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Transcript
Echocardiographic Assessment of
the Right Heart in Adults
A Report from the American Society of Echocardiography,
2010
Learning Objectives





Describe the conventional two-dimensional acoustic windows
required for optimal evaluation of the right heart
Describe the echocardiographic parameters required in
routine and directed echocardiographic studies, and the views
to obtain these parameters for assessing right ventricular size
and function
Identify the advantages and disadvantages of each measure or
technique as supported by the available literature
Recognize which right sided measures should be included in
the standard echocardiographic report
Explain the clinical and prognostic significance of right
ventricular assessment
Discussion

The right ventricle plays an important role in the
morbidity and mortality of patients presenting with
signs and symptoms of cardiopulmonary disease

Systematic assessment of right heart not uniformly carried
out



Enormous attention given to left heart
Lack of familiarity with u/s techniques that can be used to assess the
right heart
Scarcity of u/s studies providing normal reference values
Executive summary



In all routine studies, the sonographer and physician
should examine the right heart using multiple
windows
The report should represent an assessment based on
qualitative and quantitative parameters
The report should include a measure of




RV size
RA size
RV systolic function
PASP
Right heart dimensions

Right ventricle-focused apical 4 chamber view

Measured at end-diastole
Sensitivity of
angular change
despite similar size
and appearance of
the left ventricle
Right ventricular dimensions
1. Basal RV diameter
2. Mid cavitary RV diameter
3. RV longitudinal dimension
 4.2 cm indicates dilatation
 3.5 cm indicates dilatation
 8.6 cm indicates RV enlargement
RV linear dimensions
Advantages


Linear dimensions are
easily obtained on apical 4
chamber view
Good markers of RV
dilatation
Disadvantages

RV dimensions are highly
dependent on probe
rotation by the user

Can result in
underestimation of RV
width
Recommendation
“Patients with echocardiographic evidence of right-sided
heart disease of PH should ideally have measurements of
RV basal, mid cavitary, and longitudinal dimensions on a 4chamber view. In all complete echocardiographic studies, the
RV basal measurement should be reported and the report
should state the window from which the measurement was
performed (ideally the right ventricle-focused view), to permit
interstudy comparisons.”
Right atrial assessment


Apical 4-chamber view
Estimation of right atrial area by planimetry
The maximum long distance of the
RAis from the center of the tricuspid
annulus to the superior RA wall,
parallel to the interatrial septum
A mid RA minor distancve is defined
from the mid level of the RA free wall
to the interatrial septum perpendicular
to the long axis
RA area is traced at the end of
ventricular systole, excluding the IVC,
SVC, and RAA
Normal area < 18 cm²
Advantages


Ra dimensions and area
are easily obtained on an
apical 4 chamber view
Good markers of RA
dilatation
Disadvantages

RA area is more time
consuming than linear
dimensions alone
Recommendation


Images adequate for RA area estimation should be obtained in
patients undergoing evaluation for RV or LV dysfunction
RA dimensions should be considered in all patients with
significant RV dysfunction in who image quality does not
permit for the measurement of RA area
Note: RA volume measurements have not been standardized
and are not currently recommended
RA pressure determination

Measurement of the IVC should be obtained at endexpiration and just proximal to the junction of the
hepatic veins that lie approximately 0.5 to 3.0 cm
proximal to the ostium of the right atrium
To accurately assess IVC
collapse, the change in
diameter of the IVC with a
sniff and also with quiet
respiration should be
measured, ensuring that the
change in diameter does not
reflect a translation of the
IVC into another plane
Recommendations
For simplicity and uniformity of reporting, specific values of RA pressure
, rather than ranges, should be used in the determination of SPAP
IVC diameter
IVC collapsibility
RA pressure
≤ 2.1 cm
> 50% with a sniff
3 mmHg
> 2.1 cm
< 50 % with a sniff
15 mmHg
In indeterminate cases in which IVC diameter and collapse do not fit this paradigm,
an intermediate value of 8 mmHg may be used, preferably with use of secondary
indices of RA pressures such as: RA dilatation, abnormal bowing of the IAS into
the left atrium throughout the cardiac cycle
Advantages
Disadvantages
IVC dimensions are usually
obtainable from the subcostal
window
IVC collapse does not accurately
reflect RA pressure in ventilatordependent patients
It is less reliable for intermediate
values of RA pressure
RV Wall Thickness


Useful measurement of RVH
Normal < 0.5 cm
From the subcostal view, align the u/s beam
perpendicular to the RV free wall

