixed sympathomimetics

-primarily their cardiac effects are due to increased NE in the synapse

Cocaine: inhibits reuptake of NE
Amphetamine is possibly reversing reuptake transporter and pushing NE out. (in addition to dopamine and serotonin)

Question 18

Q

Phenoxybenzamine

Answer

A

ONLY IRREVERSIBLE, non-selective alpha receptor antagonist - alpha1 > alpha2. Lasts 14-48 hrs. Blocks NE reuptake at presynaptic terminals.

CV effects:

lower PVR (block alpha 1)
decrease BP
orthostatic hypotension and reflex tachycardia.
miosis
nasal stuffiness
decreased resistance to urinary flow

USES: treatment of Pheochromocytoma (adrenal medullary tumor secreting way too much catecholamine)

ADverse effects: postural hypotension, reflex tachycardia, nasal stuffiness, fatigue, nausea. Contraindicated with nonselective beta blockers

Question 19

Q

Phentolamine (IV or IM only)

Answer

A

REVERSIBLE nonselective alpha antagonist alpha 1 = alpha 2

Blocks peripheral resistance, alpha 2 antagonism causes cardiac stimulation

treatment of Pheochromocytoma
use in NE extravasation (you want NE to leak form the blood vessel or tube)

Adverse effects: severe tachycardia, arrhythmias, MI

Question 20

Q

A 74 year old is admitted for perforated sigmoid diverculitis and subsequently develops hypotension.
Sepsis is suspected.
The patient fails to respond to intravenous fluid resuscitation so they are started on a norepinephrine infusion.
A few hours later blanching, pallor and induration of the skin are noted around the infusion site. Local injection of which of the following agents is most likely to be of greatest benefit?
A.   Calcium gluconate
B.  Phentolamine
C.  Heparin
D.  Isoproterenol
E.  Lidocaine

Answer

A

Phentolamine - NE extravasation

Question 21

Q

Prazosin
Terazoin
Doxazosin

Answer

A

HIGHLY selective alpha1 antagonism (1000x > a2)

less effects on the heart
relaxes arterial and venous smooth muscle
*relaxes smooth muscle in the PROSTATE (relaxes the sphincter) - mostly used in BPH now

USES: *hypertension (not indicated as first line) and BPH

Doxazosin is the longest half life at 22 hours

Toxic events:

Orthostatic hypotension
dizziness, headache
drowsiness
ejaculation problems

Question 22

Q

Tamulosin

Answer

A

Uroselective selective alpha 1 antagonist

blocks alpha1 and D1 receptors in prostate so more selective for BPH

Question 23

Q

Yohimbine

Answer

A

Alpha 2 selective antagonist

used for erectile dysfunction
works in the CNS to increase SNS outflow to the periphery

CONtraindicated in CV disease
-this is the opposite of clonidine

Question 24

Q

Esmolol - Beta1 selective, 2nd gen

Metoprolol - Beta1 selective, 2nd gen

Propranolol -(nonselective, 1st gen)

Labetolol - nonselective, 3rd gen
Carvediol - nonselectie 3rd gen

Nebivolol - beta1 selective 3rd gen

Answer

A

PK)
-Esmolol: shortest half life of only 10 minutes
-Nadolol and Nebivolol have the longest half life 10-30 hrs
____________________________
CV EFFECTS
1. negative chronotrope - slows heart rate, slowed AV conduction with increased PR interval

negative inotrope - decreases contractility, decreases CO, worload and use of O2.
(Beta1) - lowering of high blood pressure, suppression of renin release but ONLY effective if you have high blood pressure
Blockade of B2 in periphery can cause increase PVR
Bronchoconstriction (contraindicated w/severe obstructive disease)
Metabolic and endocrine effects: blocks lipolysis leading to increased VLDL, decreased HDL, impaired glucose tolerance
Reduce intraocular pressure

8, *Labetolol, antagonism of beta1=beta2, antagonism of alpha1. Actions on both contribute to fall in hypertension, alpha1 antagonism leads to vasodilation. The beta1 blockage also contributes to fall in BP, blocking reflex sympathetic stimulation
_________________________________
USE:
1. coronary artery disease so that cardiac oxygen supply and demand is improved.

hypertension - lowers BP in individuals with hypertension, decrease CO, renin, Systemic vascular resistence over time, **NOT 1st LINE
MI - propranolol in acute STEMI
HF
hyperthyroidism
Glaucoma
7 Migraine
_________________________________
(ADVERSE EFFECTS)
Drug rebound - can precipitate acute MI in patients if you discontinue, ventricular tachyarrhythmia
CHF exacerbation - *acute
Bradyarrythmia - AV conduction defect can lead to serious bradyarrhthmia
Bronchoconstriction
Worsens glycemic control in type 2 (lipid metabolism decreases, weight gain)

Question 25

Q

Heparin

Answer

A

Antithrombin III activator

highly sulfated mucopolysaccharide , highly negative
not absorbed from GI tract, not effective orally.

-allosteric binding exposes a reactive site accessible to Factor Xa and thrombin
-heparin is then released and still cna form more antithrombin-protease complexes.
-Unfractionated heparin has higher specificity as it can make a complex with both Antithrombin and thrombin (as opposed to LMW heparin)
_________________________________
Reversal of heparin action:
-discontinue usage of the drug
-protamine sulfate is an effective antidote (fish sperm highly positive), only effective against LMWH and itself has anticoag activity.
________________________________
Toxicity:
1. major bleeding
2. Osteoporosis (higher with UFH)
3. Heparin resistance - elevated factor VIII or other proteins, antithrombin deficiency, increased clearance
4. Heparin induced thrombocytopenia- heparin acts as a haptin, antibodies are binding and activating platelets, platelet count will drop in plasma and you clot because platelets are releasing particles that activate thrombin.

Question 26

Q

Enoxaparin

Answer

A

indirect thrombin inhibitor 
(relative to heparin)... 
\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_
-less inhibition of thrombin 
-efficiently inhibit factor Xa activity 
-longer half life (4.5 hrs) less frequent dosing

Uses:

prevention of DVT in postsurgery
treat acute venous thromboembolic disease and acute coronary syndromes
more predictable bioavailability

Question 27

Q

Fondaparinux

Answer

A

indirect thrombin inhibitor

Synthetic analog of the pentasaccharide binding
sequence of heparin 
*target is only Factor Xa
\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_
• Pharmacokinetics
– long half-life (17-21 h) – 100% bioavailable after a single, daily, subcutaneous dose – Renal clearance, should not be given to patients with renal impairment
• Low incidence of HIT
*more predictable bioavailability

Question 28

Q

Desirudin

Answer

A

65 amino acid protein found in medicinal leech (Hirudo medicinalis).
• Most potent known inhibitor of thrombin.
• Action is independent of antithrombin III
• Can reach and inactivate fibrin-bound thrombin in thrombi
• Does not cause thrombocytopenia • Approved- prevention of deep vein thrombosis post elective hip replacement
•t1/2 = 2 hours
• Renal clearance
-binds to exosite 1 of thrombin and catalytic (active) site

Question 29

Q

Bivalirudin

Answer

A

(Direct thrombin inhibitor)

• Synthetic peptide congener of hirudin
• Short half life (~25 min) • Clearance: renal & metabolic
• FDA approved for use in coronary angioplasty, also in patients
with HIT

-binds to exosite 1 of thrombin and catalytic (active) site

Question 30

Q

Argatroban

Answer

A

-direct thrombin inhibitor (only binds to active site of thrombin)
• Administered IV • FDA approved for use as an anticoagulant in patients with heparin-induced thrombocytopenia (HIT).
• Pharmacokinetics
• Half-life 40-50 minutes.
• metabolized by the liver and eliminated in the bile
• Monitored by aPTT, also prolongs PT (note when use with warfarin).
• aPTT returns to normal two hours after discontinuing treatment.
_______________________________
[Adverse effects]
• hemorrhage (2%)
• allergic reactions (10%)

