Cardiovascular UWorld

Question 1

A 78 year old man dies and autopsy of his heart reveals cardiac myocytes with intracytoplasmic inclusions of yellow-brown granules. What causes this?

Answer 1

This is lipofuscin, it forms with age due to long term free radical injury and lipid peroxidation. Very common in heart and liver in aged, malnourished and cachectic patients.

Question 2

Why do patients with B12 deficiency get posterior column and other neurologic symptoms?

Answer 2

B12 deficiency results in accumulation of methyl-malonly CoA due to inability to convert it to succinyl CoA. This results in incorporation of non-physiologic fatty acids into neurons.

Question 3

How can folic acid and B12 supplementation decrease levels of homocysteine in an attempt to minimize thrombosis?

Answer 3

Folic acid and B12 make it possible for methionine synthetase to function and convert homocysteine to methionine.

Question 4

What bugs might be involved in a patient with suspect endocarditis and labs that show gram-positive cocci that can synthesize dextran from sucrose?

Answer 4

Strep viridians (mutans and sanguinis). Dextran is insoluble which allows them to adhere to teeth and prosthetic heart valves.

Question 5

Most important mediators in auto regulation of coronary blood flow? Where do they come from?

Answer 5

NO and adenosine. NO and citrulline are synthesized from arginine and oxygen by eNOS in the coronary endothelium. NO then activates guanylate cyclase, increasing cGMP levels, causing vasodilation. Adenosine comes from ATP metabolisms and vasodilates the small coronary vessels.

Question 6

Treatment for niacin-related flushing and pruritus?

Answer 6

Aspirin 30-60 minutes prior to administration will inhibit the prostaglandins (PGD2 and PGE2) that mediate the reaction to niacin.

Question 7

Only class III anti-arrhythmic with additional beta-blocking properties?

Answer 7

Sotalol. You’ll know to pick this because the patient will have long QT and bradycardia.

Question 8

Cardiac medication that can cause gingival hyperplasia and hyperprolactinemia?

Answer 8

Verapamil

Question 9

Treatment of a patient with endocarditis and labs showing gram positive, catalase positive, coagulase negative cocci? What if cultures come back methicillin-sensitive?

Answer 9

80% of coagulase negative staph are methicillin resistant and should be treated with vancomycin. If cultures return methicillin sensitive, you may treat with a beta-lactamase resistant PCN like nafcillin or oxacillin.

Question 10

When can the Purkinje system assume a pacemaker role?

Answer 10

Severe bradycardia less than 40 beats per minute.

Question 11

How is it that a patient with aortic stenosis has a steady state of flow through the capillary beds, which have a much smaller diameter than the aorta?

Answer 11

The steady state velocity of blood flow at any given point in the vasculature is inversely proportional to the diameter of the vessel through which the blood flows:
Vol(in) = A1V1 = Vol(out) = A2V2

Question 12

Artery likely lacerated in a patient with a skull fracture at the junction of the frontal, temporal, parietal and sphenoid bones?

Answer 12

This location is the “pterion”, which is where the middle meningeal artery lies. This is a branch of the maxillary artery, from the external carotid.

Question 13

Coagulation labs used to monitor Warfarin and Heparin?

Answer 13

Warfarin = PT/INR. Heparin = aPTT.

Question 14

How is calcium efflux prior to myocardial relaxation accomplished?

Answer 14

Sarcoplasmic reticulum’s Ca ATPase pump and sarcolemmal 3Na/Ca exchanger.

Question 15

Why do CCBs only work in cardiac and smooth muscle and not skeletal muscle.

Answer 15

The L-type Ca channels in skeletal muscle causes mechanical opening of the RyR receptor of the sarcoplasmic reticulum and no Ca influx is required to open the sarcoplasmic reticulum as is necessary in cardiac and smooth muscle.

Question 16

Where does Ca go in the cardiac, skeletal and smooth muscle myocytes after it is release from the sarcoplasmic reticulum?

Answer 16

Cardiac and skeletal = troponin C, then allowing actin and myosin to bind. Smooth muscle = calmodulin -> myosin light chain kinase phosphorylation -> myosin phosphorylation -> myosin binds to actin.

Question 17

What makes an atheroma more prone to rupture than other atheromas?

