W1 Cardiac Studies

Question 1

Ambulatory electrocardiogram monitoring
—when would it be used?
—aids in the diagnosis of what? 3

Answer 1

Non-invasive EKG — suspected arrhythmia during normal activities

— aids in dx of of pt w/ palpitations, lightheadedness or syncope

Question 2

Types of monitors:

Holter
Event
Real time cardiac monitors
Adhesive patch monitors
Implantable loop recorders

Answer 2

Holter — 2-3 EKG channels, 24-48hrs
Event — 2-3 EKG channels, 30-60d. Only records event when pt presses button
Real time cardiac monitors — 14-30d, good for silent or asymptomatic arrhythmias
Adhesive patch monitors — no wires, convenient
Implantable loop recorders — invasive, up to a year

Question 3

Abnormalities, palpitations, PVCs — what can be said about them?
When do you get the highest yield diagnosis with palpitations?

Answer 3

PVC = premature ventricular contractions

Catheter ablation is a procedure used to remove or terminate a faulty electrical pathway from sections of the heart of those who are prone to developing cardiac arrhythmias such as atrial fibrillation, atrial flutter and Wolff-Parkinson-White syndrome

Question 4

Role of modern pacemakers and defibrillators in stroke:
What is the term for an unexplained stroke? What is the % of their occurrence?
Which device would be suitable to identify one?

Answer 4

Reduces need to ambulatory device

Afib patients
Cryptogenic stroke = a brain infarction not clearly attributable to a definite cardioembolism, large artery atherosclerosis, or small artery disease despite extensive investigation

ILR = implantable loop recorder

Question 5

What are you looking for in a chest X-Ray? 5
When do you order one?
What finding would you see in pleural effusion?

Answer 5

Chest pain
Volume status, SOB

—Cardiac contours, size
—Pulmonary vascular markings
—Devices (defibrillator, pacemaker)
—Central lines / endotrachel tubes
—Surgical changes

Pleural effusion blunts the costophrenic angle

Question 6

Study this X-ray

Question 7

What can we diagnose with chest x-ray, or at least give you suggestions?
8

Answer 7

All patients with chest pain even if suspected MI

Aortic dissection (tear)
PE
SQ emphysema
Esophageal rupture
Pneumothorax
Hiatal hernia
Pneumonia
Pericarditis

Question 8

[SKILLS OSCE] Heart size is enlarged if?
Which arteries are prominent in RV enlargement vs LV enlargement ?

Answer 8

The size is equal to or greater than 2x the hemithorax.
It should fit in one lung capacity

CHF&raquo_space; it dilates&raquo_space; elongates and gets bigger

RV enlargement
— pulmonary arteries are prominent and the aorta is diminutive

LV enlargement
—aorta is prominent and the pulmonary arteries are normal

Question 9

[SKILLS OSCE] What is this?
What could it clue you in to? 2

Answer 9

An enlarged heart
CHF
Pericardial effusion

Question 10

[SKILLS OSCE] What are the 3 findings on chest X-Ray that could clue you in to left atrial enlargement ?

What about for a RA enlargement?

Answer 10

1. double density sign
   — the left atria bulges out behind the right atria on the right side of the heart, so you see two lines on the right side of the heart, the innermost line is the LA
2. 3rd Mogul
   —1st mogul is the aortic knob/arch
   —2nd mogul is the main pulmonary artery
   —3rd mogul: a convexity between the L pulmonary artery and the left ventricle: = never normal
3. splaying of the carina
   —increased angle of the left and right bronchi

RA enlargement
— lower right heart border bulges outward to the right

Question 11

[SKILLS OSCE] Study this —
What does a double density sign indicate?

Answer 11

Left atrial enlargement

Question 12

[SKILLS OSCE] Study this —
What does splaying of the carina indicate?

Answer 12

Left atrial enlargement

Question 13

[SKILLS OSCE] Study this chest x-ray showing left atrial enlargement and the third mogul

Question 14

Widened mediastinum — what are you concerned for?
2

Answer 14

—aortic dissection/rupture&raquo_space; mediastinal bleeding
—tumours, lymphoma, thymus tumours

Question 15

What is a water bottle heart?

Answer 15

could indicate chamber enlargement or pericardial efffusion

Question 16

[SKILLS OSCE] What is this?

