Cardiology Flashcards

Question 1

Q

What are two types of dysfunction in CHF?

Answer

A

Diastolic and Systolic

Question 2

Q

What is underlying systolic dysfunction and what happens to ejection fraction?

Answer

A

Impaired contractility and decreased ejection fraction

Question 3

Q

What are some causes of systolic HF? (2)

Answer

A

Ischemic heart disease, HTN that results in cardiomyopathy

Question 4

Q

What is underlying diastolic HF?

Answer

A

Impaired ventricular filling during diastole (increased stiffness or impaired relaxation of ventricle)

Question 5

Q

What are the pathological changes behind diastolic and systolic HF?

Answer

A

In diastolic HF, there is hypertrophic concentric myocyte remodeling (which is why the ventricle is stiff and can’t relax).

In systolic HF, there is dilated eccentric myocyte remodeling which is why the ventricle can’t contract efficiently

Question 6

Q

What is seen on Echo in diastolic HF?

Answer

A

Impaired relaxation of the left ventricle

Question 7

Q

What are the causes of diastolic HF? (2)

Answer

A

HTN causing myocardial hypertrophy resulting in diastolic dysfunction.

Restrictive cardiomyopathy from amyloidosis, sarcoidosis, and hemochromatosis

Question 8

Q

What is EF in diastolic HF?

Answer

A

Normal or increased

Question 9

Q

What is NYHA class 3 HF and NYHA class 4 HF?

Answer

A

Class 3 = symptoms during activities of daily living

Class 4 = symptoms at rest

Question 10

Q

What the signs and symptoms of left sided HF?

Answer

A

dyspnea, orthopnea, PND, nocturnal cough (due to pulmonary congestion); dullness to percussion at lung bases (also due to pulmonary congestion); S3, S4, displaced PMI, bibasilar crackles

Question 11

Q

What is the cause of S3? S4?

Answer

A

S3 = rapid filling into a non-compliant left ventricle
S4 = blood ejected into a non-compliant or stiff left ventricle

Question 12

Q

What are the symptoms of right sided HF?

Answer

A

Peripheral pitting edema (non-specific and secondary to venous insufficiency), JVD, hepatomegaly, hepatojugular reflux, ascites.

Question 13

Q

Draw out the pathophysiology of CHF?

Answer

A

Decreased CO output results in 2 things at the same time: 1. RAAS activation 2. Activation of the sympathetic nervous system.

Both of these things result in systemic vasoconstriction and volume retention.

This ultimately results in increased LV end disastolic volume and increased LV end diastolic pressure. This pressure is transmitted back to the pulmonary veins leading to pulmonary congestion

Question 14

Q

How is CHF diagnosed?

Answer

A

CXR (shows cardiomegaly)
EKG
Cardiac enzymes - need to rule out MI
BNP
Echocardiogram - initial test of choice

Question 15

Q

Why is echo the test of initial choice in Heart Failure?

Answer

A

Echo helps estimate EF

Question 16

Q

What drugs help decrease mortality in systolic CHF? (4)

Answer

A

ACEI/ARB
Beta Blockers
Spirnolactone or Eplerenone
Hydralizine Dinitrate (in African Americans)

Question 17

Q

What drugs help decrease symptoms in systolic CHF? (3)

Answer

A

Thiazide Diurectics
Loop Diuretics
Digoxin

Question 18

Q

What are two important side effects of Spirnolactone?

Answer

A

Hyperkalemia

2. Gynecomastia

Question 19

Q

When should digitalis be used in CHF?

Answer

A

For patients with EF < 40% who continue to have symptoms despite optimal medical therapy

Question 20

Q

What are the signs of digoxin toxicity?

Answer

A

Nausea/vomiting, visual disturbances, heart block

Question 21

Q

What is the treatment for diastolic CHF?

Answer

A

No medications have proven mortality benefit. Use diuretics for symptom control and beta blockers

Question 22

Q

What two classes of medications are contraindicated in diastolic CHF?

Answer

A

Digoxin and Spirnolactone

Question 23

Q

What is flash pulmonary edema?