Answer 17

Progressive plaque enlargement leads to vascular smooth muscle cell death. These cells secrete collagen and fibrin to form the fibrous cap of the atheroma, and when they die the atheroma becomes unstable.

Question 18

Collagen subtypes. Which types are deposited after a patient has an MI?

Answer 18

1) Dermis, bone, tendons, ligaments, dentin, cornea, blood vessels and scar tissue
2) Cartilage, vitreous humor and nucleus pulposus
3) Skin, lungs, intestines, blood vessels, bone marrow, lymphatics and granulation tissue (7 days after MI, eventually replaced by type I scar tissue)
4) Basement membrane

Question 19

Conditions that cause pulsus paradoxus?

Answer 19

Those that impair the RV ability to expand in the pericardial space (tamponade, asthma, COPD and constrictive pericarditis) leading the inter ventricular septal shift towards the LV, reducing SBP during inspiration.

Question 20

How do beta-agonists cause bronchial wall dilation?

Answer 20

They bind to Gs -> adenylate cyclase activation -> increased cAMP

Question 21

Heart sound in a non-stenotic bicuspid aorta?

Answer 21

Early systolic, high pitched click in the RUSB.

Question 22

Cause of fluid overload and cardiac remodeling in patients with CHF

Answer 22

Compensatory activation of the RAAS and sympathetic nervous system increase after load and cause cardiac remodeling.

Question 23

How does milrinone increase cardiac contractility?

Answer 23

It is a PDE3 inhibitor, which increases cAMP concentrations. This results in increased Ca efflux from the sarcoplasmic reticulum, allowing for stronger myocyte contraction.

Question 24

How does NE cause vasoconstriction?

Answer 24

Alpha-1 stimulation results in IP3 pathway mediated vasoconstriction.

Question 25

How does NE cause increased heart rate and contractility?

Answer 25

Beta-1 stimulation results in Gs pathway mediated increased cAMP. Note that the heart rate typically remains unchanged due to reflex bradycardia after NE induces alpha-1 mediated vasoconstriction.

Question 26

What happens when you stimulate an alpha-2 receptor?

Answer 26

There is decreased cAMP and release of NE and insulin is inhibited.

Question 27

Statin side effects

Answer 27

Hepatotoxicity and myopathy

Question 28

Fibrate side effects

Answer 28

Gallstones and myopathy

Question 29

Bile acid sequestrant side effects

Answer 29

GI upset and malabsorption

Question 30

Niacin side effects

Answer 30

Flushing, pruritus and hepatotoxicity

Question 31

Ezetimibe side effects

Answer 31

Hepatotoxicity when combined with statin

Question 32

Dopamine effect on cardiovascular system

Answer 32

Low dose: increases mesenteric and renal blood flow and stimulates beta-1 receptors. High dose: stimulates alpha-1 receptors

Question 33

How does ANP induce peripheral vasodilation?

Answer 33

It activates guanylyl cyclase and increases levels of cGMP which causes vasodilation (same mechanism as NO).

Question 34

Mechanism of TCA overdose symptoms

Answer 34

Inhibition of fast cardiac Na channels and inhibition of muscarinic, histamine and alpha-1 receptors is responsible for the arrhythmias, anti-cholinergic toxicity and orthostatic hypotension.

Question 35

When to give a patient who overdosed on TCA sodium bicarbonate.

Answer 35

When the QRS widens and the patient develops a ventricular arrhythmina. NaHCO3 increases the pH and raises Na concentration, alleviating blockade of Na fast channels.

Question 36

Mutation that causes congenital long QT syndrome

Answer 36

Decreased outward K+ currents. This results in prolongation of phase 3 of the cardiac action potential, prolonging the QT interval.

Question 37

Class IA antiarrhythmics

Answer 37

They prolong the action potential duration (long QT) and conduction velocity by blocking fast Na channels. Quinidine, procainamide and disopyramide.

Question 38

Class IB antiarrhythmics

Answer 38

They shorten action potential duration and have no effect on conduction velocity by blocking fast Na channels. Lidocaine, mexilitene, phenytoin.

Question 39

Class IC antiarrhythmics

Answer 39

They slow action potential conduction velocity and have minimal effect on duration. Flecainide and propafenone.