Question 31

Q

Warfarin (*oral anticoagulant)

Answer

A

99% bound to albumin (drug interactions)

-inhibits biosynthesis of vitamin K dependent zymogens

[Procoag]
Prothrombin
Factor VII
Factor IX
Factor X

[Anticoag]
Protein C
Protein S

MOA: blocks vitamin K reductase VKORC1 activity, reduced vitamin K is needed by glutamyl carboxylase to make functional zymogens by carboxylating and making GLA residues.
-Early on with usage, protein C level goes down early and you are in a procoagulant state.
_________________________
warfarin has a low therapeutic index
1.-bleeding
2. Birth defects and abortion
-Skeletal and CNS abnormalities (hypoplastic nose, flat face, altered calcification)
-Contraindicated during pregnancy (heparin may be used)

Skin necrosis
- Microvascular thrombosis
- May occur in patients with heterozygous protein C or S deficiency if a high initial dose is used or heparin overlap is inadequate

Question 32

Q

Dabigatran

Answer

A

direct thrombin inhibitor

Non-inferiority/superiority to warfarin Less intracranial bleeding than warfarin (at least 50% lower)

**GI bleeding higher for dabigatran, rivaroxaban and edoxaban

Other sites, similar overall bleeding
Similar uses to warfarin but contraindicated in patients with mechanical heart valves
**Claimed that routine coagulation monitoring not necessary due to predictable response (benefit)

Antidote for Dabigatran: Idarucizumab, humanized mAb

Question 33

Q

Rivaroxaban

Answer

A

Non-inferiority/superiority to warfarin Less intracranial bleeding than warfarin (at least 50% lower)

**GI bleeding higher for dabigatran, rivaroxaban and edoxaban

Other sites, similar overall bleeding
Similar uses to warfarin but contraindicated in patients with mechanical heart valves
**Claimed that routine coagulation monitoring not necessary due to predictable response (benefit)

Question 34

Q

Apixaban

Answer

A

direct factor Xa inhibitor

Non-inferiority/superiority to warfarin Less intracranial bleeding than warfarin (at least 50% lower)

**GI bleeding higher for dabigatran, rivaroxaban and edoxaban

Other sites, similar overall bleeding
Similar uses to warfarin but contraindicated in patients with mechanical heart valves
**Claimed that routine coagulation monitoring not necessary due to predictable response (benefit)

Question 35

Q

Edoxaban

Answer

A

Non-inferiority/superiority to warfarin Less intracranial bleeding than warfarin (at least 50% lower)

**GI bleeding higher for dabigatran, rivaroxaban and edoxaban

Other sites, similar overall bleeding
Similar uses to warfarin but contraindicated in patients with mechanical heart valves
**Claimed that routine coagulation monitoring not necessary due to predictable response (benefit)

Question 36

Q

Alteplase

Answer

A

recombinant tPA

Physiologically t-PA activates plasminogen that is bound to fibrin of thrombus,
• plasmin activation at the site of clot is several hundred times higher than unbound plasminogen.
• Clinical concentrations are much higher than physiological concentrations
• Non-specific plasmin activation
• Half-life ~ 5 min in plasma. Typically IV bolus then infusion
____________________________
• Approved uses
- Acute MI
- Acute ischemic stroke
- Pulmonary embolism
- Central venous catheter occlusion

[Absolute Contraindications] • Prior intracranial hemorrhage • Known structural cerebral vascular lesion • Known malignant intracranial neoplasm • Ischemic stroke within 3 months • Suspected aortic dissection • Active bleeding or bleeding diathesis (excluding menses) • Significant closed-head trauma or facial trauma within 3 months
[Relative Contraindications] • Uncontrolled hypertension
(systolic blood pressure >180 mm Hg or diastolic blood pressure >110 mm Hg) • Traumatic or prolonged CPR or major surgery within 3 weeks • Recent (within 2-4 weeks) internal bleeding • Noncompressible vascular punctures • Pregnancy • Active peptic ulcer • Current use of warfarin and INR >1.7

Question 37

Q

Aspirin (in terms of cardiac) - acetyl salicylic acid

Answer

A

Aspirin inhibits thromboxane A2 (TxA2) synthesis by irreversibly acetylating cyclooxygenase-1 (COX-1). Reduced TxA2 release attenuates platelet activation and recruitment to the site of vascular injury.

Platelets have no nucleus & cannot regenerate COX. Effect lasts the life of the platelet (7-10 days).
•Endothelial cells can regenerate COX to produce PGI2, restoring antithrombotic effect.
•Endothelial cyclooxygenase requires higher doses of aspirin for inhibition. Low dose (70-325 mg/day) can selectively inhibit platelet COX, sparing endothelial COX and thus sustaining antithrombotic effect.
•Primary prophylaxis of myocardial infarction; secondary prevention vascular events following heart disease •Adverse effects: BLEEDING (hemorrhagic stroke, GI bleeding),  risk of peptic ulcer disease

Question 38

Q

Clopidogrel

Answer

A

Irreversibly inhibits the binding of ADP to its receptor on platelets, inhibits platelet aggregation
((blocks P2Y12, a key ADP receptor on the platelet surface; cangrelor and ticagrelor are reversible inhibitors of P2Y12.)

[Indications and; adverse effects]
• Dual antiplatelet therapy (e.g., coronary artery stenting)
– ADP inhibitor + aspirin
• Triple therapy (e.g., coronary artery stenting plus atrial fibrillation)
– Oral anticoagulant + ADP inhibitor + aspirin
• BLEEDING

Question 39

Q

Prasugrel

Answer

A

Irreversibly inhibits the binding of ADP to its receptor on platelets, inhibits platelet aggregation
((blocks P2Y12, a key ADP receptor on the platelet surface; cangrelor and ticagrelor are reversible inhibitors of P2Y12.)

Indications and; adverse effects • Dual antiplatelet therapy (e.g., coronary artery stenting)
– ADP inhibitor + aspirin • Triple therapy (e.g., coronary artery stenting plus atrial fibrillation)
– Oral anticoagulant + ADP inhibitor + aspirin • BLEEDING
thrombotic thrombocytopenia purpurae

Question 40

Q

Abciximab

Answer

A

GPIIb/IIIa is a platelet membrane receptor which binds to the fibronogen and vitronectin and also to fibronectin and von Willebrand Factor, facilitates formation of platelet plug.

monoclonal antibody directed against GPIIb/IIIa complex
• approved for use in coronary angioplasty and in acute coronary syndrome.

Question 41

Q

Ticagrelor/ticlopidine

Answer

A

Reversibly inhibits the binding of ADP to its receptor on platelets, inhibits platelet aggregation
(blocks P2Y12, a key ADP receptor on the platelet surface; ticagrelor is the only reversible inhibitors of P2Y12.)\
***-ticlopidine - causes neutropenia
-metabolized by P450 enzymes so poor metabolizers are more at risk

Indications AND; adverse effects • Dual antiplatelet therapy (e.g., coronary artery stenting)
– ADP inhibitor + aspirin • Triple therapy (e.g., coronary artery stenting plus atrial fibrillation)
– Oral anticoagulant + ADP inhibitor + aspirin • BLEEDING
-thrombotic thrombocytopenia purpurae

Question 42

Q

Tirofiban

Answer

A

GPIIb/IIIa is a platelet membrane receptor which binds to the fibronogen and vitronectin and also to fibronectin and von Willebrand Factor, facilitates formation of platelet plug.