Answer

A

Severe form of heart failure with rapid accumulation of fluid in the lungs

Question 24

Q

What are the clinical features of acute decompensated HF?

Answer

A

Acute dyspnea associated with increased left sided filling pressures with or without pulmonary edema

Question 25

Q

How is acute decompensated HF managed? (4)

Answer

A

Diurectics (help treat volume overload and decrease preload)
Nitrates (vasodilators) in patients who are not hypotensive (decrease afterload)
Dobutamine if above fails (increased contractility) (Digoxin takes several weeks to work)
Oxygen

Question 26

Q

How are arrhythmias classified?

Answer

A

Arrhythmias, tachyarrhythmias, and bradyarrhythmias

Question 27

Q

What are two types of arrhythmia?

Answer

A

premature atrial complexes and premature ventricular complexes

Question 28

Q

What is the underlying physiology of a premature atrial complex (PAC)?

Answer

A

early beat that arises in the atria and fires on its own

Question 29

Q

What is sign of premature atrial compex on EKG?

Answer

A

Early P waves that differ in morphology from regular P waves (because they originate in the atria and not the SA node)

Question 30

Q

What causes PACs?

Answer

A

Adrenergic excess, drugs, alcohol, tabacco, etc

Question 31

Q

What is the clinical significance of a PAC?

Answer

A

No significance in a normal heart; significant as a precursor of ischemia in a diseased heart

Question 32

Q

What is the treatment for a PAC?

Answer

A

If asymptomatic, no treatment. If symptomatic, beta blockers

Question 33

Q

What is the underlying physiology of premature ventricular contractions?

Answer

A

Early beat fires from focus in ventricle, and then this electrical current spreads to the other ventricle.

Question 34

Q

What is seen on EKG in PVC?

Question 35

Q

True or False: PVC can occur in patients with or without structural heart disease?

Question 36

Q

What are some causes of PVCs?

Answer

A

Hypoxia, caffeine, stimulants, structural heart disease

Question 37

Q

When is a PVC significant?

Answer

A

When there are frequent PVC, mortality increases; need to get a workup for underlying structural heart issues

Question 38

Q

How are PVCs managed?

Answer

A

If symptoms or if they are frequent refer to cardiology for workup and give beta blockers.

If not symptomatic or if infrequent, don’t do anything

Question 39

Q

Are primary cardiac tumors more common or metastatic tumors to the heart from elsewhere in the body?

Answer

A

Metastatic cardiac tumors from other parts of the body are much more common

Question 40

Q

What is the most common primary cardiac neoplasm?

Answer

A

Atrial myxoma

Question 41

Q

What is the treatment for atrial myxomas?

Answer

A

Surgical excision

Question 42

Q

What problems do atrial myxomas cause?

Answer

A

embolization, valvular dysfunction, or metastatic disease

Question 43

Q

What are the clinical features of atrial myxomas? (2 are critical sx)

Answer

A

Fever,
fatigue

palpitations

low-pitched diastolic murmer that changes character with changing body positions (diastolic polp)

Question 44

Q

What are the clinical features of typical anginal chest pain?

Answer

A

Substernal
Worse with exertion
Better with rest or nitroglycerin

Question 45

Q

What are the different ways CAD can present?

Answer

A

Asymptomatic
Stable angina pectoris
Unstable angina pectoris
MI (NSTEMI or STEMI)
Sudden cardiac death

Question 46

Q

Describe the pathology of stable angina pectoris?

Answer

A

Fixed atherosclerotic lesions that narrow the major coronary arteries and cause an imbalance between blood supply and oxygen demand.

Question 47

Q

What is the worst and most common risk factors for CAD? (2)

Answer

A

Worst: Diabetes Mellitus

2. Most common: Hypertension

Question 48

Q

Describe the two prognostic factors for CAD?

Answer

A

Left ventricular ejection function:
If <50% associated with increased mortality
Vessels involved:
LAD or 2 vessel disease is worse prognosis

Question 49

Q

What is the goal for LDL in patients with CAD?