Question 40

Class II antiarrhythmics

Answer 40

Slows SA node discharge rate AV node conduction rate and prolongs refractory period. Beta-blockers.

Question 41

Class III antiarrhythmics

Answer 41

Prolongs action potential duration (long QT), no effect on conduction velocity. Amiodarone (minimal QT prolongation), Ibutilide, Dofetilide, Dronedarone and Sotalol (also class II)

Question 42

Class IV antiarrhythmics

Answer 42

Slows SA node discharge, AV node conduction and prolongs refractory period. Non-dihydropyridine calcium channel blockers: verapamil and diltiazam.

Question 43

Tumor cell markers in angiosarcoma

Answer 43

CD31

Question 44

WPW ECG findings

Answer 44

Shortened PR, upsloping delta wave and widened QRS (converts to narrow during PSVT)

Question 45

Carotid body baroreceptor nerve that conducts to the solitary medullary nucleus? Aortic arch?

Answer 45

Carotid body = glossopharyngeal (CN IX). Aortic arch = vagus (CN X)

Question 46

Vascular derivatives of the aortic arch

Answer 46

1st = maxillary artery
2nd = hyoid and stapedial arteries
3rd = common carotid and proximal ICA
4th = left: aortic arch, right: proximal right subclavian
5th = none
6th = proximal pulmonary arteries, left: ductus arteriosus

Question 47

Closure of PDA in older patients

Answer 47

Can’t use indomethacin, need to close surgically

Question 48

Why does tyramine predispose patients on MAO-I to hypertensive crisis?

Answer 48

The tyramine-rich foods cannot be detoxified by MOA-A in the GI tract. They then enter nerve endings and the monoamine transport vesicles. This causes displacement of NE and increased NE back flow into circulation, elevating sympathetic tone and blood pressure.

Question 49

Great anti-hypertensive medication for patients with hypotension and long PR interval?

Answer 49

Nifedipine. It does not affect AV conduction and causes peripheral vasodilation with subsequent reflex tachycardia.

Question 50

How does EPI affect blood pressure?

Answer 50

It always raises systolic pressure due to beta-1 and alpha-1 stimulation. At low doses, it stimulates beta-2 > alpha-1 causing decreased diastolic pressure. At higher doses, it stimulates alpha-1 > beta-2 and causes increased diastolic pressure.

Question 51

How does EPI affect heart rate?

Answer 51

Dose-dependent increase in response to beta-1 stimulation. If the HR does not increase with addition of EPI, you know there is another drug on board blocking beta-1 receptors.

Question 52

Propranolol mechanism of action

Answer 52

Non-selective beta-blocker

Question 53

Phentolamine mechanism of action

Answer 53

Non-selective alpha-blocker with reversible effects (can be overcome by high dose NE infusion)

Question 54

Phenylephrine mechanism of action

Answer 54

Alpha-1 selective agonist

Question 55

Isoproterenol mechanism of action

Answer 55

Non-selective beta-agonist

Question 56

A child presents with differential cyanosis and clubbing of his lower extremities, but not his upper extremities. What is likely causing his condition?

Answer 56

PDA complicated by Eisenmeger syndrome and increased delivery of deoxygenated blood to the descending aorta. This is not coarctation because coarctation would present with differential cyanosis at infancy, not in childhood.

Question 57

Pressure volume loop in patients with an AV fistula?

Answer 57

Since the fistula increases the velocity of blood returning to the heart, end diastolic volume increases. Since the fistula allows bypassing of the arterioles (most resistance in the circuit), the pressure decreases.

Question 58

Action potential in cardiac pacemaker cells

Answer 58

Phase 0: voltage gated L-type Ca channels open at -40mV. Phase 3: L-type Ca channels close and K+ channels open for repolarization. Phase 4: funny Na channels open and slowly and the T-type Ca channels open around -50mV, then the L-type channels open and start phase 0 all over again.

Question 59

How does adenosine work to control patients with PSVT? What neurotransmitter works in a similar fashion?

Answer 59

It increases K+ conductance during phase 4, further depolarizing the membrane. It also blocks L-type Ca channels. Note that acetylcholine has a similar mechanism of action.

Question 60

Cause of familial primary pulmonary hypertension?