Designed as a non-peptide analog of amino acid sequence Arg-Gly-Asp (RGD), which is
the main recognition sequence of GPIIb/IIIa receptors.
• Occupies receptor, inhibits binding.

Question 43

Q

Epitifibatide

Answer

A

GPIIb/IIIa is a platelet membrane receptor which binds to the fibronogen and vitronectin and also to fibronectin and von Willebrand Factor, facilitates formation of platelet plug.

cyclic peptide derivative based on peptides present in pit viper venom.
• Analog of the sequence which mediates the binding of fibrinogen to the receptor.
• Occupies receptor, inhibits binding.

Question 44

Q

furosemide
ethacrynic acid
torsemide
bumetanide

OHH DAANG

Answer

A

increases renal blood flow
block sodium reabsorption
blocks the tuberoglomerular feedback
blocks calcium reabsoprtion

Sulfonamide loop diuretics. Block cotransporter NKCC2 cotransport system (Na+/K+/2Cl−) of thick ascending limb of loop of Henle. Abolish hypertonicity of medulla, preventing concentration of urine.
Stimulate PGE release (vasodilatory effect
on afferent arteriole) increasing filtration; inhibited by NSAIDs.
increase Ca2+ and magneisum excretion. Loops Lose Ca2+.
NKCC2 brings in one sodium, one potassium, 2 chloride.
Potassium leaks back into the lumen creating a net potential that favors positively charged magnesium and calcium reabsorption.
-Loop diuretics block tubuloglomerular feedback by inhibiting salt transport into the macula densa.

• CLINICAL USE
ACUTE Edematous states (HF, cirrhosis, nephrotic syndrome, pulmonary edema),
ACUTE hypercalcemia.

[ADVERSE EFFECTS] 
Ototoxicity, 
Hypokalemia, 
Hypomagnesemia,
Dehydration, 
Allergy (sulfa), 
metabolic Alkalosis: enhanced proximal sodium reabsorption > increased proton/sodium exchange
Nephritis (interstitial), 
Gout.
-increased proximal uric acid reabsorption > gout

•  Monitoring of K+ levels is critical with diuretics.
Low K+ can unveil ectopic pacemakers and cause arrythmias.

  Loop agents induce prostaglandin and NO generation from endothelial cells, which reduce venous return and pulmonary congestion.
  FA *Ethacrynic acid is indicated for patients allergic to sulfonamides, but can cause more ototoxicity than furosemide.
  Furosemide is the most widely used. All loop agents are orally available with a duration of action ranging from 4-8 hours (6 hours for furosemide).

Potassium wasting:
Diuretics that act upstream of the collecting tubule
will increase Na+ delivery to this site and will
enhance K+ secretion.
This mechanism, combined with enhanced
aldosterone secretion due to volume depletion,
is the basis for most diuretic-induced K+ wasting
and proton secretion.

Question 45

Q

Aliskiren

Answer

A

Renin Blockers: Aliskiren is a nonpeptidic drug that inhibit the protease renin (IC nM).
Aliskiren is orally available with a half-life of 20-45 h in plasma.
Aliskiren was FDA approved for the treatment of hypertension in March 2007.
Clinical Trials are underway to evaluate its efficacy for heart failure treatment. Similar side effects to ACE inhibitors.

Question 46

Q

Hydralazine plus isosorbide dinitrate (BiDil):

Answer

A

Hydralazine plus isosorbide dinitrate (BiDil):
- the isosorbide dinitrate is a nitric oxide donor which increases cGMP causing smooth muscle relaxation. Hydralazine works under unkown mechanisms but both vasodilates arterioles > veins; afterload reduction. USES: Severe hypertension (particularly acute), HEART FAILURE - especially for African Americans!! (with organic nitrate). Safe to use during pregnancy.
Frequently coadministered with a β-blocker to prevent relex tachycardia. Compensatory tachycardia (contraindicated in angina/CAD), luid retention, headache, angina.
***Lupus-like syndrome (mentioned in first aid)

Helpful but less effective than ACE inhibitors in all current survival studies.
•  May be particularly effective in a subset of black patients, who have been reported to be
less responsive to ACE inhibitors, when added to standard treatments.
•  May be added to patients with persistent symptoms
-if an ACE inhibitor isn’t working, you can add it on

Question 47

Q

LCZ696 (Entrestro)

Answer

A

Dual inhibition of neprilysin (breaks down natruiretic peptide);
sacubitril) and angiotensin receptors (valsartan) with LCZ696 reduces mortality and
hospitalization for heart failure compared to ACE inhibitor. FDA approved July 2015.
Shown to decrease mortality compared to ACE inhibitor enalapril.
Side effects: hypotension, hyperkalemia (blocking angiotensin II) and renal failure.

Question 48

Q

*Nitroprusside
Organic Nitrates : Nitroglycerin, isosorbide dinitrate, isosorbide mononitrate

**do not cause coronary steal syndrome - where vasodilation takes flow away from ischemic zone

*isosorbide mononitrate is the only one with really good bioavailability

Contraindicated in hypotension, increased intracranial pressure, hypertrophic cardimyopathy, diastolic heart failure

Answer

A

Nitroprusside: Short acting; increase cGMP via direct release of NO. Can cause cyanide toxicity (releases cyanide) - metabolic acidosis, cardiac arrhythmias

USE: hypertensive EMERGENCY - like pulmonary edema - decrease renal perfusion will increases renin so always requires combination with loop diuretics
Dilates both arterial and venous vessels. Given by I.V.
for acute H.F. Half-life is 2 min. Dilates arterial and venous vessels to increase C.O.
-NO SpECIFICITY

Nitroglycerin, isosorbide dinitrate, isosorbide mononitrate

(enzymaticlly reduced to RSNO which is reduced to NO by tissue enzymes which confers tissue specificity)

Topical Nitrates (e.g. nitroglycerin): Decreases pulmonary and systemic venous pressures and left ventricle filling pressure, but it has a variable effect on cardiac output.
-specifically acts on VEINS unlike nitroprusside (increase venous capacitance, decrease LVEDV and LEDP, decrease myocardial oxygen demand, increases subendocardial perfusion from decreased pressure)

-Vasodilate by increasing NO in vascular smooth muscle > increase in cGMP and smooth muscle relaxation. Dilate veins&raquo_space; arteries. Decrease preload.

Uses: Angina, acute coronary syndrome, pulmonary edema, esophageal spasm (relaxes the muscle)

Adverse effect: HEADACHE #1, flushing, postural hypotension, Reflex tachycardia (treat with β-blockers), hypotension, flushing, “Monday disease” in industrial exposure: development of tolerance for the vasodilating action during the work week and loss of tolerance over the weekend > tachycardia, dizziness, headache upon reexposure.
Contraindicated in right ventricular infarction.

Question 49

Q

Cardiac glycosides -ex. digoxin(strongest)

Answer

A

Cardiac glycosides (digitalis, digoxin, digitoxin, and ouabain) block the Na/K pump
•  Increased [Na+]i oppose action of Na+-Ca2+ exchanger NCX, raising cytosolic [Ca2+]
•  Increased cytosolic [Ca2+] increases Ca2+ levels in sarcoplasmic reticulum (SR).
•  Action potential then release greater-than-normal Ca2+ to increase contraction.
•  K+ antagonizes action of digitalis. Monitoring of K+ is essential due to side-effects. Too little potassium can also make digoxin work TOO well. So watch out for thiazides and loops.
-low therapeutic index
**Digoxin is used almost exclusively in therapy. T1/2 = 36-40 hrs
•  Cardiac glycosides increase C.O., decrease heart size, decrease venous pressure, decrease E.D.V, produce diuresis (increase renal perfusion), and decrease blood/ECF volume due to increased cardiac contractility from altered calcium dynamics.
Also Observe:
A. Decreased sympathetic output (direct and reflex) and increased vagal activity. In addition, there is a decrease in heart rate and increased vasodilation.
B. Increased renal perfusion.
C. Some inhibition of renal Na+/K+ ATPase promoting Na+ excretion and diuresis.
D. Improved renal perfusion dynamics and reduced renin output.