Exclude RV trabeculations and papillary muscle from
endocardial border

Moving the focus to the RV wall region and decreasing the depth will
improve endocardial border definition

When imaging quality permits use fundamental frequency
RV Wall Thickness
Advantages


RV wall thickness can be
measured by M-mode or
2D echocardiography
It can be measured either
from the subcostal or left
parasternal window
Disadvantages

There is a lack of
established prognostic
information
Recommendation

Abnormal RV wall thickness should be reported, if
present, in patients suspected of having RV and/or LV
dysfunction
RVOT measurement


Best viewed from left parasternal and subcostal windows
Should be measured at end-diastole on the QRS
deflection
Normal 1.7-2.7
cm
RVOT measurement
Advantages


RVOT dimensions are
easily obtained from the
left PSAX window
Certain lesions may
primarily affect the RVOT
Disadvantages




Limited normative data are
available
The window for
measurement of RVOT size
has not been standardized
Oblique imaging of the
RVOT may underestimate or
overestimate its size
The endocardial definition of
the anterior wall is often
suboptimal
Recommendation



On select patients with congenital heart disease or
arrhythmia potentially involving the RVOT, proximal
and distal diameters of the RVOT should be
measured from the PSAX or PLAX views
The PSAX distal RVOT diameter, just proximal to the
pulmonary annulus, is the most reproducible and
should be generally used
Cases of suspected ARRVC, the PLAX measure
maybe added
RV systolic function

All studies should include a measure of RV systolic
function using at least one of the following:




Fractional area change (FAC)
Tricuspid annular plane systolic excursion (TAPSE)
S´
One of these measurements should be reported with or
without

RV index of myocardial performance (RIMP)
Fractional area change

Defined as
End diastolic area – End systolic area
End-diastolic area


X 100
RV FAC correlates well with RV EF by MRI
RV FAC found to be independent predictor of heart
failure, sudden death, stroke, and/or mortality in studies of
patients after pulmonary embolism
RV FAC


Obtained by tracing RV endocardium both in systole
and diastole from the annulus, along the free wall to
the apex, and then back to the annulus, along the
interventricular septum
Avoid trabeculations
Normal > 35 %
Recommendation

2D Fractional Area Change is one of the recommended
methods of quantitatively estimating RV function
TAPSE or TAM

Acquired by placing an M-mode cursor through the
tricuspid annulus and measuring the amount of
longitudinal motion of the annulus at peak systole
Normal > 16 mm
TAPSE
Advantages




TAPSE is simple
Less dependent on
optimal image quality
Reproducible
Does not require
sophisticated equipment
or prolonged image
analysis
Disadvantages




TAPSE assumes that the
displacement of a single
segment represents the
function of a complex 3D
structure
It is angle dependent
There are no large scale
validation studies
TAPSE maybe load
dependent
Recommendation

TAPSE should be used routinely as a simple method of
estimating RV function
Tissue Doppler Imaging



An apical four chamber view is used
The pulsed Doppler sample volume is placed in either
the tricuspid annulus or the middle of the basal
segment of the RV free wall
The S´ velocity is read as the highest systolic velocity
without over-gaining the Doppler envelope
Normal > 10 cm/s
Tissue Doppler (S´)
Advantages



A simple, reproducible
technique with good
discriminatory ability to
detect normal versus
abnormal RV function
Pulsed Doppler is available
on all modern systems
Maybe obtained and
analyzed off-line
Disadvantages




Less reproducible for
nonbasal segments
Is angle dependent
Limited normative data in all
ranges' and in both sexes
It assumes that the function
of a single segment
represents the function of
the entire right ventricle
Recommendation

Interrogation of S´ by pulsed tissue Doppler is a simple and
reproducible measure to assess basal RV free wall function
and should be used in the assessment of RV function
IVRT + IVCT
RV IMP (Tei Index)
ET
 RV index of Myocardial Performance
 Global index of both systolic and diastolic function of
the right ventricle
Normal < 0.40
Normal < 0.55
Advantages




This approach is feasible in a
large majority of subjects
The MPI is reproducible
It avoids geometric
assumptions and limitations
of the complex RV geometry
The pulsed TDI method
allows for measurement of
MPI as well as S´, E´, and A´
all from a single image
Disadvantages


The MPI is unreliable
when RV ET and TR time
are measured with
differing R-R intervals, as
in atrial fibrillation
It is load dependent and
unreliable when RA
pressures are elevated
Recommendation


The MPI may be used for initial and serial measurements
as an estimate of RV function in complement with other
quantitative and qualitative measures
It should not be used as the sole quantitative method for
evaluation of RV function and should not be used with
irregular heart rates
RV Strain and Strain rate