Answer

A

Less than 100 mg/dL

Question 50

Q

What is metabolic syndrome X

Answer

A

Any combination of hypercholesterolemia, hypertriglyceridemia, diabetes, impaired glucose tolerance, HTN.

Caused by insulin resistance

Question 51

Q

What is syndrome X?

What tests are normal (2), what tests are abnormal (2), and what is the prognosis?

Answer

A

Exertional angina with normal coronary arteriogram and coronary catheterization.

Exercise stress testing and nuclear imaging shows evidence of myocardial ischemia

Prognosis is excellent

Question 52

Q

What do Q waves on EKG mean?

Question 53

Q

When is an exercise EKG considered sensitive?

Answer

A

When patients are able to exercise sufficiently to 85% of their maximum heart rate.

Maximum heart rate is (220-age)

Question 54

Q

What does a positive exercise EKG show? (4)

Answer

A

ST segment depression because exercise induced ischemia results in subendocardial ischemia, producing ST segment depression

Chest pain

Significant arrthymia

Hypotension

Question 55

Q

What should patients with positive stress EKG and stress echocardiography undergo?

Answer

A

Should undergo cardiac catherization

Question 56

Q

Why is stress echocardiogram useful?

Answer

A

Can also detect wall motion abnormalities of the heart

Question 57

Q

In ambulatory setting what is escalation for stable angina?

Answer

A

EKG —-> Stress EKG —> Cardiac Cath + Angio

or

EKG —-> Stress Echo —> Cardiac Cath + Angio (if you are a cardiologist)

Question 58

Q

What does a positive stress mycardial perfusion scan show?

Answer

A

Viable myocardial cells will take up radioisotope and therefore light up.

Non-viable cells will not take up radioisotope and therefore will not light up

Question 59

Q

Areas of reversible ischemia may be rescued with _________ or _______.

Answer

A

Percutaneous coronary intervention

or

coronary artery bypass graft

Question 60

Q

What drugs can be used for pharmacological stress testing and how do they work?

Answer

A

Adenosine and Dipyridamole cause coronary vasodilation so normally diseased coronary arteries are already maximally dilated at rest to increase blood flow, they receive less blood flow when all coronary arteries are maximally dilated.

Dobutamine increases myocardial oxygen demand by increasing heart rate, blood pressure, and cardiac contractility.

Question 61

Q

What is the definitive test for CAD?

Answer

A

Coronary catheterization + coronary angiography (done together usually)

Question 62

Q

What is the standard of care for stable angina?

Answer

A

Aspirin + Beta Blocker +/- nitrates for chest pain.

Question 63

Q

What are some side effects of nitrates?

Answer

A

Headache, orthostatic hypotension, syncope

Question 64

Q

What does the literature say about revascularization for stable angina?

Answer

A

Controversy over which is better: medical management (aspirin + beta blocker) vs PCI/CABG. No meaningful difference in treatment. Revascularization does not reduce the incidence of MI, but does improve symptoms.

Answer 62

A

Three vessel disease with >70% stenosis in each vessel.
Left main coronary disease with >50% stenosis
Left ventricular dysfunction

Answer 63

A

NSTEMI shows elevation of cardiac enzymes that is not seen in unstable angina.

Both NSTEMI and USA lack ST segment elevation and pathologic Q waves

Answer 64

A

Anginal pain at rest, no ST segment elevation on EKG and no cardiac enzyme elevation

Answer 65

A

Admit to the hospital floor and treat similar to MI except for fibrinolysis

Aspirin (continue for 9-12 months)
Beta-blockers
Clopidogrel (CURE trial) (continue for 9-12 months)
LMWH (2 days)
Nitrates for pain

Answer 66

A

No studies have shown medical benefits of revascularization compared to medical management of USA.

Many patients with USA that is controlled with medical therapy eventually require revascularization

Answer 67

A

Transient coronary artery vasospasm that is usually accompanied by a fixed atherosclerotic plaque but can also occur in normal coronary arteries.