THERAPEUTICALLY:
1.  Digitalis enhances vagal tone and reduces sympathetic activity.
2. Slows conduction velocity and increases refractoriness in AV node •  Reduces rate of ventricular stimulation in patients with atrial fibrillation or flutter
•  Can convert some supraventricular reentrant arrhythmias to normal rhythm.
AT TOXIC LEVELS:
•  AV block
•  Further enhancement of vagal tone and extreme inhibition of the Na/K pump negatively affects cells in the atria and in ventricular Purkinje fibers and promotes many forms of arrhythmias.
•  Increases sympathetic outflow, sensitizing the myocardium

OTHER SIDE EFFECTS: nausea, vomiting, visual disturbances •  Digitalis-induced tachyarrhythmias treated with K+, if hypokalemia is present, lidocaine, or Digitalis antibody

Question 50

Q

Dobutamine, Norepinephrine

Epinephrine

Answer

A

β1 receptor activates adenylate cyclase to make cAMP. cAMP activates protein kinases, which promote intracellular calcium influx by phosphorylated slow L-type
calcium channel. Increased calcium influx increases Ca2+ levels in the SR to increase contraction.

DOBUTAMINE: Useful for treatment of heart failure not accompanied by hypotension.
•  A synthetic analog of dopamine that stimulates β1-β2, and α-receptors. Increases contractility through β1 effect, but does not increases peripheral resistance because β2- and αreceptor effects balance out. Does not stimulate dopaminergic
receptors nor increase release of norepinephrine.
•  Dobutamine is a racemic mixture with a half-life of ~ 2.5 min.
•  (+) isomer: beta1> beta2 agonist, alpha1 antagonist
•  (-) isomer: alpha1 agonist

•  NOREPINEPHRINE: Acts at β1 and peripheral α-receptors. Useful for stimulating heart under conditions in which there is drop in blood pressure. Used for “warm” septic shock.

EPINEPHRINE: Acts at β1, β2 and peripheral α-receptors. Useful for increasing contraction and heart rate. Used for “cardiac arrest”. Contraindicated in patients receiving β-blocker therapy because of risk of α-mediated severe hypertension.

Question 51

Q

MILRINONE

ENOXIMONE

Answer

A

Phosphodiesterase inhibitors: (Milrinone and Enoximone):
[FA} Selective PDE-3 inhibitor. In cardiomyocytes: increase cAMP accumulation > increase Ca2+ influx > increased inotropy and chronotropy. In vascular smooth muscle: increase cAMP accumulation > inhibition of MLCK activity > general vasodilation.
CLINICAL USE Short-term use in acute decompensated HF.
ADVERSE EFFECTS: Arrhythmias, hypotension.
____________________________
Selective for phosphodiesterase isozyme 3 (PDE3), found in cardiac and smooth muscle.
•  In heart see increased cAMP and phosphorylation/activation of L-type calcium channels, raising Ca2+ and increasing myocardial contractility. •  In vascular smooth muscle see increased cAMP-mediated deactivation of
myosin light chain kinase, causing vasodilation.
•  Safe and effective for short-term (<24 hr) support of decompensated heart failure or for an exacerbation of chronic heart failure. Useful when other treatments are failing. Less prone to produce arrhythmias than adrenergics or digitalis.
•  Toxicity: Milrinone causes fatal arrhythmias, bone marrow and liver toxicity.
Long term use is not warranted.
These are not 1st line, use beta agonists in acute settings

Question 52

Q

losartan, valsartan

Answer

A

Block AT1 receptors •  Similar to ACE inhibitors, ARBs decrease afterload by lowering peripheral resistance and reduce preload by reducing aldosterone secretion.

•  Long-term therapy with ARBs reduces the risk of death and other cardiovascular events in patients with heart failure; results are comparable to those obtained with ACE inhibitors. • 

Similar side effects (e.g. hypotension) to ACE inhibitors except for cough and
rarely angioedema ….
Increased **fetal mortality. Ang II important for fetal differentiation
-Worsen Renal Insufficiency - Disproportionate
glomerular efferent arterial vasodilation.
•  Does not affect bradykinin duration, or its production of prostaglandins or
NO. More selective for inhibition of the effects of Ang. II because there are other enzymes other than ACE that can generate Ang. II.
•  Large clinical trials suggest that the ARBs should only be used in patients who are intolerant of ACE inhibitors (usually because of cough) because ACE is still therapeutically more effective .

Question 53

Q

Class 1A
Procainamide
Quinidine
Disopyramide

por quoi dan

Quinidine, Procainamide, Disopyramide.
“The Queen Proclaims Diso’s pyramid.”

Answer

A

Prototype is procainamide, others are quinidine and disopyramide
Increased AP duration, increased effective refractory period
(ERP) in ventricular action potential, increased QT interval, some potassium channel blocking effects.

USES: most effective for AFIB + ventricular arrhythmias
FA/ Both atrial and ventricular arrhythmias,
especially re-entrant and ectopic SVT and VT. WPW SYNDROME🎇

Slows upstroke of action potential and prolongs action potential duration.
Bind to Na+ and K+ channels with intermediate kinetics and moderate affinity. - increases QRS duration, increase QT which can lead to Torsades.
Procainamide is effective against most atrial and ventricular arrhythmias- broad spectrum
-indicated for *VT with remote myocardial infarction

Toxicity:
😑Procainamide reduces peripheral vascular resistance
😒Slowing of conduction and action potential prolongation increases risk of
torsade de pointes, syncope and precipitation of new arrhythmias.

⭐️Procainamide can cause a syndrome resembling lupus erythematosus in 1/3 of patients receiving long-term therapy

Quinidine can cause cinchonism - ringing of the ears

Disopyramide can **cause atropine-like adverse effects: urinary retention, dry mouth, blurred vision, constipation, and worsening of preexisting glaucoma.

🌞Cinchonism (headache, tinnitus with
quinidine), reversible SLE-like syndrome (procainamide), HF (disopyramide), thrombocytopenia, torsades de pointes due to
increased QT interval.

Procainamide is eliminated by hepatic metabolism to N-acetylprocainamide (NAPA), which has class 3 activity. Accumulation of NAPA is associated with torsade de pointes.

Question 54

Q

CLASS 1B
Prototype is lidocaine, another is mexiletine, an orally active congener of lidocaine.

Lidocaine, MexileTine.
“I’d Buy Liddy’s Mexican Tacos.”

Answer

A

Lidocaine blocks activated and inactivated sodium channels with really rapid kinetics. Slows conduction velocity in depolarized cells, most selective for ischemic tissue. Shortens AP duration**
-no change in QRS duration or QT.

Therapeutic Use VENTRICLES: Arrhythmias associated with ACUTE myocardial infarction. Used for termination of ventricular tachycardia and prevention of ventricular fibrillation after acute ischemia.
Used for digitalis-induced arrhythmias. Ineffective for ***supraventricular tachycardias, atrial fibrillation, and atrial flutter - no atrial stuff

Class IB drugs shorten action potential duration and the refractory period. The inactivated state block ensures greater effects on cells with long action potentials.
Increased inactivation and slow unbinding kinetics result in the selective depression of conduction in depolarized cells (state dependent block).
Because these agents have little effect on normal cardiac cells, they have little effect on the ECG.
💧digitalis-induced arrhythmias.
IB is Best post-MI.