Answer 16

Water bottle heart
Could be pericardial effusion

Question 17

[SKILLS OSCE] What is this?
What could it lead you to think?

Answer 17

Widened mediastinum
Could be TAA or dissection but lacks sensitivity

Question 18

Signs of CHF (4)
Stage I or redistribution

Answer 18

stage 1 or redistribution : appearance of pulmonary vasculature

—Enlarged cardiac silhouette/left atrial enlargement
—Hilar fullness — due to increased pulmonary pressure
—Vascular redistribution — vessels in upper lobe, pulmonary arteries and veins become bigger
—Increased vascular pedicle width — due to increase pulmonary circulation

Question 19

[SKILLS OSCE] What is this

Answer 19

Bilateral hilar enlargement
CHF: stage 1 redistribution

Question 20

[SKILLS OSCE] What are Kerley’s lines?
What do they signify?

Answer 20

Fluid in the interstitial

Question 21

[SKILLS OSCE] What is this?

Answer 21

Vascular redistribution
Early CHF

Question 22

[SKILLS OSCE] Signs of CHF — 2
Stage II, what is it?
What two things do you see on CXR?

Answer 22

or interstitial edema from increased hydrostatic pressures

—Kerley’s lines
—Peribronchial Cuffing (bronchial wall thickening or fluid around bronchi due to lymphatic congestion

Question 23

[SKILLS OSCE] What are the purple arrows pointing to?

Answer 23

Kerley lines (interstitial pulmonary edema)
Found in stage II CHF along with donut holes

Question 24

What would peribronchial cuffing look like on a CXR?

Answer 24

Question 25

Signs of CHF
Stage III or alveolar edema
What occurs?
Left ventricular dysfunction leads to?
Right ventricular dysfunction leads to?

Answer 25

Pleural effusions (abnormal accumulation of fluid in the pleural cavity)

Pleural effusions are common in patients with congestive heart failure. This process is felt to be due to left ventricular (LV) dysfunction leading to elevated pulmonary venous and left atrial pressures

Question 26

[SKILLS OSCE]
CXR: batwing or butterfly pattern could indicate?

Answer 26

Fluid in the alveoli produce fan shaped opacities radiating from the hilar region

Question 27

[SKILLS OSCE] CXR: air bronchogram ?

Answer 27

Air filled bronchi/bronchioles (which are normally dark) become visible by opacification of the surrounding alveoli (white). Always pathological and indicates something other than air is in the alveoli

Question 28

[SKILLS OSCE] CXR: What is this?

Answer 28

Pleural effusion
Alveolar edema — stage III CHF

Question 29

[SKILLS OSCE] What is this?

Answer 29

Air Bronchogram: air filled bronchi/bronchioles (normally dark) become visible by opacification of the surrounding alveoli (white).
Always pathologic and indicates something other than air is in the alveoli (i.e fluid)

Question 30

[SKILLS OSCE] What is rib notching?
As a result of?
Often seen with?

Answer 30

—enlargement of intercostal arteries
—often seen with coarctation of the aorta
—Coarctation of the aorta is a narrowing/constriction and is recognised by a figure 3 sign on SXR

Question 31

[SKILLS OSCE]
What are these arrows pointing to?
What is the pathological process that leads to this?
What is the dx and Tx?

Answer 31

Rib notching
number 3 sign is the other finding associated with ⬇️
Often seen with coarctation of the aorta (present at birth, congenital, narrowing of aorta, presents as infant: claudication in LE when attempting to walk. Asymptomatic until then since demand on the heart is less pre-walking. cyanosis in LE)

—Rib notching occurs because in the adult, coarctation of the aorta leads to a severe narrowing in a portion of the aorta and to overcome this, collateral vessels are created to help deliver blood to the lower extremities.
—The collaterals swell and erode into the bone around them

—DX with CT
—TX w/surgery

Question 32

What are you able to see with an echocardiogram?

Answer 32

Structural changes of the heart:
—wall thickness, chamber sizes
—valves
—ventricular assessment
—pressure and velocity measurements
—thrombus
—congenital abnormalities

Question 33

What is the most commonly used measurement of the LV systolic function?
How is it calculated? (Equation)

Answer 33

LV ejection fraction

LVEF = (end diastolic volume - end systolic volume)/ end diastolic volume

Question 34

What does diastolic function assessment identify?
How is LV relaxation determined?
How is LV preload measured?