Answer 68

A

ST segment elevation (transmural ischemia) that is seen on EKG during chest pain

Answer 69

A

Coronary angiography is the definitive test when patient is given IV ergonovine or acetylcholine (provoke vasoconstriction)

Answer 70

A

Calcium channel blockers and nitrates

Answer 71

A

30%, most deaths occur before the patient reaches the hospital

Answer 72

A

Intense substernal chest pain that is often described as crushing.
Pain radiates to the neck, jaw, arms, commonly on the left side
Pain does NOT respond to angina
Diaphoresis
Vomiting
Can be asymptomatic in some patients

Answer 73

A

Peaked T-waves

Answer 74

A

Transmural injury (all layers of heart muscle are affected)

Answer 75

A

Subendocardial injury (NSTEMI)

Answer 76

A

ST segment elevation in 75% of cases

Answer 77

A

EKG changes in leads V1-V4

Answer 78

A

EKG changes in leads V1 and V2

Answer 79

A

EKG changes in leads 1 and aVL

Answer 80

A

EKG changes in leads 2, 3, avF

Answer 81

A

Cardiac enzymes

Answer 82

A

Every 8 hours after initial draw for 24 hours

Answer 83

A

Increase within 3-5 hours
Peak in 24 hours
Return to normal in 5-14 days

Answer 84

A

Increases within 4-8 hours
Peaks within 24 hours
returns to normal in 48-72 hours

Answer 85

A

Aspirin
Beta Blockers
ACE inhibitors

Answer 86

A

Oxygen
Aspirin
Beta Blockers
ACE inhibitors
Statins
Nitrates (decrease preload)
Morphine
LMWH
Clopidogrel (should be initiated in all patients who undergo PCI)

Answer 87

A

Within 90 minutes of Hospital Arrival

Answer 88

A

PCI

Urgent or emergent CABG is typically performed only in the setting of mechanical complications of an acute MI, cardiogenic shock, life threatening arrhythmias, or after failure of PCI. It is almost never performed in the acute setting of a patient that is stable after PCI.

Answer 89

A

If patient cannot reach a hospital that has PCI quickly enough, give thrombolytics in the first 24 hours after chest pain, preferably in the first 6 hours

Answer 90

A

In the first two weeks after an MI, usually 1-4 days after an MI

Answer 91

A

Leads to hemopericardium or cardiac tamponade

Answer 92

A

Within 10 days post-MI

Answer 93

A

Mitral Regurgitation (get echo if you hear a new murmur)

Answer 94

A

Treat with aspirin. NSAIDs and corticosteroids are contraindicated

Answer 95

A

Dressler syndrome is a immunologically based syndrome consisting of fever, malaise, pericarditis, leukocytosis, and pleuritis occuring weeks to months post-MI.

Aspirin is the most effective therapy.

Answer 96

A

Afib
Aflutter
Multifocal atrial tachycardia
Paroxysmal Supraventricular Tachycardia
Ventricular tachycardia
Wolf Parkinson White Syndrome
Vfib

Answer 97

A

Multiple foci in the atria fire continuously in a chaotic pattern, causing a totally irregular and rapid ventricular rate. Instead of intermittently contracting, the atria quiver continously

Answer 98

A

Heart disease
Lung disease
Hyperthyroidism and Hypothyroidism
Systemic illness

Answer 99

A

Fatigue, exertional dyspnea, palpitations, angina, syncope

Answer 100

A

Irregularly irregular rhythm

Answer 101

A

Are they hemodynamically stable?

Answer 102

A

Immediate electrical cardioversion

Answer 103

A

Rate control via Beta Blockers (Calcium channel blockers are an alternative).

Then ascertain the duration of the Afib.

Answer 104

A

Cardioversion

Answer 105

A

Perform a TEE to see if there is a thrombus in the left atrium. If there isn’t a thrombus, cardiovert the patient.

If there is a thrombus, anticoagulate the patient for 3 weeks, then cardiovert

Answer 106

A

Continue anticoagulating the patient for 4 weeks and keep INR between 2-3 range.