TOXICITY OF LIDOCAINE: CNS effects(parethesia, slurred speech, and convulsions)*. tremor, nausea, lightheadedness, hearing disturbances,

Pharmacokinetics: Extensive first-pass hepatic metabolism (only 3% of orally administered lidocaine appears in plasma). Given by I.V. Half-life is 1-2 hours.
🌞decrease AP duration. Preferentially affect ischemic or depolarized Purkinje and ventricular tissue.
Phenytoin can also fall into the IB category.

Mexiletine: An orally active congener of lidocaine, mexiletine’s electrophysiologic and antiarrhythmic actions are similar to lidocaine and is used in the treatment of ventricular arrhythmias. Half life of 8-20 hrs. Used to treat chronic pain due to diabetic neuropathy and nerve injury.

Question 55

Q

CLASS 1C
flecainide,
propafenone
moricizine.

fleas probe more

Answer

A

flecainide, propafenone, moricizine.

1C drugs have slow unblocking kinetics –see decrease in upstroke of the action potential.
Little effect on action potential duration, except in AV node and in bypass tracts.

Therapeutic USE: supraventricular arrhythmias (AVNRT), terminating AFIB and maintaining normal rhythm + WPW arrhythmias

🎆Signiicantly prolongs ERP in AV node and
accessory bypass tracts. No effect on ERP in Purkinje and ventricular tissue.
Minimal effect on AP duration.
USES: 🌈SVTs, including atrial ibrillation. Only as a last resort in refractory VT.

TOXICITY🔥Proarrhythmic, especially post-MI
(contraindicated). IC is Contraindicated in structural and ischemic heart disease.

Toxicity: Provocation or exacerbation of potentially lethal arrhythmias, including the acceleration of ventricular rate in patients with atrial flutter,
-Increased frequency of episodes of re-entrant ventricular tachycardia.

In studies, flecainide and propafenone increased mortality in patients convalescing from MI. Can cause heart failure in patients with heart abnormalities.

Question 56

Q

Class II Antiarhythmics

Propanolol
ESMOLOL

Answer

A

Prototypes are propranolol and esmolol. Sotalol is a nonselective β-blocking drug that prolongs the action potential and is usually categorized as a class 3 drug

USE: Beta-blockers control the ventricular rate in AFIB and AFLUTTER, suppress PVCs, and terminate and prevent recurrences of paroxysmal supraventricular tachycardias - TORSADES de pointes
They reduce afterdepolarizations from catecholamine excess. These agents are contraindicated in patients with Wolff-Parkinson-White syndrome.

The β-receptor-blocking action of propranolol and similar drugs lowers cAMP which results in the reduction of both sodium and calcium currents and the suppression of abnormal pacemakers.
The AV node is particularly sensitive to β- blockers. Decreases phase 4 slope. Decreases myocardial oxygen demand.

PROPRANOLOL: A non-selective antagonist, propranolol also exhibits Na+- channel blocking capabilities in vitro.

Esmolol, a β1-selective agent, is an IV cardioselective beta-blocker (with an elimination half-life of about 9 minutes) that is effective in controlling the ventricular response in atrial flutter or fibrillation, particularly after cardiac surgery. Both therapeutic and adverse effects (hypotension, bradycardia) usually disappear within 30 minutes after stopping the infusion.

Question 57

Q

IVABRADINE (no effect on calcium)

brad is not funny

Answer

A

Ivabradine is a use-dependent drug that blocks “funny” current in the SA node and reduces heart rate without affecting myocardial contractility, ventricular repolarization or Intracardiac conduction.

SHIFT trial (2010) evaluated patients with stable symptomatic heart failure with EF<35%, in sinus rhythm with a heart rate> 70 bpm who experienced a heart failure hospitalization within 1 year. Cardiovascular mortality or heart failure hospitation was reduced by 18% afer 22.9 months.

Question 58

Q

Class III antiarrhythmic IS BAD

Ibutilide
Sotalol

Bretylium
Amiodarone
Dofetilide

Answer

A

USE: Treatment of life-threatening ventricular arrhythmias, terminating AFIB/FLUTTER , and maintenance of sinus rhythm in patients with atrial fibrillation and VFIB (amiodarone)
__________________________
Cardiac effects: Class III drugs prolong the action potential duration by blockade of potassium channels or by enhancing inward current. Action potential prolongation increases the effective refractory period and reduces the ability of the heart to respond to rapid tachycardias. Have little effect on phase 0 or conduction velocity.

Action potential prolongation by many class III drugs (but not amiodarone) are reverse use-dependent, such that action potential prolongation is least dramatic at fast rates (where it is desirable) and most marked at slow rates, where it can contribute to the risk of torsade de pointes.

***Amiodarone is effective in most types of arrhythmias and is considered the most efficacious of all antiarrhythmic drugs. This is likely due to its capacity to block sodium, calcium, potassium channels, and β adrenoceptors.
•  Elimination half-life is complex, with a rapid component of 3-10 days (50% of the drug) and a slower component of several weeks.
**least likely to cause Torsades de Pointes because only one that is not reverse use dependance. Other drugs prolong AP most are slow rates which increases risk of TdP.

Sotalol: A nonselective β-blocking drug that is more effective for many arrhythmias than other beta-blockers probably because of its potassium current activities.

Ibutilide and Dofetilide: Adverse effects include QT interval prolongation and torsade-de-pointes. Use therapeutically for conversion of atrial flutter and fibrillation to normal sinus rhythm.

Cardiac Effects:
•  It is not reverse-use dependent. It prolongs the action potential duration over a wide range of heart rates and prolongs the the QT interval on the ECG by blockade of potassium channels
•  Blocks inactivated sodium channels; its action potential prolonging action reinforces this effect.
• Has weak adrenergic and calcium channel blocking actions, which slows of heart rate and atrioventricular node conduction.
Amiodarone rarely causes new arrhythmias, perhaps because of its wide blocking effects.
Extracardiac Toxicity (Many): Amiodarone causes pulmonary fibrosis, microcrystalline deposits in the cornea and skin, and thyroid dysfunction (inhibits conversion of T4 to T3). Interacts with warfarin and digoxin.

Therapeutic Uses for Amiodarone: Amiodarone is more effective than most antiarrhythmic drugs for a wide spectrum of ventricular and supraventricular tachyarrhythmias:

  Atrial fibrillation
  Atrial tachycardia
  Ventricular tachycardia
  Ventricular flutter

.

Question 59

Q

Class 4 antiarrhythmics

Verapamil
Diltiazem

Answer

A

Prototype is verapamil. Another is Diltiazem.
Nifedipine and other dihydropyridines are not useful as antiarrhythmics.

Therapeutic USE: Major use is to prevent reentrant atrioventricular nodal **re-entrant tachycardia (AVNRT) PSVT.
+ AFIB - Only ATRIAL stuff unlike Lidocaine
Contraindicated in Wolff-Parkinson-White syndrome.

Cardiac Effects: Block both activated and inactivated L-type calcium channels decreasing the phase 4 slope. Conduction velocity is decreased and effective refractory period increased by these drugs. Extracardiac: Both verapamil and diltiazem also cause peripheral vasodilation.

Toxicity: Atrioventricular block, sinus arrest in patients with sinus node disease, hypotension, constipation, lassitude, nervousness, and peripheral edema. Avoid use with β-blockers ( increase risk of heart failure).

Question 60

Q

ADENOSINE

Answer

A

ADENOSINE: Nucleoside that occurs naturally throughout the body. T 1/2 < 1 secs

USE: • Drug of choice for prompt conversion of paroxysmal supraventricular tachycardia to sinus rhythm because of its high efficacy (90-95%)

*acute therapy for AFIB/AFLUTTER (,
**AVNRT - 1st line
 Activates inward rectifier K+ current, inhibits Ca2+ and If current, causing hyperpolarization and suppression of calcium-dependent action potentials.
  Inhibits AV nodal conduction and increases the AV nodal refractory period, but has lesser effects on the sinoatrial node.

