Pericardial Disease

Question 1

What are the 4 Class 1 indications for TEE for pericardial disease?

Answer 1

1. Suspected pericardial disease
2. Suspected bleeding in the pericardial space
3. Follow up study to evaluate for effusion or to diagnose constriction
4. Pericardial friction rub develpping in acute MI accompanied by pain, hypotension and nausea

Question 2

What are the two pericardial layers?

Answer 2

1. Pariental pericardium (outer)
2. Visceral Pericardium (inner)

Question 3

What is the function of the parietal pericardium?

Answer 3

1. Restraint role and prevents heart from dilating

2. AV valve stabilization with improved valve functions

3. Secretory functions

• Prostacyclin
• Sympathetic neuronal regulation
• Coronary Vascular Tone & Cardiac Contractility
  4. Fibrinolytic Function (If clot develops)

Question 4

What is the cutoff for pericardial thickness?

Answer 4

>4 mm = thickened

Question 5

What does the parietal pericardium blend with inferiorly?

Answer 5

Diaphragm

Question 6

What does the parietal pericardium apposed to laterally?

Answer 6

Pleural Spaces

Question 7

What is the term where the pericardial layers meet?

Answer 7

Reflections

Question 8

Reflections that surround the vena cava and pulmonary veins create a pocket behind the LA are called what?

Answer 8

Oblique Sinus

Question 9

What is the pericardial reflection around the great vessels called?

What great vessels are these?

Answer 9

Transverse Sinus

Pulmonary Artery and Aorta

Question 10

What is the normal amount of fluid in the pericardium?

Answer 10

25 - 50 mL

(5-30 mL in some sources)

Question 11

What is at the arrow?

Answer 11

Oblique Sinus

Question 12

Where on your omniplane will you see the oblique sinus?

Answer 12

~70 degrees near the LAA

Question 13

What is seen at the pointer?

Answer 13

Transverse sinus in the Ascending Aorta Short Axis

Question 14

What is seen at the blue arrow and also at the vessel at the top and middle of the image?

Answer 14

RPA = Top

Transverse Sinus = At blue arrow

Large vessel = Aorta

View = Mid Esophageal Ascending Aorta in long axis

Question 15

What is Mulibrey Nanism?

Answer 15

Congential disease - Overgrowth of the fibrous sac surrounding the heart (constrictive pericarditis).

Finnish population (Autosomal recessive)

Causing CHF

Question 16

For negative pressure spontaneous ventilation:

What is the Intrathoracic pressure End of expiration?

Answer 16

-3 = End Expiration

Question 17

For negative pressure spontaneous ventilation:

What is the Intrathoracic pressure End of inspiration?

Answer 17

-6 at end of inspiration

Question 18

How much do transtricuspid inflow velocities change during spontaneous negative ventilation?

Answer 18

~20%

Question 19

How much do transmitral inflow velocities change during spontaneous negative ventilation?

Answer 19

~10%

Question 20

How does the transtricuspid PWD inflow velocities change during spontaneous expiration compared to spontaneous inspiration?

Answer 20

~20% increase in inflow velocities (see images)

Question 21

How do you calculate the gradient for RV filling?

Answer 21

Intracardiac pressure - pericardial pressure

Ex: if right atrial pressure is 6 and PP is -6 then the gradient is 12

(RV filling is enhanced by spontaneous inspiration)

Question 22

How does the RV vs. LV fill during spontaneous inspiration?

Answer 22

RV fills due to increased gradient

Decreased LV filling (pulmonary venous pooling)

Question 23

How does the septum shift during inspiration?

Answer 23

Shifts towards LV due to RV filling* and *decreased LV filling

Question 24

How does the RV vs. LV fill during spontaneous expiration?