Answer 107

A

Electrical cardioversion

Answer 108

A

Cardioversion delivers shock that is in synchrony with the QRS complex. Indications = Afib, aflutter, VT with pulse, and SVT

Defib delivers a shock that is not in synchrony with the QRS complex. Indications = Vfib, and VT without a pulse

Answer 109

A

One irritable automaticity focus in the atria fires at about 250-300 bpm giving rise to regular atrial contractions. However, the long refractory period in the AV node allows only one out of every 2 or 3 flutter waves to conduct to the ventricles.

Answer 110

A

Heart disease
COPD
Atrial septal defect

Answer 111

A

Saw tooth baseline WITH a QRS appearing every 2nd or third “tooth”. These EKG changes are best seen in the inferior leads

Answer 112

A

Similar to the treatment for Afib

Answer 113

A

Patients with severe pulmonary disease (COPD)

Answer 114

A

Variable p wave morphologies and variable PR and RR intervals.

At least three different P-wave morphologies are required to make an accurate diagnosis

Answer 115

A

Two pathways, one fast and the other slow, within the AV node so the renterent circuit is within the AV node
An accessory pathway between the atria and the ventricles that conducts retrogradely

Answer 116

A

Narrow QRS complexes with P waves that may or may not be discernible.

Answer 117

A

Paroxysmal supraventricular tachycardia

Answer 118

A

Maneuvers that stimulate the vagus delay (Valsalva maneuver, carotid sinus massage, breath holding, head immersion in cold water).
Acute treatment: IV adenosine

Answer 119

A

Accessory conduction pathway from atria to ventricles through the bundle of kent that causes premature excitation because it lacks the delay seen in the bundle of HIS

Answer 120

A

Delta wave, narrow complex tachycardia, short PR interval

Answer 121

A

Radiofrequency catheter ablation of one arm of the reentrant loop

Medically can use procainamide or quinidine.

Answer 122

A

Defined as rapid and repetitive firing of three or more PVCs in a row at a rate of 100 and 250 bpm.

AV dissociation is present, so P waves continue with their cycle unaffected by the tachycardia

VT originates below the bundle of HIS

Answer 123

A

Sustained VT: lasts longer than 30 seconds and is symptomatic. This is a life threatening arrhythmia and can progress to Vfib if untreated.

Nonsustained VT: Brief and self limited runs of VT. Usually asymptomatic

Answer 124

A

Palpitations, dyspnea, lightheadedness, angina, impaired consciousness, sudden cardiac death, cannon A waves in the neck.

Answer 125

A

Wide and bizarre QRS complexes. Can have identical QRS complexes or polymorphic QRS complexes.

Answer 126

A

IV amiodarone, IV procainamide, IV sotalol

Answer 127

A

Immediate synchronous DC cardioversion followed by IV amiodarone to maintain sinus rhythm

Answer 128

A

If patients have no underlying heart disease and nonsustained Vtach, they should not be treated.

If they have undelrying heart disease and nonsustained Vtach, they should have an electrophysiologic study done on them. If it is inducible, they should have an ICD placement

Answer 129

A

Multiple foci in the ventricles fire rapidly leading to a chaotic quivering heart with no cardiac output

Answer 130

A

Begin with VTach which evolves into VFib

Answer 131

A

If VFib develops within 48 hours of an acute MI, long-term prognosis is favorable and reoccurance is lwo. Chronic therapy is not necessary.

Answer 132

A

If VFib is not associated with an acute MI, reoccurance is high. These patients need to be on chronic therapy of antiarrhythmic like amiodarone or have an automatic defibrillator placed

Answer 133

A

Narrow complex tachycardias originate above ventricles. Wide complex tachycardias originate below the ventricles and are more ominous because they are more likely to progress to VFib

Answer 134

A

No Blood pressure, no pulse, absent heart sounds

Answer 135

A

No atrial P waves, no QRS complex, no waves can be identified, and there is an irregular rhythm

Answer 136

A

Immediate defibrillation and CPR.

If three sequential shocks fail to establish rhythm, give 1 mg IV bolus of epinephrine followed by more epinephrine.