Question 61

Q

MAGNESIUM - antiarrhythmic

Answer

A

Magnesium: Co-factor for Na/K ATPase.
Antagonist of Ca2+ channels.

Hypomagnesemia is known to contribute to several arrhythmias.

Originally used for patients with digitalis-induced arrhythmias who have hypomagnesemia, intravenous infusion of Mg2+ has been shown effective for normomagnesemic patients with supraventricular arrhythmias and **Torsade de Pointe,

Question 62

Q

Digoxin the Antiarrhythmic

Answer

A

Digoxin: Used as an adjunctive agent, can help control ventricular response in atrial fibrillation or flutter and may terminate some paroxysmal (reentrant) supraventricular arrhythmias by *slowing AV conduction.
-AVNRT
AFIB
AFLUTTER

Question 63

Q

Cilostazol

Dipyridamole

Answer

A

Phosphodiesterase inhibitors; increases cAMP in platelets, resulting in inhibition of platelet aggregation;
vasodilators for periphery (claudication).
Think vasodilator + antiplatelet

Uses: *Intermittent claudication, coronary vasodilation, prevention of stroke or TIAs (combined with
aspirin).
Similar to milrenone,

Adverse effects: Nausea, headache, facial lushing, hypotension, abdominal pain.

Question 64

Q

Hydrochlorthiazide
Chlorthalidone
Metolazone

HyperGLUCS

Answer

A

Inhibit NaCl reabsorption in early DCT
> decreaseddiluting capacity of nephron.
Decreased Ca2+ excretion.
[2 CHANNELS]
1. apical NCC (cosymporter for absorption of sodium and chloride)
2. basolateral Sodium/calcium exchanger - reabsorbing calcium, excreting sodium - activity is enhanced when NCC is blocked
-however only 10% of sodium is reabsorbed at this site so it is a weak diuretic

Clinical use:
1. Hypertension
2. Heart failure
3. Nephrolithiasis due to idiopathic hypercalciuria
4. Nephrogenic diabetes insipidus (NDI) (vasopressin/ADH insensitivity)
In NDI thiazides reduce plasma volume to lower GFR, which enhances proximal reabsorption of NaCl and water, causing decreased delivery of fluid to the diluting segments (collecting ducts).
5. -osteoporosis.

Adverse effect:
Hypokalemic metabolic alkalosis - enhanced proximal sodium reabsorption > increased proton/sodium exchange + increased potassium excretion
Hyponatremia: It is due to a combination of hypovolemia-induced elevation of ADH, reduction in the diluting capacity of the kidney, and increased thirst. It can be prevented by reducing the dose of drug or limiting water intake.
hyperGlycemia - cotransporter, increased proximal sodium reabsorption comes in with glucose
hyperLipidemia,
hyperUricemia,
hyperCalcemia.
Sulfa allergy.

Potassium wasting:
Diuretics that act upstream of the collecting tubule
will increase Na+ delivery to this site and will
enhance K+ secretion.
This mechanism, combined with enhanced
aldosterone secretion due to volume depletion,
is the basis for most diuretic-induced K+ wasting
and proton secretion.

Answer 65

A

Direct arteriolar vasodilator.
-acts on potassium channels and hyperpolarize the cell. It prevents the opening of L type voltage dependent channels.

USES
Androgenetic alopecia (pattern baldness), severe refractory hypertension.

Answer 66

A

B1 selective agent

Releases NO

Answer 67

A

[FA]
Spironolactone and eplerenone are competitive
aldosterone receptor antagonists in cortical collecting tubule.
Triamterene and amiloride act at the same part of the tubule by blocking Na+ channels (ENac) in the cortical collecting tubule.

*Eplerenone is more selective and has less side-effects.
Triamterene and amiloride block the ENaC Na+ channel in apical cells of the collecting tubule.
Actions of triamterene and spironolactone are dependent on renal prostaglandin production. Thus, similar to loop diuretics and thiazides, the actions of triamterene and spironolactone may be inhibited by NSAIDS.

[CLINICAL USE:] 
**Hyperaldosteronism, 
K+ depletion, 
Heart Failure,
hepatic ascites (spironolactone), 
nephrogenic DI (amiloride), 
antiandrogen.

Potassium sparing diuretic agents are most useful in states of mineralocorticoid excess, due either to primary hypersecretion (Conn’s syndrome, ectopic ACTH production) or to secondary aldosteronism (from heart failure, hepatic cirrhosis, nephrotic syndrome, and other conditions associated with diminished effective intravascular volume).
Triamterene and Amiloride can be used to treat hypertension in Liddle’s syndrome, in which a gain-of-function mutation increases ENaC channel activity
Thus, potassium-sparing diuretics of either type may be indicated in settings of enhanced mineralocorticoid secretion and continued delivery of Na+ to distal nephron sites where renal K+ wasting occurs.

[ADVERSE EFFECTS]
Hyperkalemia (can lead to arrhythmias),
endocrine effects with spironolactone (eg, gynecomastia, antiandrogen effects).

K+ sparing diuretics include blockers of the ENaC Na+ channel (triamterene, amiloride) and direct
aldosterone antagonists (spironolactone, eplerenone) oppose aldosterone action in late distal tubule and collecting duct.

•  Aldosterone release from the adrenal gland is promoted by: hyperkalemia, high angiotensin II (renin released by hypovolemia, hyponatremia, and beta1 agonists).
•  Diuretics that increase Na+ delivery (loop diuretics, thiazides) to this site will therefore increase K+ and H+ secretion.
•  Aldosterone antagonists prevent myocardial and vascular fibrosis.
__________________________
•  Major side effects are
1. hyperkalemia,
2. hyperchloremic metabolic acidosis: By inhibiting H+ secretion in parallel with K+ secretion, the K-sparing diuretics can cause acidosis. (both get secreted together in the collecting tubule)
3. gynecomastia (spironolactone): Synthetic steroids may cause endocrine abnormalities by effects on other
steroid receptors. Other effects (impotence, benign prostatic hyperplasia) have been reported with spironolactone. This can be avoided by using eplerenone, which is more specific.

Answer 68

A

non-dihydropyridines:
Binds L-type calcium channels, preference for OPEN channels, with increased frequency of depolarizations (like heart), the drugs with decrease the amount of available open channels

Equipotent for cardiac tissue and vasculature -

heart rate moderating (bradycardia)
reduced inotropism
heart failure
AV block
peripheral and coronary vasodilation

Side effect: Constipation, SEVERE REFLEX TACHYCARDIA, hypotension,
Non-dihydropyridine: cardiac depression, AV block, *hyperprolactinemia, constipation.
Contraindicated in AV block or WPW + AFIB

Answer 69

A

Migraine headaches, tremors , performance anxiety

Answer 70

A

dihydropyridines
(special features) 
AmLOOOOdipine - LOOOONNNG half life
Clevidipine - IV ONLY
Nimodipine - cerebral vessels (Nim is a brainy girl)

-preferentially target INACTIVATEd calcium channels - vascular smooth muscle cells have a higher RMP (-70) compared to cardiomyotes (-90). More calcium channels are inactive and will bind DHP at lower doses.
-arterial vasodilators
USES:
Dihydropyridines (except nimodipine): hypertension, angina (including Prinzmetal),
-Raynaud phenomenon.
Nimodipine: subarachnoid hemorrhage (prevents cerebral vasospasm).
Nicardipine, clevidipine: hypertensive urgency or emergency.

