Diastology Flashcards

Question 1

Q

Define diastolic dysfunction

Answer

A

Inability of the ventricle to fill to an adequate end-diastolic volume at normal pressure
abnormality of LV diastolic:
- distensibility
- filling
- relaxation

Question 2

Q

LV diastolic dysfunction is usually the result of this:

Answer

A

impaired LV relaxation with or without reduced restoring forces (and early diastolic suction)
increased LV chamber stiffness

Both of which lead to increased cardiac filling pressures

Question 3

Q

Describe the algorithm differentiating CP and Restrictive Cardiomyopathy?

Question 4

Q

How will pulmonary venous Doppler flow pattern immediately change in the case of left atrial stunning (e.g. after cardioversion for persistent A-fib)?

Answer

A

A decrease of the systolic filling fraction, particularly S1

Question 5

Q

Define LV filling pressure

Answer

A

Can refer to:

mean PCWP (which is an indirect estimate of LV diastolic pressures)
mean left atrial pressure (LAP)
LV pre-A pressure
mean LV diastolic pressure
LV end-diastolic pressure (LVEDP)

Question 6

Q

What is the diagnosis in patient with:

Normal systolic function
PCWP: significant V-waves
Echo: no evidence of MR

Answer

A

Loss of left atrial reservoir function

or

severely decreased left atrial compliance

Question 7

Q

61 year old male with PMH HTN with complaints of exercise intolerance.

LFT’s normal
HR 60 bpm
LVEF normal, mild LVH

What is the diagnosis? Next step?

Answer

A

Diastolic stress test
- Normal myocardial relaxation –> E/e’ will remain unchanged because both E and e’ velocities increase proportionally
- Impaired myocardial relaxation –> increase in e’ is much less than that of E –> E/’e increases

Question 8

Q

When performing PW Doppler imaging in the A4C view to acquire mitral annular velocities, where should the sample volume be positioned?

Answer

A

At or 1 cm within the septal and lateral insertion sites of the mitral leaflets

Should be adjusted as necessary (usually 5-10 mm) to cover the longitudinal excusion of the mitral annulus in both systole and diastole

Question 9

Q

What are supportive findings of CP with mixed mitral medial e’ (6-8 cm/s) in assessment of CP vs. RC?

Answer

A

Annulus reversus
- Mitral lateral e’ < medial e’
- Most likely constriction if present
Hepatic vein expiratory end-diastolic reversal velocity / forward flow velocity = > 0.8
- definitely constriction if present

Question 10

Q

What are the elements of a basic diastolic function assessment?

Answer

A

Left atrial volume index
Mitral inflow Doppler
Mitral annular tissue doppler (medial and lateral)
- medial is sufficient in most instances, also easier to align
Right ventricular systolic pressure

Question 11

Q

What is two echo machine adjustment that should be made when obtaining annular velocities?

Answer

A

Doppler spectral gain settings
- usually automatic
- velocity scale should be set at ~ 20 cm/s above and below the zero-velocity baseline
  - lower settings may be needed in severe LV dysfunction
Minimal angulation - < 20 degrees

Question 12

Q

Describe the findings of Grade II diastolic dysfunction

Answer

A

LV relaxation - impaired
LAP - Elevated
Mitral E/A ratio - > 0.8 - < 2
Average E/e’ ratio - 10-14
Peak TR velocity (m/s) - > 2.8
LAVI - Increased

Question 13

Q

What is the best way to estimate LV filling pressures in A-fib?

What indicates elevated LV filling pressures?

Answer

A

E/e’ ratio
E/e’ > 11 –> LVEDP > 15 mmHg

Question 14

Q

Define LV untwisting

Answer

A

Major determinant of the isovolumic relaxation time (IVRT)
- measurable manifestation of elastic recoil
- energy generated by helically oriented fibers and stored in the heart’s elastic tissue during systole is released before end-systole
- creating early diastolic suction
- filling the LV for the next cardiac cycle

Question 15

Q

What is second step in assessment of CP vs. RC?

Answer

A

Ventricular interdependence (with respiration)

No –> suspicion still high –> further imaging or cardiac cath
Yes –> Mitral medial e’

Question 16

Q

What mitral deceleration time is associated with elevated LV filling pressures?

Answer

A

< 150 ms in the presence of LV dysfunction

Question 17

Q

What is the best two-dimensional (2D) and doppler echo finding to differentiate restrictive cardiomyopathy from constrictive pericarditis?