Answer 137

A

Maintain continuous IV infusion of IV amiodarone. In chronic patients, put them on implantable defibrillators.

Answer 138

A

Sinus rate < 60, however usually clinically significant if persistently < 45 bpm

Answer 139

A

increased vagal tone
ischemia
anti-arrhythmic drugs
normal finding in trained athletes

Answer 140

A

Can be asymptomatic. Patients may complain of fatigue, inability to exercise, angina or syncope

Answer 141

A

Atropine can help increase sinus rate, but a cardiac pacemaker may be required if the bradycardia persists.

Answer 142

A

Sinus node dysfunction characterized by a persistent spontaneous sinus bradycardia. Patients are usually elderly

Answer 143

A

PR interval is prolonged (>.2)

2. QRS complex follows each p wave

Answer 144

A

At the AV node

Answer 145

A

A type of second degree heart block characterized by progressive prolongation of the PR interval until a P wave fails to conduct

Answer 146

A

First Degree Heart Block

Second Degree Heart Block Morbitz Type 1

Answer 147

A

His-Purkinje System

Answer 148

A

Second-degree AV block where p wave fails to conduct suddenly, without a preceding PR interval prolongation, therefore QRS drops spontaneously

Answer 149

A

Absence of conduction between atrial impulses to ventricles, so no correspondence between P waves and QRS complex.

Answer 150

A

Morbitz type 2 and Third Degree Heart Block

Answer 151

A

Dilated Cardiomyopathy

Answer 152

A

An insult (ischemia, infection, alcohol) causes dysfunction of the left ventricle impairing contractility

Answer 153

A

Symptoms of right sided and left sided heart failure. S3, S4, Tricuspid or Mitral Valve insufficiency murmurs. Cardiomegaly is commonly seen. Sudden death.

Answer 154

A

Similar to the treatment of congestive heart failure

Answer 155

A

Autosomal Dominant

Answer 156

A

Diastolic dysfunction due to a hypertrophied ventricle (can’t relax)

Answer 157

A

Dyspnea on exertion, chest pain, palpitations, sudden cardiac death

Answer 158

A

Sustained PMI

Loud S4

Answer 159

A

Avoid exercise
Beta blockers
Myomectomy

Answer 160

A

Infiltration of the myocardium results in impaired diastolic ventricular filling due to decreased ventricular compliance.

Answer 161

A

Amyloidosis, Sarcoidosis, Hemochromatosis, Scleroderma, Chemotherapy, or Radiation therapy

Answer 162

A

Dyspnea and exercise intolerance

Answer 163

A

Echocardiogram shows increased RA and LA size with normal LV and RV.

In amyloidosis, myocardium appears brighter and has a sparkled appearance.

Answer 164

A

Endomyocardial biopsy

Answer 165

A

Hemochromotosis: Phlebotomy or deferoxamine
Sarcoidosis: Glucocorticoids
Amyloidosis: No treatment available

Answer 166

A

Inflammation of the myocardium with causes including:

Viruses (Coxsackie, Parvovirus B19)
Bacteria (Rheumatic fever, group A strep, Lyme)
SLE, 
medications, 
idopathic

Answer 167

A

Chest pain, fatigue, fever, pericarditis

Answer 168

A

Treatment is supportive

Answer 169

A

Look for elevation of cardiac enzymes and ESR

Answer 170

A

Myocarditis is inflammation of the myocardium. Pericarditis is inflammation of the pericardium

Answer 171

A

Idiopathic (post-viral)
Acute MI (first 24 hours after MI)
Uremia
After MI (Dressler syndrome)
Radiation

Answer 172

A

Majority of patients recover within 1-3 weeks. A minority of patients have a prolonged course of recurrent symptoms

Answer 173

A

Pericardial effusion

2. Cardiac tamponade

Answer 174

A

Pain is pleuritic, may radiate to the trapezius ridge and neck, Pain is POSITIONAL

Fever and leukocytosis may be present

Pericardial friction rub may or may not be present

Answer 175

A

It is aggravated by lying supine, coughing, swallowing, and deep inspiration. Pain is relieved by sitting up and leaning forward.