ADVERSE EFFECTS:
Dihydropyridine: peripheral edema, flushing, dizziness, *(gingival hyperplasia.

Side Effect: SEVERE REFLEX TACHYCARDIA , hypotension, (effects of vasodilation: headaches, dizziness, light headedness, flushing, constipation),

Answer 71

A

Nitroglycerin side effect in industrial workers
Over the weekend, the workers lose the tolerance and, when they are re-exposed on Monday, the drastic vasodilation produces a fast heart rate, dizziness, and a headache, this is referred to as “Monday Disease.”

Answer 72

A

Hypertrophic cardiomyopathy (the smaller the ventricle the greater the obstruction)
mitral valve prolapse, the more full the heart, the better it will function, the click will occur later

Answer 73

A

Recombinant BNP which also acts to increase cGMP like NO.
FOr decompensated heart failure
counterregulation of the renin-angiotensin-aldosterone system, stimulating cyclic guanosine monophosphate, leading to smooth muscle cell relaxation.

The drug binds to receptors in the vasculature, kidney, adrenal gland, and brain, and overcomes resistance to endogenous BNP present in patients with CHF. Nesiritide administration leads to a rapid and balanced vasodilatory effect, which results in a significant decrease in right and left ventricular filling pressures and systemic vascular resistance and at the same time in an increase in stroke volume and cardiac output without a change in heart rate.

Answer 74

A

Primary (essential) hypertension:
Thiazide diuretics, ACE inhibitors, angiotensin
II receptor blockers (ARBs), dihydropyridine
Ca2+ channel blockers.

Hypertension with heart failure
Diuretics, ACE inhibitors/ARBs, β-blockers
(compensated aka stable HF), aldosterone antagonists.
*β-blockers must be used cautiously in
decompensated HF and are contraindicated in
cardiogenic shock.

Hypertension with diabetes mellitus
ACE inhibitors/ARBs, Ca2+ channel blockers,
thiazide diuretics, β-blockers.
*ACE inhibitors/ARBs are protective against
diabetic nephropathy.

Hypertension in pregnancy:
Hydralazine, labetalol, methyldopa, nifedipine.

Answer 75

A

􀂃 Variant (Prinzmetal)—occurs at rest 2° to coronary artery spasm; transient ST elevation on
ECG. Smoking is a risk factor, but hypertension and hypercholesterolemia are not. Triggers
may include cocaine, alcohol, and triptans. Treat with Ca2+ channel blockers, nitrates, and
smoking cessation (if applicable).

Answer 76

A

Inhibits the late phase of sodium current thereby reducing diastolic wall tension and oxygen
consumption. Does not affect heart rate or contractility.

CLINICAL USE Angina refractory to other medical therapies.
ADVERSE EFFECTS Constipation, dizziness, headache, nausea, QT prolongation

Answer 77

A

USES;
1. Angina pectoris - decrease heart rate and contractility
2. MI - decrease mortality
3. Supraventricular tachycardia (decrease AV conduction velocity (class II antiarrhythmic)
Metoprolol, esmolol,
4. Hypertension = decrease CO, decrease renin secretion due to B1 blockade
5. HF = decrease mortality (bisoprolol, carvediol, metoprolol)
6. Glaucoma = decrease production of aqueous humor - **Timolol
7. Variceal bleeding (decrease hepatic venous pressure gradient and portal hypertension - Nadolol, propranolol

ADVERSE EffECTS:
Erectile dysfunction, cardiovascular adverse
effects (bradycardia, AV block, HF), CNS
adverse effects (seizures, sedation, sleep
alterations), dyslipidemia (metoprolol), and
asthma/COPD exacerbations
*Use with caution in cocaine users due to risk
of unopposed α-adrenergic receptor agonist
activity

SELECTIVITY:
β1-selective antagonists (β1 > β2)—acebutolol
(partial agonist), atenolol, betaxolol, bisoprolol,
esmolol, metoprolol
Selective antagonists mostly go from A to M (β1
with 1st half of alphabet)

Nonselective antagonists (β1 = β2)—nadolol,
pindolol (partial agonist), propranolol, timolol
Nonselective antagonists mostly go from N to Z
(β2 with 2nd half of alphabet)

Nonselective α- and β-antagonists—carvedilol,
labetalol
Nonselective α- and β-antagonists have modified
suffixes (instead of “-olol”)

Nebivolol combines cardiac-selective
β1-adrenergic blockade with stimulation of
β3-receptors (activate nitric oxide synthase in
the vasculature and decrease SVR)

Answer 78

A

Sildenafil (viagra)
vardenafil,
tadalafil.

Inhibit PDE-5 > increase cGMP > prolonged
smooth muscle relaxation in response to NO, HIGHER NO SENSITIVITY
> increase blood flow in corpus cavernosum of penis,
—decrease pulmonary vascular resistance.

Sildenafil, vardenafil, and tadalafil fill the
penis.

CLINICAL USE Erectile dysfunction, pulmonary hypertension,
BPH (tadalafil only).

ADVERSE EFFECTS Headache, flushing, dyspepsia, cyanopia
(blue-tinted vision).
***Risk of life-threatening
hypotension in patients taking nitrates.
“Hot and sweaty,” but then Headache, Heartburn, Hypotension.

Answer 79

A

MECHANISM Direct renin inhibitor, blocks conversion of angiotensinogen to angiotensin I.
CLINICAL USE: Hypertension.
ADVERSE EFFECTS: Hyperkalemia, decreased GFR, hypotension, angioedema. Relatively contraindicated in patients already taking ACE inhibitors or ARBs.

Answer 80

A

ACT in PROXIMAL tubule and DESCENDING limb of Henle’s loop where the cells are
freely permeable to water.

MECHANISM Osmotic diuretic. increase tubular fluid osmolarity > increase urine flow, decrease intracranial/intraocular pressure.

**Osmotic diuretics INITIALLY expand the extracellular fluid volume, decrease blood viscosity, and inhibit renin release. These effects increase renal blood flow, thereby removing NaCl and urea from the renal
medulla and decreasing medullary tonicity.
Mannitol is not metabolized and is handled primarily by glomerular filtration without any important tubular reabsorption or secretion.
Osmotic diuretics are poorly absorbed so they must be given parenterally.
-Given orally mannitol causes osmotic diarrhea, which can be used to potentiate the effects of potassium-binding resins or eliminate toxic substances from the GI tract in conjunction with activated charcoal.

CLINICAL USE
A. To increase water excretion in preference to sodium excretion.
B. Reduction of intracranial and intraocular pressure:
C. To promote prompt removal of renal toxins (e.g., after use of radiocontrast agents), FA: drug overdose
TOXICITY:
A. Extracellular volume Expansion: Water expansion into extracellular compartment (before diuresis) causing hyponatremia. This effect can complicate
congestive heart failure and may produce florid pulmonary edema. Headache, nausea, and vomiting are commonly observed in patients with
osmotic diuretics.
B. Dehydration and hypernatremia (after diuresis). From excessive use of osmotic diuretics without carefully monitoring serum ion composition and fluid balance.

FA ADVERSE EFFECTS Pulmonary edema, dehydration. Contraindicated in anuria, HF.

