6/17 UWorld

Question 1

Uses of Magnesium as an anti-arrhythmic

Answer 1

Useful for the treatment of certain arrhythmias (e.g. torsades)

Question 2

Describe effects of hyper and hypokalemia on EKG

Answer 2

• Hyperkalemia = high, peaked T wave
• Hypokalemia = flat T wave with possible U wave

Question 3

Describe the MOA of Adenosine as an anti-arrhythmic

Answer 3

Increases K+ out of cells, hyperpolarizing the cell

Decreases Ca2+ into cells, decreasing AV node conduction

Question 4

Uses of Adenosine as an anti-arrhythmic

Answer 4

• First-line agent for acute treatment of supraventricular arrhythmias
  
  • = illuminated top of neon heart with #1 ribbon
• Coronary dilation (mediated by A2 receptors)
  
  • = dilated coronary crown

Question 5

Adverse effects of Adenosine

Answer 5

• High-grade AV block
  
  • = hat blocking heart of swing dancer
• Shortness of breath, chest pain, major flushing, and sense of impending doom
  
  • = flushed dancer clutching chest
• Hypotension (due to vasodilation) and HA
  
  • = fainting dancer

Question 6

What ECG leads will have an abnormal QRS deflection in L axis deviation?

Answer 6

Negative (-) deflection of QRS in lead aVF and II

Question 7

What ECG leads will have an abnormal QRS deflection in R axis deviation?

Answer 7

Positive (+) deflction of QRS in lead III

Question 8

What is the normal length of QRS complex

Answer 8

Normally < 120 msec (e.g. 3 boxes)

Question 9

Rank the parts of the conduction pathway from fastest to slowest

Answer 9

Purkinje > atria > ventricles > AV node

Question 10

Causes of L axis deviation

Answer 10

Inferior wall MI

L anterior fascicular block

LV hypertrophy

LBBB

High diaphragm

Question 11

What arrhythmia is this:

• ECG:
  
  • Chaotic and erratic baseline with no discrete P waves in between irregularly spaced QRS complexes
  • Irregularly irregular (spacing between R waves are inconsistent)
  • Absent P waves

Answer 11

Atrial fibrillation

Question 12

Describe EKG of atrial flutter

Answer 12

• Identical, back-to-back atrial depolarizations = consecutive P waves
• Sawtooth pattern
• Regular

Question 13

EKG of ventricular tachycardia

Answer 13

• Defined as 3 or more successive ventricular (QRS) complexes
• May be non-sustained (< 30 s) or sustained (> 30 s)
• Rhythm is usually regular

Question 14

Describe Torsades de Pointes, its predisposing condition, and its feared complication

Answer 14

• Type of ventricular tachycardia characterized by shifting sinusoidal waveforms on ECG
  
  • Amplitude going back and forth between tall and short
• Can progress to ventricular fibrillation
• Long QT intervals predispose to Torsades de Pointes

Question 15

Treatment of Torsades de pointes

Answer 15

Magnesium

Question 16

Describe first degree AV block

Answer 16

Prolonged PR interval > 200 msec (5 blocks)

Recall that PR interval is time between atrial and ventricular depolarization (hence, AV block)

Asymptomatic

No treatment needed

Question 17

Describe Mobitz type I AV block

Answer 17

Type II AV block

Progressive lengthening of PR interval until a beat is “dropped”

P wave not followed by a QRS complex

Usually asymptomatic

Question 18

Describe Mobtiz type II AV block

Answer 18

“Dropped” beats without a warning

Not preceded by change in length of PR interval

May progress to third degree block

Treated with pacemaker

Question 19

Describe 3rd degree AV block

Answer 19

• Atria and ventricles beat independently of each other
  
  • No correlation between P waves and QRS complex
• Atrial rate > ventricular rate
• Usually treated with pacemaker
• Associated with Lyme disease

Question 20

What is a Cushing reaction, and what is it in response to?