Answer

A

Early diastolic mitral annular velocity

mitral medial e’ velocity > 8 cm/s
normal mitral e’ velocity (in patient with heart failure) –> CP

Question 18

Q

What is the optimal sample volume size in PW Doppler assessment:

Mitral valve inflow
Pulmonary vein doppler flow

Answer

A

1-3 mm at mitral valve tips
2-3 mm placed > 0.5 cm into pulmonary vein

Question 19

Q

What is first step in assessment of CP vs. RC?

Answer

A

Mitral inflow E/A > 0.8

+

Dilated IVC

No –> Constriction / Restriction unlikely
Yes –> Next step

Question 20

Q

Describe the findings in Grade III diastolic dysfunction

Answer

A

LV relaxation - impaired
LAP - Elevated
Mitral E/A ratio - > 2
Average E/e’ ratio - > 14
Peak TR velocity (m/s) - > 2.8
LAVI - Increased

Question 21

Q

Describe the diagnosis

Answer

A

Restrictive cardiomyopathy

Question 22

Q

What deceleration time of the pulmonary venous diastolic velocity indicates elevated LV filling pressures?

Question 23

Q

Describe pulmonary venous Doppler flow pattern:

AR wave

Answer

A

AR wave
- atrial flow reversal velocity and duration
- influencenced by LV late diastolic pressures, atrial preload, LA contractility

Question 24

Q

What are supportive findings of RC in assessment of CP vs. RC?

Answer

A

DT < 150 ms
IVRT < 50 ms
PV Systolic Fraction < 40%
E/e’ > 15
LAVI > 48 mL/m²

Question 25

Q

Describe pulmonary venous Doppler flow pattern:

S1 and S2

Answer

A

S1
- related to atrial relaxation
- most noticeable with prolonged PR
- influenced by changes in LAP (relaxation and contratction)
S2
- related to SV, pulse wave propagation in pulmonary arterial tree
- should be used to compute the ratio of peak systolic to peak diastolic velocity

***A-fib or atrial stunning –> blunted S wave, mainly due to a loss of S1 with a decreased systolic fraction and absence of AR velocity

Question 26

Q

What is third step in assessment of CP vs. RC?

Answer

A

Mitral medial e’

> 8 cm/s –> CP
6 - 8 cm/s –> Mixed constriction/restriction
< 6 cm/s –> RC

Question 27

Q

Describe findings of Grade I diastolic dysfunction

Answer

A

LV relaxation - impaired
LAP - low or normal
Mitral E/A ratio - < 0.8
Average E/e’ ratio - < 10
Peak TR velocity (m/s) - < 2.8
LAVI - Normal or increased

Question 28

Q

Define E/A wave ratio of Mitral inflow measurements

Answer

A

represents the ratio of:

E wave: peak velocity blood flow from gravity in early diastole
- to
A wave: peak velocity flow in late diastole caused by atrial contraction

Question 29

Q

Describe pulmonary venous Doppler flow pattern:

D wave

Answer

A

D wave

diastolic velocity
influenced by changes in LV filling and compliance
- related to LV relaxation
- young individuals can exhibit large D waves
changes in parallel with mitral E velocity

Question 30

Q

Describe the diagnosis

Answer

A

Constrictive pericarditis

Question 31

Q

What are comorbidities that confound assessment of diastolic function?

Answer

A

Tachycardia (causes E-A fusion)
A-fib
AR
MR
Mitral annular calcification
Mitral stenosis
Ventricular pacing
Prior surgery / procedure
- MAZE procedure
- Pulmonary vein isolation
- Mitral valve surgery
- LVAD
- Cardiac transplant

Question 32

Q

What mitral annular velocity values (usually) indicate normal diastolic function?

Answer

A

septal (E’) = ≤ 7
lateral (E’) = ≤ 10

Question 33

Q

What LA volume values (usually) indicate normal diastolic function?

Answer

A

LA < 34 ml/m²

Question 34

Q

What does mitral inflow pattern provide?

Answer

A

insight into the pressure gradient between the left atrium and the left ventricle

Question 35

Q

How do you differentiate between a normal and pseudonormal mitral inflow pattern?

Answer

A

EF

If EF is impaired –> diastolic dysfunction is present and can classify based on pattern

Question 36

Q

What are the first two parameters to check in the assessment of diastolic function?