Answer 24

Decreased gradient for RV filling (Decreased venous return)

Increased LV filling due to compressed lungs

Question 25

How does spontaneous inspiration affect:

Intrathoracic pressure

Answer 25

Becomes more negative

Question 26

How does spontaneous inspiration affect:

Pulmonary Veins

Answer 26

Dilates pulmonary veins

Question 27

How does spontaneous inspiration affect:

venous return

Answer 27

Increases venous return

Question 28

How does spontaneous inspiration affect:

RV filling and RV stroke volume

Answer 28

Increased RV filling and RV stroke volume

Question 29

How does spontaneous inspiration affect:

RV afterload

Answer 29

Decreased RV afterload

Question 30

How does spontaneous inspiration affect:

LA filling

Answer 30

Decreased LA filling

Question 31

How does spontaneous inspiration affect:

LV stroke volume

Answer 31

Decreased LV stroke volume

Question 32

How does spontaneous inspiration affect:

LV afterload

Answer 32

Increased LV afterload

Question 33

How does spontaneous expiration affect:

Intrathoracic pressure?

Answer 33

More positive intrathoracic pressure

Question 34

How does spontaneous expiration affect:

Pulmonary Vein Tone

Answer 34

Compressed pulmonary veins

Question 35

How does spontaneous expiration affect:

Venous Return

Answer 35

Decreased Venous Return

Question 36

How does spontaneous expiration affect:

RV FIlling and RV stroke Volume

Answer 36

Decreased RV FIlling and RV stroke Volume

Question 37

How does spontaneous expiration affect:

RV afterload

Answer 37

Increased RV afterload

Question 38

How does spontaneous expiration affect:

LA Filling

Answer 38

Increased LA filling

Question 39

How does spontaneous expiration affect:

LV Stroke Volume

Answer 39

Increased LV Stroke Volume

Question 40

How does spontaneous expiration affect:

LV Afterload

Answer 40

Decreased LV afterload

Question 41

During spontaneous ventilation, how does Trans Mitral inflow velocities change during expiration?

Answer 41

Increase 10%

Question 42

During spontaneous ventilation, how does Trans Tricuspid inflow velocities change during expiration?

Answer 42

Decrease 20%

Question 43

During positive pressure ventilation, how does Trans Mitral inflow velocities change during expiration?

Answer 43

Decrease

Question 44

During positive pressure ventilation, how does Trans Tricuspid inflow velocities change during expiration?

Answer 44

Increase

Question 45

What changes are exaggerated with constrictive pericarditis and Tamponade?

Answer 45

Spontaneously ventilating patients havae exaggeratad changes in TM and TT inflow velocities

i.e. Exaggerated respiro-phasic variation

Question 46

How does tamponade physiology change with resp variation?

Answer 46

PPV respiratory variation decrease

Question 47

What changes are exaggerated with constrictive pericarditis that make it unique?

Answer 47

Exaggerated Respiratory variation with spontaneous ventilation and PPV.

Question 48

How does respirophasic variation change in a tamponade patient with:

Spontaneously breathing patient?
Positive pressure applied to patient?

Answer 48

Spont = Increase in respirophasic variation

PPV = Decrease in respirophasic variation

Question 49

What is the major difference with positive pressure with tamponade vs. constrictive pericarditis?

Answer 49

Tamponade = Decrease variation with PPV

Constrictive pericarditis = Increase variation with PPV

Question 50

What is the difference in Y descents (CVP) of Tamponade vs. Constrictive pericarditis?

Answer 50

Tamponade = Attenuated Y descent (Prominent systolic filling)

Constrictive Pericarditis = Exaggerated Y descent (Prominent early filling)

Question 51

How does pulsus paradoxus differ in tamponade vs. constrictive pericarditis?

Answer 51

Tamponade = Pulsus Paradoxus is common

CP = Pulsus Paradoxus is not common

Question 52

How does Kussmaul’s sign differ in tamponade vs. constrictive pericarditis?

Answer 52

Not present in Tamponade

Present in CP

Kussmaul’s sign is the paradoxical increase in JVP that occurs during inspiration.

Question 53

What is Mulberry Nonism important to note on echo?

Answer 53

CHF and Constrictive Pericarditis

Question 54

What is the triad of pericarditis?

Answer 54

1. Chest Pain
2. EKG changes
3. Pericardial Friction Rub

Question 55

What is the etiology % of viral pericarditis that results in constrictive pericarditis?

Answer 55

42-49%

Question 56

What are the other etiologies of pericarditis?