Describe pathogenesis

Answer 20

Triad of hypertension, bradycardia, and respiratory depression in response to increased intracranial pressure

• Increased ICP = pressure constricts arterioles in brain = cerebral ischemia = sympathetic response increases peripheral vasoconstriction, thus increasing BP = aortic baroreceptors sense increased BP = respond with reflex bradycardia and respiratory depression

Question 21

What is the difference betwen hypertensive urgency and hypertensive emergency

Answer 21

• Hypertensive urgency:
  
  • BP > 180/20
  • With no evidence of end organ damage
• Hypertensive emergency:
  
  • BP > 180/120
  • With evidence of end organ damage:
    
    • Encephalopathy, stroke, retinal hemorrhage, papilledema, MI, HF, aortic dissection, kidney injury, microangiopathic hemolytic anemia, eclampsia

Question 22

Difference in location and treatment of Stanford Type A vs. Type B aortic dissection

Answer 22

• Stanford Type A
  
  • Involves ascending aortas
  • Rx = surgery
• Stanford Type B
  
  • Confined to descending aorta, distal to L subclavian
  • Rx = medically: beta-blockers then vasodilators

Question 23

Treatment of atrial fibrillation/flutter

Answer 23

Anticoagulation (to remove clots) – Heparin, Enoxaparin, Coumadin (Warfarin)

Rate control – Digoxin, Beta-blockers (Class II), Calcium channel blockers (Class IV)

Rhythm control – Amiodarone or Sotalol (Class IV), Flecainide (Class IC)

Question 24

What drugs prolong the QT interval, and therefore predispose to Torsades de pointes?

Answer 24

• Drugs that prolong QT interval – ABDCE
  
  • AntiArrhythmics (IA, III)
  • AntiBiotics (e.g. macrolides, chloroquine)
  • Anti”C”ychotics (e.g. Haloperidol)
  • AntiDepressants (e.g. TCAs)
  • AntiEmetics (e.g. ondansetron)

Question 25

Difference between baroreceptors and chemoreceptors

Answer 25

• Baroreceptors - respond to blood pressure (hyper- /hypotension)
  
  • Located in aortic arch and carotid sinus
• Chemoreceptros - respond to pO2, pCO2, and pH
  
  • Peripheral
  • Central - does not response to pO2

Question 26

What are the treatment options for primary (essential) HTN?

And which do elderly/black respond best to?

Answer 26

Thiazide diuretics

Dihydropyridine CCBs - best for elderly/black

ACEI / ARBs

Question 27

What is the MOA of Labetalol treating hypertensive emergency

Answer 27

• Labetalol is an alpha and beta antagonist
  
  • = alpha and beta buttons on organ
• Beta-blockers lower BP by directly decreased HR and contractility
• Alpha-1 antagonists lead to vasodilation

Question 28

Which type of CCBs are used for treating HTN emergency, and what is their MOA

Answer 28

Dihydropyridines CCBs cause arteriolar dilation which reduces systemic resistance (e.g. afterload)

(vs. non-DP for anti-arrhythmia)

Question 29

Describe the MOA of Hydralazine

Answer 29

• Mechanism of action:
  
  • Direct arteriolar vasodilator with little or no effect on venous circulation
    
    • = dilated red hose

Question 30

Describe the main adverse effect of Hydralazine and what can be done to minimize the effect

Answer 30

• Can cause hypotension
  
  • = pregnant lady fainting
• Hydralazine induced reflex tachycardia can worsen angina
  
  • = anvil anchoring hydroboat
• Because of worsening angina, a beta-blocker is co-administered
  
  • = beta-1 bugler leaving to get on hydro boat and pushing over the reflex tachycardia hammer doc

Question 31

What drugs cause drug-induced lupus

Answer 31

SHIPP-E

S – sulfa drugs

H – Hydralazine

I – Isoniazid

P – Procainamide

P – Phenytoin

E – Etanercept

Question 32

MOA of Nitroglycerin vs. Nitroprusside

Answer 32

• Nitroglycerine - mostly venous dilator
  
  • Sublingual
  • Used in combo with hydralazine (arteriolar dilator) to treat heart failure - mortality benefit
• Nitroprusside
  
  • Venous and arteriolar dilation

Question 33

MOA of Fenoldopam

Answer 33

• Sketchy = old lady Pam
• Mechanism of actionSelective dopamine 1 receptor agonist
  