Answer

A

LA volume indexed (LAVI)
Doppler Tissue Imaging –> E’ (septal and lateral)

*** if both normal then most likely normal diastolic function

Question 37

Q

What is an easy way to determine normal LA pressure when assessing Left Atrial Inflow or Pulmonary Vein Flow (PVF) in assessment of diastolic function?

Answer

A

S > D

85% have normal LA pressure

Question 38

Q

What is another method for determining normal vs. Pseudonormal filling pattern for diastolic dysfunction?

Answer

A

Valsalva maneuver

Question 39

Q

In the assessment of diastolic function:

How is the valsalva response obtained/measured?
What does it determine?
How can the Valsalva maneuver help to distinguish between normal/pseudonormal?

Answer

A

Continuously recording mitral inflow (PW doppler) for 10s during the straining phase of the maneuver
whether restrictive LV filling is reversible or not
decrease in E/A ratio of ≥ 50%, not caused by E and A velocities fusion, is highly specific for increased LV filling pressures (supporting presence of diastolic dysfunction)

***Continuous recording of mitral inflow during standardized Valsalva maneuever for 10s –> decrease in E/A ratio with straining, which is consistent with elevated LV filling pressures

Question 40

Q

What pulmonary vein doppler flow atiral reversal velocity is usually consistent with elevated LV filling pressures particularly at end diastole?

Answer

A

≥ 35 cm/s

Question 41

Q

In the assessment of diastolic function, explain the relation of the S and D wave in PVF or LAI?

Answer

A

S wave
- related to LV contractility, atrial function, atrial pressure and mitral regurgitation
D wave
- related to LV relaxation
- young, healthy individuals can exhibit large D waves indicating forceful elastic recoil of the LV rather than high left atrial pressure

Question 42

Q

When are Mitral and Pulmonary inflow patterns reliable for the assessment of LV filling pressures?

Answer

A

Only with a reduced LV function

Question 43

Q

Pulmonary venous atrial reversal wave can be obtained in what percentage of patients?

Question 44

Q

What is the most accurate method to quantify the left atrial size and provide useful prognostic data?

Answer

A

direct measurement of the left atrial volume using the biplane method of disks
measured in A2C and A4C views
LA volume should preferably be indexed

Question 45

Q

What is the movement on TTE to transition for PLA to a better view of the ascending aorta?

Answer

A

shift the probe up one interspace without changing the location of the index marker (notch)

Question 46

Q

What is the main utility of the assessement of diastolic function?

Answer

A

to predict filling pressures

Question 47

Q

What does fractional shortening tell you?

How is it obtained?

What is the equation for FS?

Answer

A

Gives a rough estimate of LV systolic function using linear dimensions
PLA at or below the level of the mitral leaflet tips using 2D or M-mode –> linear internal measurements of the LV at end-diastole and end-systole are obtained
FS% = (LVIDd - LVIDs) / LVIDd x 100
- normal values 25-45%
  - 10% is consistent with severe LV dysfunction

Question 48

Q

In assessment of the AV/Aorta which measurements should be measured:

leading edge to leading edge
inner edge to inner edge

Answer

A

Leading-to-leading edge (during mid-systole)
- LVOT diameter
- Aortic valve annulus
Inner-to-inner edge
- sinuses of Valsalva
- sinotubular junction
- ascending aorta

Question 49

Q

What conduction disturbances must be ruled out prior to initiatiation of flecainide therapy?

Answer

A

2nd or 3rd degree AV block
LBBB
RBBB + left hemiblock
NSVT (asymptomatic)

Question 50

Q

What is a major contraindication to flecainide therapy?

Answer

A

structural heart disease

Question 51

Q

How long should a patient be monitored after initiation of Flecainide?

What should be monitored?

Answer

A

8 hours (check local practices)
QRS duration

Question 52

Q

When should Flecainide be dc or dose decreased?

Answer

A

increase in QRS duration > 25%
- potential risk of proarrhythmia

Question 53

Q

What is height of the E wave correspond to?

Answer

A

transmitral pressure gradient
- does not necessarily convey information about the mean LA (or PCWP)

Question 54

Q

What does the magnitude of the A wave (in transmitral flow) correspond to?

Answer

A

force of atrial stystole
- in turn, is related to atrial contractility

Question 55

Q

Describe the pathophysiology in Grade 1 (mild diastolic dysfunction)

Answer

A

abnormally slow LV relaxation
reduced early transmitral (E wave) veolocity
coupled with a compensatory increase in velocity associated with atrial systole

Question 56

Q

What are transmitral (E and A) flow velocities dependent on?