Answer 56

Idiopathic (Often viral)

Infection

Neoplastic

Autoimmune / Inflammatory

Post Cardiac Surgery / Intervention (11-37%)

Post-radiation

Drugs

Traum

Uremia

Question 57

What is the chest pain described as with pericarditis?
What is the palliative/provoking symptoms?

Answer 57

Sharp, radiates to the back

Position:

Worse when flat

Better when forward

Question 58

What is seen on Cardiac MRI for Pericarditis?

Answer 58

Late Gadolinium Enhancement

Question 59

What inflammatory markers are elevated in pericarditis?

Answer 59

Elevated CRP

Elevated Westergren Sedimentation Rate

Question 60

What is a sensitive indicator for pericarditis?

Answer 60

>4mm thickness

Highly sensitive

Question 61

How would you rank best modalities to measure pericardium thickness in pericarditis?

Answer 61

MRI & CT > TEE > TTE

Question 62

What is the time cutoff for acute vs. chronic pericarditis?

Answer 62

3 months

<3 months = Acute

>6 months = Chronic

Question 63

What is normal thickness of the pericardium?

Answer 63

1-2 mm

Question 64

Can constrictive pericarditis happen with normal pericardial thickness?

Answer 64

Yes; Doesnt exclude CP to have a normally thick pericardium

Question 65

What are the distinguishing echo features that differentiate Constrictive Pericarditis vs. Restrictive infiltrative Cardiomyopathy? (4)

Answer 65

1. Peak Velocity Pulmonay Venous D wave variation >18% in CP
2. Peak Velocity TM E Wave variation >10% in CP
3. Color M-mode prop velocity (V_P) slope >100 cm/sec in CP
4. Tissue doppler e’ <8 cm/sec in RICM

Question 66

What are the distinguishing physical exam that differentiate Constrictive Pericarditis vs. Restrictive infiltrative Cardiomyopathy?

Answer 66

Pericardial Knock in CP

S3 in RICM

Question 67

What are the distinguishing lab finding that differentiate Constrictive Pericarditis vs. Restrictive infiltrative Cardiomyopathy?

Answer 67

CP - BNP <100

RICM - BNP elevated

Question 68

What is a distinguishing factors for CP vs. RICM regarding pulmonary venous waves?

Answer 68

Peak velocity pumonary D wave variation >18% in CP

Question 69

What is charactersitics of Constrictive Pericarditis vs. RICM with Transmitral waves?

Answer 69

Peak Velocity TM E wave variation >10%

Question 70

For constrictive pericarditis vs. RICM, what is the color M-mode prop velocity (V_P) slope for CP?

Answer 70

>100 cm/sec

Question 71

What is the tissue doppler e’ in RICM?

Answer 71

e’ < 8cm/sec

Question 72

What is the tissue doppler e’ in Constrictive Pericarditis?

Answer 72

e’ > 10

Question 73

What is the Annular reversus in Constrictive Pericarditis?

Answer 73

Lateral e’ < Septal e’

(Lateral annulus is tethered to the pericardial sac and restricted)

Question 74

What is annulus paradoxus?

What is seen in CP vs. RICM

Answer 74

E/e’ <15 in Constrictive Pericarditis (despite elevated LAP)

(E/e’ >15 in RICM)

Question 75

For pericardial diseases, when is reversal of forward flow during expiration seen?

Answer 75

Constrictive Pericarditis

Question 76

For pericardial diseases, when is reversal of forward flow during inspiration seen?

Answer 76

RICM

Question 77

How do you differentiate CP vs. RICM on MRI?

(Hint: Where is the Late Gadolinium enhancement?)

Answer 77

CP = Late Gadolinium enhancement of Pericardium and Thick Pericardium

RICM = Late Gadolinium enhancement of Subendocardium

Question 78

How do you differentiate CP vs. RICM on Left Atrial volume?

Answer 78

LA Volume / RA volume greater in CP > RICM

Question 79

For CP vs. RICM

Max Septal Excursion between inspiration and expiration is greater in which one?

Answer 79

CP > RICM

Question 80

What is speckle tracking echocardiography?