Answer 176

A

Scratching high-pitched sound with up to three components.

Answer 177

A

Diffuse ST segment elevation and PR depressions

Answer 178

A

Echocardiogram (to see if patient has a pericardial effusion)

Answer 179

A

Give the patient NSAIDs (colchicine). Give glucocorticoids if case is severe, but try to avoid if possible.

Answer 180

A

Fibrous scarring of the pericardium leads to rigidity and thickening of the pericardium with obliteration of the pericardial cavity

Answer 181

A

A fibrotic and rigid pericardium restricts the diastolic filling of the heart. In late diastole, ventricle filling is halted abruptly resulting in a pericardial knock

Answer 182

A

In acute pericarditis, patients may have a pericardial friction rub which is a scratching high pitched sound.

In constrictive pericarditis, patients may have a pericardial knock, which corresponds to abrupt cessation of ventricular filling

Answer 183

A

Patients have clinical signs of cirrhosis (ascites, hepatomegaly) and distended neck veins.

Patients may or may not have signs of pericardial knock

Answer 184

A

Elevated and equal diastolic pressures in all chambers of the heart.

Answer 185

A

Echocardiogram shows a sharp halt in ventricular diastolic filling.

Answer 186

A

All physical exam signs are extremely nonspecific and often do not aid in diagnosis

Answer 187

A

Echocardiogram

Answer 188

A

Fluid has to be greater than 250 ml

Answer 189

A

Fluid has to be greater than 25 ml

Answer 190

A

Identifying the cause of the fluid.

This looks for protein, glucose content, cell count and differential, cytology, specific gravity, hematocrit, gram stain, acid-fast stains, fungal smear, cultures, LDH content

Answer 191

A

It is the rate of fluid accumulation in the pericardial sac, not the amount.

Answer 192

A

Hypotension

Muffled heart sounds

JVD

Answer 193

A

Pulsus paradoxus is exaggerated decrease in arterial pressure during inspiration (> 10 mm Hg drop) and it is seen in cardiac tamponade

Answer 194

A

Alternate beat variation in the direction of EKG waveforms seen in cardiac tamponade because of pendular swinging of the heart within the pericardial sac

Answer 195

A

Pericardiocentesis followed by surgery if the cause is bleeding

Answer 196

A

Dialysis works a lot better than pericardiocentesis

Answer 197

A

Acute endocarditis occurs on a normal heart valve and is caused by more virulent bacteria. Subacute endocarditis occurs on damaged heart valves and is caused by less virulent organisms.

Answer 198

A

S. aureus

Answer 199

A

Streptococcus viridans and enterococcus

Answer 200

A

Untreated acute endocarditis is fatal in less than 6 weeks.

Untreated subacute endocarditis takes much longer than 6 weeks to be fatal.

Answer 201

A

S. viridans (most common in native valves)
S. aureus, S. epidermidis, and Enterococci
HACEK organisms (Haemophilus, Actinobacillus, Cardiobacterium, Eikenella, and Kingella)

Answer 202

A

Staphylococci are more common within 60 days of surgery (S. epi more common than S. aureus)

Streptococci are . most common cause of late-onset endocarditis; symptoms appear 60 days after surgery.

Answer 203

A

S. aureus and it affects the right side of the heart.

Answer 204

A

Always suspect endocarditis in a patient with a new heart murmur and unexplained fever or bacteremia.

Answer 205

A

Duke clinical criteria

Answer 206

A

Parenteral antibiotics based on culture results for 4-6 weeks.

Answer 207

A

Penicillin plus aminoglycoside

Answer 208

A

Patient must have a qualifying cardiac indication AND procedure to warrant antibiotic prophylaxis

Answer 209

A

Prosthetic values
History of infective endocarditis
Congenital heart disease

Answer 210

A

Procedure involving biopsy or incision of respiratory mucosa.
Procedures involving infected skin or musculoskeletal tissue.
Dental procedures involving manipulation of gingival mucosa or teeth bleeding

Answer 211

A

Libman-sacks endocarditis aka Nonbacterial verrucous endocarditis

Answer 212

A

Cancer patients get non-bacterial thrombotic endocarditis which is made up of sterile deposits of fibrin and platelets. These may embolize to the brain or the periphery.