When are they not useful?

Answer

A

transmitral pressure gradients and indirectly on the integrity of ventricular relaxation
Preserved EF
- patterns of E and A waves have limited ability to predict filling pressures

Question 57

Q

Recording the velocity of the mitral annulus in early diastole using TDI (e’) in both the septal and lateral annuli of the mitral valve gives insight into what?

Answer

A

ventricular relaxation

***relatively insensitive to preload

**** particularly in patients with heart disease

Question 58

Q

(Transmitral) E / e’ (TDI)

can be used to reliabiably predict what?

Answer

A

mean PCWP

Question 59

Q

What affect dose LVEF have on transmitral E velocity?

Answer

A

Reduced LVEF (dilated cardiomyopathy)
- correlate better with LV filling pressures, functional class, and prognosis than LVEF
Normal EF
- correlates poorly with LV filling pressures

Question 60

Q

What are additional limitations to transmitral E velocity?

Answer

A

more challenging to apply with arrhythmias
affected by alterations in LV volumes and elastic recoil
age dependent (decreasing with age)

Question 61

Q

What are the four principal measurements in assessing presence of diastolic function in a patient with normal LVEF?

Answer

A

E/e’ ratio > 14
- e’ averaged between septal and lateral annulus
Tissue Doppler velocity (medial and lateral annuli) - e’
- medial < 7 cm/s
- lateral < 10 cm/s
Peak continuous wave TR velocity > 2.8 m/s
LA volume index > 34 cc/m2

**diastolic dysfunction present if > 50% positive

***indeterminate if 50% positive

****nromal diastolic function if < 50% positive

Question 62

Q

What are three special populations in which grading diastolic function is very difficult?

Answer

A

Mitral annular calcification
Atrial Fibrillation
Coexistent mitral regurgitation

Question 63

Q

What are the three functions of the left atrium throughout the cardiac cycle?

Answer

A

Reservoir function during ventricular systole and isovolumic relaxation
- reflected by the pulmonary venous S wave
Conduit phase from the moment the mitral valve opens until onset of atrial contraction
- reflected by the pulmonary venous D wave
Contractile phase during atrial systole
- reflected by pulmonary venous AR wave and mitral A wave

Question 64

Q

What populations of patient’s should grading of diastolic dysfunction occur?

Answer

A

reduced LVEF
heart disease (known) and normal LVEF

Answer 62

A

Transmitral Inflow ratio
- E/A ≤ 0.8 + E ≤ 50 cm/s
  - –> normal LAP, Grade I DD
  - if symptomatic –> consider CAD, or diastolic stress test
E/A ≤ 0.8 + E > 50 cm/s or E/A > 0.8 - < 2
- –> 3 criteria to be evaluated
E/A ≥ 2
- –> increase LAP, Grade III DD

Answer 63

A

Average E/e’ > 14
TR velocity > 2.8 m/s
LAVI > 34 ml/m2

Answer 64

A

2/3 or 3/3 positive –> increased LAP or Grade 2 diastolic dysfunction
2/3 or 3/3 negative –> normal LAP or Grade I diastolic dysfunction

Answer 65

A

2 positive –> increased LAP or Grade 2 diastolic dysfunction
1 positive/1 negative –> indeterminate
2 negative –> normal LAP or Grade I diastolic dysfunction

Answer 66

A

LA stunning after cardioversion

Day 0 (cardioversion) = markedly reduced mitral A velocity and apparent “restrictive filling” pattern (basis of E/A ratio)
Day 3 = LA function improves with increased A velocity and a decreased E/A ratio consistent with impaired LV relaxation but normal LV filling pressures

Answer 67

A

Loading conditions

Answer 68

A

Predictive ability regarding filling pressures is predominantly in systolic dysfunction
- E / Vp > 2.5 –> predices PCWP > 15 mmHg

Answer 69

A

> 50 cm/s

Answer 70

A

Color M-mode with white line tracing Vp

Answer 71

A

LV operating stiffness

changes in LV compliance (relationship between LV pressure and volume) and also ventricular relaxation (or early diastolic pressures)

Answer 72

A

PW Doppler mitral flow velocity > > > LVEF

in regards to filling pressure, functional class and prognosis

Answer 73

A

Grade 3-4 diastolic dysfunction

Restrictive

Answer 74

A

Grade 2 diastolic dysfunction

Pseudonormal

Answer 75

A

Pseudonormal

or

Restrictive

Answer 76

A

decrease E/A ratio ≥ 50%

Answer 77

A

Forceful expiration - generating 40 mmHg of pressure
Decrease mitral PV ≥ 20 cm/s
- in patients without restrictive filling