Answer 81

A

MECHANISM in PROXIMAL tubule, inhibits the actions of NHE3, proton/sodium exchanger
NORMAL MECHANISM: carbonic anhydrase converts carbonic acid into water and CO2. CO2 passively diffuses into the cell where a reverse carbonic anhydrase remakes carbonic acid, which this time splits into a proton and bicarbonate. The proton goes out into the lumen in exchange for sodium. Hence why you get a acidosis with acetazolamide. Hyperchloremic is because there is also a Cl-/bicarbonate exchanger, the more bicarb that gets out into the lumen, the more Cl- is reabsorbed
Carbonic anhydrase inhibitor . blocks sodium bicarbonate reabsorption resulting in a decrease in sodium chloride reabsorption. Water Causes selflimited NaHCO3 diuresis and decreased total body HCO3 stores.
*Effectiveness of acetazolamide decreases significantly over several days because of enhanced NaCl reabsorption at other sites due to bicarbonate depletion.
CLINICAL USE
A. Eye: glaucoma (decreases production of aqueous humor). Dorzolamide and brinzolamide are topically active C.A. inhibitors.
B. Acute mountain sickness: Raise C02 content of tissues which in turn stabilizes deoxyhemoglobin. Useful for counteracting acute mountain sickness (during hyperventilation). Deoxyhemoglobin - gives off oxygen, so better oxygen delivery to tissues.
C. To correct metabolic alkalosis that may develop in the setting of respiratory acidosis or due to excessive use of diuretics in patients with severe heart failure.
D. Can be used to alkalinize the urine briefly (for solubilization of uric acid) or
counteract metabolic alkalosis (from decreased total body K+, high levels of
mineral corticoids, heart failure).
E. Has anticonvulsant properties.

Other Adverse effects are rare: paraesthesias, somnolence, allergic reactions in those sensitive to sulfonamides, Renal K+ wasting due to enhanced sodium reabsorption elsewehere.
Contraindications: C.A. inhibitors should be avoided in patients with hepatic cirrhosis: Decreases NH4
+ excretion may contribute to development of hepatic
encephalopathy and coma.

Answer 82

A

ADH antagonists (conivaptan, tolvaptan)
USES:
SIADH (euvolemic hyponatremia.),
block action of ADH at V2-receptor.

ADH increases the permeability of
principal cells to water by binding to V2
receptors, thus increasing the number of
water channel molecules (AQP2) on the
apical surface in a cAMP dependent
manner. ADH increases transport and
synthesis of AQP2.

TOXICITY:
A. Nephrogenic Diabetes Insipidus:
• If serum Na+ is not monitored closely, ADH antagonists can cause severe hypernatremia and nephrogenic diabetes insipidus.

B. Renal Failure: Both Li+ and demeclocycline have been reported to cause acute renal
failure. Long term Li+ therapy may also cause chronic interstitial nephritis.

C. Other: Adverse effects associated with Li+ therapy include tremulousness, mental
obtundation, cardiotoxicity, thyroid dysfunction, and leukocytosis.
Demeclocycline should be avoided in patients with liver disease.

Answer 83

A

2 drug for hypotension -phenylnephrine

Cardiogenic shock with maintained BP - dobutamine
Anaphylactic shock, cardiac arrest - epinephrine
Hypotension in sepsis and cardiognic shock -norepinephrine

Stokes Adams Attack - isoproternol
Pheochromocytoma: phenoxbenzamine or phentalomaine blocks catecholamine mediated vasoconstriction - irreversible receptor blockade
NE extravasation: phetolamine
Zosins - Tamulosin, terazosin, doxazosin

Answer 84

A

Warfarin
Statins
Ace inhibitors

Answer 85

A

Sildenafil (phosphodiesterase inhibitor, increasing levels of NO)

Answer 86

A

Lisinopril

A common side effect of ACE inhibitors is cough along with angioneurotic edema which are also caused by high bradykinin.

Answer 87

A

Antithrombotic therapy
Beta blocker
Statin

NOT
oxygen therapy
antiarrhythmic therapy
-both increase mortality actually…

Answer 88

A

Furosemide
Bumatenide
Torsemide
Ethacrynic acid

-Ototoxicity

Answer 89

A

Triamterene - loop diuretic.

Enoximone - phosphodiesterase inhibitors

LCZ696- is a dual inhibitor of neprilysin and angiotensin receptors

Tirofiban- binds to GPIIb/IIIa receptor

Answer 90

A

Enoxaparin - LMWH

Ticagrelor - reversible binding to ADP

Disopyramide - Class 1A drugs - can cause atropine like adverse effects

Ivabradine - Class II antiarrhythmic that blocks funny current in the SA node, reducing heart rate without affect contractility.

Dofetilide - class III antiarrhythmic Classically used therapeutically to convert aflutter and afib to normal sinus rhythm.

Anti-ischemic drug for chronic angina. Blocks sodium, calcium, potassium currents. Lessens incidences of supraventricular arrhythmias including AF.

Answer 91

A

Pulmonary fibrosis
Crystalline deposits in the cornea and skin
Thyroid dysfunction

Answer 92

A

Methyldopa - a2 agonist - pregnancy hypertension.

Nebivolol - long acting beta 1 selective with NO release

Demeclocyline - ADH antagonist, can cause acute renal failure and also should be avoided in patients with liver disease.

Cilostazol - intermittent claudication therapy, inhibition of phosphodiesterase 3

Colchicine - pericarditis

Answer 93

A

Gemfibrozil is a fibrate
that stimulates lipoprotein lipase by activation
of the PPARa protein. In so doing, it
has beneficial effects on the serum lipid profile.
Adverse effects of fibrates include elevation
of liver enzymes and myositis.

Answer 94

A

The patient is experiencing
pericarditis due to uremia secondary
to chronic kidney disease in the setting of
long-standing diabetes mellitus (DM). Pericarditis
presents with pleuritic, positional chest
pain that is often relieved by sitting forward
and with a pericardial friction rub on physical
examination. Diffuse ST segment elevations
may be found on ECG, while an echocardiogram
may be normal unless an effusion is also
present. Pericarditis has multiple etiologies,
including viral (coxsackie virus, echovirus, adenovirus,
and HIV), bacterial (tuberculosis or
Streptococcus pneumoniae or Staphylococcus
aureus in the setting of endocarditis, pneumonia,
or post-cardiac surgery), neoplastic, autoimmune,
uremic, cardiovascular, or idiopathic.
Treatment of pericarditis secondary to uremia
is dialysis.

Answer 95

A

Because patients in
cardiac tamponade are in a low-output state,
they are preload dependent and require immediate
volume resuscitation to maintain cardiac
output. Positive inotropes such as dobutamine
and pericardiocentesis would also be indicated
in this patient after he has begun receiving IV
hydration.

Answer 96

A

GLUCAGON!
This patient is experiencing
a propranolol overdose. Propranolol,
a b-adrenergic receptor blocker, reduces heart
rate and contractility due to antagonism of
b1-receptors in the sinoatrial node. This lowers
cardiac output. The goal of therapy should
be restoring myocardial contractility and increasing
cardiac output. Glucagon acts as a
positive inotropic agent. It increases intracellular
cAMP levels independently of adrenergic
receptor signaling. Because its mechanism is
unaffected by adrenergic blockade, glucagon is
the drug of choice in b-blocker toxicity.

Answer 97

A

Potent P450 inhibitors

Azole antifungal drugs (ex Ketoconazole)
Erythromycin
Clarithromycin
Ciprofloxacin
Protease inhibitors (for HIV)

(potent p450 inducers)

carbamazepine
phenytoin
phenobarbital
rifampin

Answer 98

A

Bivalirudin - indicated for unstable angina and directly inhibits thrombin.

Answer 99

A

Methylene blue - it will convert metHb back to hemoglobin by NADH-methemoglobin reductase. -Restoring blood O2 carrying capcity and tissue O2 availability.
MetHb is Fe3_, lacks electron that binds oxygen.
Can be due to nitric oxide ingestion

Answer 100

A

-chelating agent used to bind and clear heavy metals fro circulation such as lead.

Answer 101

A

used in cyanide ingestion

Answer 102

A

replenishes glutathione in patietns with acetaminophen overdose.

Answer 103

A

Bivalrudin - this is with or without HIT

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