Due to the lack of normative data and the lack of
reproducibility, these methods are not recommended for
routine clinical use
RV Diastolic Function




From the apical 4-chamber view, the Doppler beam
should be aligned parallel to RV inflow
Sample volume is placed at the tips of the tricuspid
valve leaflets
Measure at held end-expiration and/or take the
average of ≥ 5 consecutive beats
Measurements are essentially the same as those used
for the left side
RV Diastolic Function
Variable
Lower reference value
Upper reference value
E (cm/s)
35
73
A (cm/s)
21
58
E/A ratio
0.8
2.1
Deceleration time (ms)
120
229
IVRT (ms)
23
73
E’ (cm/s)
8
20
A’ (cm/s)
7
20
E’/A’ ratio
0.5
1.9
2
6
E/E’
Recommendation


Measurement of RV diastolic function should be
considered in patients with suspected RV impairment
as a marker of early or subtle RV dysfunction, or in
patients with known RV impairment as a marker for
poor prognosis
Transtricupsid E/A ratio, E/E’ ratio, and RA size have
been most validated are the preferred measures
Grading of RV Diastolic Dysfunction should be done as follows:
E/A ratio < 0.8 suggests impaired relaxation
E/A ratio 0.8-2.1 with an E/E’ ratio > 6 or diastolic prominence in the hepatic veins
suggest pseudonormal filling
E/A ratio > 2.1 with deceleration time < 120 ms suggests restrictive filling
Other Recommendations

Visual assessment of ventricular septal curvature
looking for a D-shaped pattern in systole and diastole
should be used to help in the diagnosis of RV volume
an/or pressure overload
RV pressure overload-septal shift throughout
cardiac cycle with most marked distortion of LV
at end systole
RV volume overload-septal shift occurs
predominately in mid to late diastole
Other Recommendations

SPAP should be estimated and reported in all subjects
with reliable tricuspid regurgitant jets

Discourages use of contrast as it obscures the clear
envelope
Other Recommendations

Mean PA pressure

Whenever possible, it is helpful to use several methods to
calculate mean pressure so that the internal consistency of the
data can be challenged and confirmed. Methods to use:
1. Mean PA pressure = 1/3 (SPAP) + 2/3 (PADP)
2. Mean PA pressure = 79 – (0.45 x AT)
3. Mean PA pressure = 90 – (0.62 x AT)
4. Mean PA pressure = 4 x (early PR vel²) + est. RAP
Mean PA Pressure
4(early PR vel)² + est. RAP
4(3.05 m/sec)² + est. RAP
Mean PAP= 37 mmHg + RAP
4(2.29 m/sec)² + est. RAP
PADP = 21 mmHg + RAP
Mean PA Pressure


In patients with PA hypertension or heart failure, an
estimate of PADP from either the mean gradient of the
TR jet or from the pulmonary regurgitant jet should be
reported
If the estimated SPAP is > 35-40 mmHg, stronger scrutiny
may be warranted to determine if PH is present, factoring
in other clinical information
Other Recommendations


Pulmonary Vascular Resistance
“An elevation in SPAP does not always imply increased
PVR. PVR distinguishes elevated pulmonary pressure due
to high flow from that due to pulmonary vascular
disease”
PVR can be estimated using the ratio of peak TR velocity
to the RVOT VTI
Pulmonary Vascular Resistance
PVR = TRV max / RVOT TVI x 10 + 0.16
2.78 m/sec ÷ 11 cm x 10 + 0.16 = 2.68 Wood units
Significant PHTN exists when PVR is > 3 Wood units
PVR


The estimation of PVR is not adequately established
to be recommended for routine use but may be
considered in subjects in whom pulmonary systolic
pressure may be exaggerated by high stroke volume
or misleading low by reduced stroke volume
The noninvasive estimation of PVR should not be
used as a substitute for the invasive evaluation of PVR
when this value is an important guide to therapy
RV dP/dt



The rate of pressure rise in the right ventricle
Estimated from the ascending limb of the tricuspid
regurgitant CW Doppler signal
Measure the time required for the TR jet to increase
in velocity from 1 to 2 m/s (represents a 12 mmHg increase)
30 ms or 0.03 seconds
12 mmHg / 0.03 seconds
400 mmHg/s
RV dP/dt < 400 mmHg/s is
likely abnormal
RV dP/dt

Because of the lack of data in normal subjects, RV dP/dt
cannot be recommended for routine uses. It can be
considered in subjects with suspected RV dysfunction