Answer 80

Ratio of LV free wall systolic strain/septal wall strain & RV free wall

Speckle-tracking echocardiography has recently emerged as a quantitative ultrasound technique for accurately evaluating myocardial function by analyzing the motion of speckles identified on routine 2-dimensional sonograms. It provides non-Doppler, angle-independent, and objective quantification of myocardial deformation and left ventricular systolic and diastolic dynamics.

By tracking the displacement of the speckles during the cardiac cycle, strain and the strain rate can be rapidly measured offline after adequate image acquisition.

Question 81

What is the Color M Mode Flow Propagation Velocities seen in CP vs. RICM?

Answer 81

Vp <50 cm/sec = RICM

Vp >100 cm/sec = CP

Question 82

How does cardiac catheterization appear in CP?

Answer 82

Elevation and Equalization of diastolic pressures (oversimplification)

Question 83

How do the filling pressures differ in RICM?

Answer 83

LVEDP > RVEDP

Question 84

What is the dip and plateau sign seen in CP and RICM?

Answer 84

Question 85

Is Kullmaul sign seen in tamponade?

Answer 85

No

Kussmaul’s sign is the paradoxical increase in JVP that occurs during inspiration. Jugular venous pressure normally decreases during inspiration because the inspiratory fall in intrathoracic pressure creates a “sucking effect” on venous return.

Said another way; Absence of an inspiatory drop in JVP (Spontaneous ventilation)

Question 86

What is pulsus paradoxus?

Answer 86

Pulsus paradoxus is defined as a fall of systolic blood pressure of >10 mmHg during the inspiratory phase.

Question 87

How does respirophasic variation change with tamponade under:
1. Spontaneous ventilation?

2. Positive Pressure ventilation?

Answer 87

1. SV = Exagerrated variation
2. PPV = Decreased variation

Question 88

How does the IVC appear in tamponade?

Answer 88

IVC = Plethoric

Question 89

How do the Hepatic Veins appear in tamponade?

Answer 89

Enlarged

Question 90

When is there RA collapse in Tamponade?

Answer 90

Systole and Diastole

Question 91

What is more specific for tamponade;

RA collapse in systole vs. RA collapse in diastole

Answer 91

RA collapse in systole = Tamponade

Question 92

What is seen in the septum during cardiac tamponade on echo?

Answer 92

Septal Shift & Bounce (From the respiratory variation and ventricular interdependence)

Question 93

What is seen in the pulmonic valve during cardiac tamponade?

Answer 93

Premature Mid-Diastolic Pulmonic Valve Opening (M-mode)

Question 94

What does a plethoric IVC mean during cardiac tamponade?

Answer 94

>20 mm in width

<50% decrease with inspiration

Question 95

What is the negative predictive value (NPV) of cardiac tamponade with absence of chamber collapse?

Answer 95

Absence of any collapse = 90% NPV

Question 96

What finding is 100% sensitive and specific for cardiac tamponade?

Answer 96

RA collapse >1/3 of the cardiac cycle

Question 97

When does the RV collapse in diastole occur in cardiac tamponade?

Answer 97

Pericardial Pressure > RVDBP (RV diastolic pressure)

Question 98

What is electrical alternans?

Answer 98

This EKG rhythm is typically associated with pericardial effusion via the “swinging heart” from the fluid surrounding the heart

Question 99

What is the sensitivity and specificity of Atrial Systolic Collapse for Cardiac Tamponade?

Answer 99

Atrial Systolic Collapase > 1/3 of systole

94% sensitive

100% specific

Question 100

What is the sensitivity and specificity of RV Diastolic Collapse for Cardiac Tamponade?

Answer 100

60-90% sensitivity

85-100% specificity

Question 101

When would you have cardiac tamponade without pulses paradoxus?

Answer 101

Intrapericardial Clot

Question 102

How do we quantify a small pericardial fluid?

Answer 102

0.5 cm (100-200 mL)

Question 103

How do we quantify a moderate pericardial fluid?

Answer 103

0.5 - 2 cm

(200 - 500 mL) = Moderate

Question 104

How do we quantify a large pericardial fluid?

Answer 104

>2 cm (>500 mL)