Answer 78

A

Stage 2 diastolic dysfunction
- differentiating normal vs. pseudonormal

Answer 79

A

A - Impaired relaxation (may be asymptomatic at rest or with mild exercise) –> LV has become more dependent on atrial contraction (low E/A ratio)
- most likely to feel a change in symptoms with sudde onset of A-fib due to loss of atrial kick

****Atrial contraction hardly contributes to LV filling in most advanced stages of diastolic dysfunction (diminutive A wave in restrictive filling)

Answer 80

A

Normal diastolic filling pattern

Answer 81

A

Markedly delayed relaxation –>

preload reduction will reveal stage 1 diastolic dysfunction

L-wave: transmitral flow during diastasis

Answer 82

A

L-wave: transmitral flow during diastasis
- triphasic mitral inflow pattern that can be seen in patients without structural heart disease
- Associated with bradycardia
- represents advanced diastolic dysfunction (elevated filling pressures + loss of compliance + very delayed relaxation)

Answer 83

A

Grade I diastolic dysfunction

Impaired relaxation

Answer 84

A

Preload reduction
- decreases LAP and decreases operating stiffness of the LV

Answer 85

A

Grade 3-4 diastolic dysfunction
Beta-blockers
- long term prognosis better with BB (need careful titration)
- But, operating stiffness of heart is very high –> CO is dependent on HR (impossible to augment SV without HR)

Answer 86

A

LVEDP is in the normal range - consider alternative etiology

LVEDP = DBP - 4V_{end diastolic velocity}²
LVEDP = 78 - 4 (4)²
LVEDP = 78 - 64 = 14 mmHg

Answer 87

A

LV stiffness has increased

Increased E/e’ and E/Vp ratio –> increased LV filling pressures
Shorter DT –> increased LV operating stiffness
Decreased A-wave velocity –> reduced LA contractility
M-mode Vp and tissue Doppler e’ are unchanged

Answer 88

A

60 year old man with hypertensive heart disease

Large difference ( > 30 ms) between duration of mitral A-wave velocity and duration of the late diastolic pulmonary venous flow reversal, AR –> Elevated end-diastolic LV filling pressures
- usually seen in patients with grade 2 or 3 diastolic dysfunction

Answer 89

A

they will be absent

Answer 90

A

reversal or at least blunting of the S wave (with significant MR)

Answer 91

A

Reduced LVEF

Answer 92

A

changes in preload

volume overload, changes in medical therapy

Answer 93

A

Increased peak E velocity
Normal DT

Answer 94

A

Systolic forward flow (S)
Diastolic forward flow (D)
Systolic flow reversal (VR)
Atrial flow reversal (AR)

Answer 95

A

CP and Pulmonary hypertension
Respiratiory variation –> CP
- augmentation of diastolic flow reversal

Answer 96

A

Decreased LV compliance

Mitral Inflow
- Appears to have fused E/A wave but more likely increased E wave with shortened DT
Pulmonary vein flow
- Blunted systolic to diastolic flow with a large AR confirms –> E wave with restrictive physiology, decreased LV compliance and elevated LV filling pressures
Decreased annular velocity and delayed Vp confirms impaired relaxation
E/e’ = 17 and E/Vp = 5 –> both confirm elevated LV filling pressure

Answer 97

A

LV filling pressures are now normal

E/e’ is now < 10 –> suggesting that LV filling pressures have been lowered

Answer 98

A

Pulmonary vein flow
- positive relationship of mitral E wave and pulmonary vein D wave
- larger the E wave, the larger the D wave

Answer 99

A

E/e’ > 15
E/Vp > 2

Answer 100

A

Advanced diastolic dysfunction
Atrial dilatation

****In spite of normal LV size and function

Answer 101

A

Restrictive cardiomyopathy
Progressive myocardial stiffening
Restrictive physiology
- shortened mitral E wave DT
- E/A ratio markedly increased ~ 20
- Grade 3 diastolic filling with normal systolic function
- Ventricular filling is notable for decreased LV compliance

Answer 102

A

As LAP increases with disease progression
MV opens at a higher pressure –> decrease in the IVRT
In addition, there is increased transmitral pressure gradient –>
- increased E velocity
- decreased systolic pulmonary venous flow velocity
- systolic/diastolic ratio < 1