  • = old lady propelling from a single rope
• Results in a rise in cAMP
  
  • = camping tent
• cAMP causes vasodilation in arteries
  
  • = dilated red sleeves
• Can also cause coronary vasodilation
  
  • = dilated coronary crown
• Dilation of renal arteries, increasing renal perfusion
  
  • = kidney shaped thing attached to rope
• Dopamine also leads to increased Na+ and water excretion
  
  • = salty peanuts falling into water = natriuresis

Question 34

Describe the 2 type of arteriolosclerosis

Answer 34

• Hyaline
  
  • Caused by protein leaking into vessel wall, producing vascular thickening
  • Consequence of benign HTN or diabetes
  • Protein seen as pink hyaline on microscopy
• Hyperplastic
  
  • Thickening of vessel wall caused by hyperplasia of smooth muscle
  • “Onion skin” on microscopy (too many muscle layers)
  • Consequence of severe HTN

Question 35

Rank affected arteries of atherosclerosis in order

Answer 35

• Abdominal aorta > coronary artery > popliteal artery > carotid artery

Question 36

Describe the pathogenesis of atherosclerosis

Answer 36

Endothelial damage = lipids leak into intima = macrophage oxidize and consume lipids = result in foam cell = fatty streak (collection of macrophages with lipids within them) = smooth muscle cell migration (involves PDGF and FGF), proliferation, and extracellular matrix deposition à fibrous plaque = complex atheroma

Question 37

What does it mean to have a R dominant heart

Answer 37

Posterior descending/interventricular artery arises from RCA

This occurs in 80% of population

Question 38

Treatment of prinzmetal angina

Answer 38

Dihydropyridine CCBs

Question 40

Adverse effects of Bile acid resins

Answer 40

• Increase in serum triglyceridesIncreased endogenous production of cholesterol will also cause increase in hepatic production TAG and VLDL
  
  • = lobster pushing out VLDL (hypertriglyceridemia)
  • So should not be used in hypercholesterol patients who also have hypertriglycerides
• Cholesterol gall stones (liver is throwing too much cholesterol into biliary tract
  
  • = sea gull standing on stones
• GI upset (constipation and bloating)
  
  • = lobster clamping GI pipe
• Steatorrhea (can lead to reduced absorption of fat soluble vitamins, ADEK)
  
  • = DEcK-A
• Bile-acid binding resins decrease statin absorption (Must be given 4 hours apart)
  
  • = lobster clashing with statin pirate

Question 41

Adverse effects of Ezetimibe

Answer 41

• Increase in transaminases – Increased LFTs
  
  • =raised LFT flag
• Diarrhea/steatorrhea
  
  • = oily water coming from eel in water

Question 42

MOA of fibrates

Answer 42

• Decreases serum VLDL (35-50% and decreased triglycerides by activating PPAR-alpha at liver and peripheral tissues
  
  • = news PPAR of light house attendant, being used as a signal
• When activated, PPAR-alpha upregulates LPL at extra-hepatic sites
• This means increased hydrolysis of chylomicron and VLDL TG’s at peripheral tissues – aka decreased serum TGs
  
  • = Jellyfish taking down VLDL ship
  • = trident passengers escaping from ships that were trapped by jellyfish
• Less VLDLs means less conversion into LDLs (very mild effect )
  
  • = jelly fish sinking LDL ship
• Elevate HDLsFibrates activate the synthesis of Apolipoproteins A1 and A2 by hepatocytes, which are necessary for production of nascent HDLs
  
  • = jelly fish raising HDL submarine

Question 43

Adverse effects of fibrates

Answer 43

• Myopathy
  
  • = bit chicken leg
  • Risk is even more elevated when combined with statins
• Increased risk for cholesterol gallstones= sea gull balancing on stones
  
  • Inhibition of cholesterol 7a-hydroxylase, which catalyzes the rate limiting step in the synthesis of bile acids
  • Reduced bile acid production results in decreased cholesterol solubility in bile
  • Leads to increased formation of cholesterol stones

Question 44

What are the 2 dyslipidemia drugs that cause cholesterol stones

Answer 44

Bile acid resins

Fibrates