Answer 60

Mutation in BMPR2 that causes smooth muscle proliferation

Question 61

Common location of aortic injury in rapid deceleration injury?

Answer 61

Aortic isthmus, where the ligamentum arteriosum attaches to the descending aorta.

Question 62

Most reliable indicator of mitral stenosis severity?

Answer 62

Time from P2 to opening snap on auscultation. Severity worsens as the interval shortens.

Question 63

Mechanism of action of diphtheria toxin

Answer 63

It is an AB toxin that inhibits protein synthesis via ADP-ribosylation of EF-2.

Question 64

Mechanism of action of c. perfingens toxin

Answer 64

Lecithinase (aka phospholipase C) causes cellular death via membrane degradation

Question 65

Mechanism of action of Shigella and EHEC toxin?

Answer 65

Shiga toxin inactivates the ribosomal 60S subunit

Question 66

Mechanism of action of b. pertussis toxin?

Answer 66

AB toxin that catalyzes ribosylation of Ga subunit that causes activation and increased cAMP production. This results in increased sensitivity to histamine, leukocyte dysfunction and increased insulin production.

Question 67

Why is cardioversion indicated for patients with severe aortic stenosis and acute atrial fibrillation?

Answer 67

Left ventricular hypertrophy in AS makes the heart highly dependent on atrial contraction to have adequate LV filling during diastole. In a-fib, patients don’t have the atrial kick and are at risk for severe hypotension.

Question 68

How does cortisol have a “permissive” effect when combined with other hormones?

Answer 68

Although it doesn’t directly vasoconstrict, it up regulates peripheral alpha-1 receptors, increasing the response of ATII and NE.

Question 69

Calculating true positives

Answer 69

sensitivity x # who actually had disease

Question 70

Calculating false negatives

Answer 70

(1 - sensitivity) x # who actually had disease

Question 71

Phenoxybenzamine mechanism of action

Answer 71

Non-selective irreversible alpha antagonist

Question 72

Labetalol mechanism of action

Answer 72

Beta-1, beta-2 and alpha-1 antagonist. This is reversible and high doses of NE can overcome its effects.

Question 73

Only statin not metabolized by CYP 3A4. Why is this clinically significant?

Answer 73

Pravastatin. In patients taking drugs that inhibit CYP 3A4 metabolism (cyclosporine, HIV protease inhibitors, macrocodes, azoles and grapefruit juice) they should be on pravastatin to minimize risk of myopathy due to increased statin concentration.

Question 74

Pathophysiology of AAA vs. thoracic aortic aneurisms?

Answer 74

AAA = chronic transmural inflammation secondary to atherosclerosis.
Thoracic aneurisms = cystic medial necrosis.

Question 75

Medication of choice for claudicators

Answer 75

Cilostazol inhibits platelet PDE, leading to increased levels of cAMP. cAMP activates protein kinase A, which inhibits platelet aggregation. Additionally, cilostazol causes vasodilation and improves claudication symptoms. Of note, since PAD is a CAD equivalent, patients should also be on ASA and/or clopidogrel.

Question 76

% of coronary artery occlusion necessary to cause stable angina

Answer 76

> 75%

Question 77

Digoxin mechanism of action

Answer 77

Inhibition of Na/K ATPase increases intracellular Na. This leads to decreased Ca excretion from the cell via the 3Na/Ca exchanger. Increased intracellular Ca causes increased contractility. Digoxin also stimulates the parasympathetic nervous system and decreases heart rate.

Question 78

Signs of digoxin toxicity

Answer 78

Elevated K from inhibition of the Na/K ATPase, GI symptoms, arrhythmias, vision changes, confusion and weakness.

Question 79

Pathologic process involved in thromboangiitis obliterans?

Answer 79

Segmental thrombosing vasculitis extending into contiguous veins and nerves, encasing them in fibrous tissue.

Question 80

Side effects of thiazides

Answer 80

HYPER: uricemia, calcemia, glycemia, lipemia. HYPO: kalemia and tension

Question 81

Most common cause of native valve bacterial endocarditis among 15-60 year olds in the US

Answer 81

Mitral valve prolapse. High velocity jets striking the endothelium and turbulent flow causes injury, platelet and fibrin deposition that result in non-infectious vegetations. These vegetations can serve as a nidus for future infection and risk for embolic stroke.