Answer 213

A

Systolic BP > 220 and/or diastolic BP > 120 in addition to end-organ damage (immediate treatment is indicated)

Answer 214

A

Systolic BP > 220 and/or diastolic BP> 120 without end-organ damage.

Answer 215

A

Eyes: Papilledema
CNS: Altered mental status, intracranial hemorrhage, hypertensive encephalopathy
Kidneys: Renal failure or hematuria
Heart: USA, MI, CHF with pulmonary edema, aortic dissection
Lungs: Pulmonary edema

Answer 216

A

If patient has hypertensive encephalopathy or if diastolic blood pressure is greater than 130, give the patient IV hydralazine, IV nitroprusside,

If the patient are in less immediate danger, give oral captopril, clonidine, labetalol (pregnant women)

Answer 217

A

Treated using oral agents such as captopril, clonidine, labetalol

Answer 218

A

Long-standing systemic hypertension
Cocaine use
Connective tissue diseases such as Marfan and Ehlers-Danos syndrome

Answer 219

A

Type A (proximal) - ANYTHING that involves the ascending aorta (including retrograde extension from descending aorta)

Type B (distal) - distal to take-off of the subclavian artery

Answer 220

A

Severe, tearing, ripping, stabbing pain that is abrupt in onset either in the anterior chest or back of the chest

Anterior chest pain is more common in Type A dissection

Posterior chest pain is more common in Type B dissection

Answer 221

A

Pulse or BP asymmetry between limbs

Answer 222

A

TEE (can be done in unstable patients)

Answer 223

A

Widened mediastinum

Answer 224

A

Type A is treated by first using IV medications (beta blockers to lower heart rate and nitroprusside to lower systolic blood pressure) to lower systolic blood pressure to below 120 mm Hg.

Then surgery is done

Type B is treated by medical management (pain control and IV beta blockers to lower blood pressure). Unrelenting symptoms may require surgical treatment.

Answer 225

A

Between the renal arteries and iliac bifurcation

Answer 226

A

Age (rare before 50 years old, most are diagnosed at 65-70 years old).

Answer 227

A

Atherosclerotic weakening of the aortic wall. Other factors include trauma, HTN, vasculitis, SMOKING, and connective tissue disorders.

Answer 228

A

Pulsatile mass on abdominal exam.
Sense of “fullness”
Usually asymptomatic and discovered on abdominal examination or a radiological study for another reason

Answer 229

A

Sudden onset of severe pain in the back or lower abdomen that radiates to the legs, groin, buttocks

Grey turner sign (ecchymoses on back and flanks), Cullen sign (ecchymosis around umbilicus)

Answer 230

A

Abdominal pain, hypotension, and palpable pulsatile abdominal mass - emergent laparotomy

Answer 231

A

US or CT

US better because just as sensitive as CT and no radiation.

Answer 232

A

If abdominal aneurysm is > 5 cm or symptomatic, surgical resection with synthetic graft placement is recommended.

If it is < 5 cm imaging is recommended as follow up. However, size does not dictate if a AAA will bleed.

Patient may be likely to die from other medical issues before a AAA kills them.

Answer 233

A

Occlusive atherosclerotic disease of the lower extremities.

Answer 234

A

Superficial femoral artery
Popliteal artery
Aortoiliac occlusive disease

Answer 235

A

Smoking (most important)
CAD, Hyperlipidemia, HTN
Diabetes

Answer 236

A

Evaluate cardiovascular system (HTN, carotid bruits, murmurs, AAA)
Check arterial pulses
Inspect lower extremities for color change, ulcers, muscle atrophy, hair loss, thickened toenails
Consider the following tests: CBC, EKG, renal function tests, and coagulation profile

Answer 237

A

Intermittent claudication patients have a prognosis that is generally good.

Patients with pain at rest or ischemic ulcers have the worst prognosis (especially smokers and diabetics)

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