Answer 34

LV preload — transMITRAL early diastolic filing velocity (E)

LV relaxation — tissue Doppler to measure diastolic filling velocity (Ea)

Diastolic dysfunction (LV filling velocity) = E/Ea

Question 35

Take note of this echo image

[SKILLS OSCE]

Question 36

What can you see with a TEE (transesophageal echocardiogram)

Answer 36

Question 37

[SKILLS OSCE]

What is this?

Answer 37

Descending thoracic aortic dissection (tear)

Question 38

What is the purpose of a right heart catheterisation?2

Answer 38

venous access
—measure intra cardiac pressures
—determine CO

Question 39

What is the purpose of left heart catheterisation?
What is used?
Where do you enter?

Answer 39

arterial access (as opposed to right heart catheterisation which is to gain venous access)
—gold standard to identify coronary anatomy
—uses contrast and radiation
enter through radial or femoral artery

Question 40

What are these vessels?z

Answer 40

LMT = left main trunk
OM = obtuse marginal

Question 41

Stress imaging
What is:
Sensitivity
Specificity
Bates Theorum

Answer 41

How sensitive is the test to THAT disease specifically

How specific is the test such that a true negative DOES occur in someone WITHOUT the disease
think speciFFFically FFFalse

Bayes:

Question 42

What are the indications for exercise stress

Answer 42

—diagnose obstructive CAD
—reevaluate pts who have CAD + a structural change
—to detect MI in patients being considered for revascularisation
—pts with exercise induced arrhythmias
—follow up

Question 43

What is metabolic equivalent (MET)?
Give two examples
Which functional capacity of METS is associated with a worse/good prognosis?

Answer 43

<5 METS has a poor prognosis
>10 METS has a better prognosis

running is 10 METS
light walking is 2 METS

Question 44

Stress EKG
What is the sensitivity? Specificity?
What HR % do you have to achieve for it to be diagnostic?
What EKG changes do you have to see to be diagnostic?
Advantages? When could it be useful?

Answer 44

—low sensitivity and specificity (68 and 70%)
—have to achieve 85% maximum HR to be diagnostic (not possible for everyone)
—EKG changes > 1mm ST elevation or depression in 3 consecutive beats
—useful if you have a subject with low pre-test probability, i.e the young firefighter

Question 45

How is a cardiopulmonary exercise stress test performed?
What does it differentiate?
Who could it be considered for?

Answer 45

To differentiate cardiac vs pulmonary causes of exercise induced dyspnea

Question 46

Stress Echo
Effective for what?
Sensitivity?
Specificity?
Can differentiate what from what?

Answer 46

—treadmill/chemical
—evaluating CAD
—differentiate between viable myocardium and scarred myocardium —> predictor of LV function

Question 47

Stress imaging — nuclear
What is it known as?
Sensitivity ?
Specificity?
What does it assess?
What is a perfusion defect? What are the two types?

Answer 47

—assesses myocardial blood flow
—if defect at rest and stress = dead, fixed
—if just during stress = reversible

reperfusion defect is an area of reduced isotope uptake, meaning an area of dead myocardium

Question 48

[SKILLS OSCE]
What does the bottom left indicate?

Answer 48

Anterior wall doesn’t light up so there is a blockage

Question 49

What is a PET scan?
What two things is it assessing?

Answer 49

Myocardial perfusion
Myocardial viability (Ischemic myocytes need more glucose

Question 50

What is a CT scan?
What do you need?
What is coronary calcium scoring?
What is the sensitive and specific of CT?

Answer 50

—contrast dye
—Coronary CT is an accurate non-invasive modality to visualise coronary arteries with a sensitivity of 85% and a specificity of 95-98%. It is excellent for ruling out coronary disease
—absence of coronary calcium = CAD unlikely & low risk of future events
—Agaston calcium score most used
—higher the score = higher the risk

Question 51

[SKILLS OSCE]
Familiarise yourself with this CT scan

Answer 51

Question 52

MRI
Which contrast is used?
Clinical uses
Disadvantages

Answer 52

—uses magnetic field
—no ionising radiation
—uses gadolinium contrast
—clinical uses: visualise AA, dissection etc
—disadvantages: expensive, hard to get, patient compliance

Question 53

What are some of the restrictions for cardiac MRI? Think about what filters the dye

Answer 53

—renal disease / reduced renal function
—vascular surgery
—dialysis
—AKI