Technique or Treatment
LVEF can be calculated using various modalities, either subjectively by using visual estimation or objectively by quantitative methods. The preference is to employ quantitative measures to assess LVEF to minimize variability and favor more precision and accuracy in the measurement.
Non-invasive Assessment Modalities
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Invasive Assessment Modalities
Echocardiography
Currently, various methods can be used to measure LVEF using echocardiography. The methods used differ from each other based on the type of echocardiographic image used (M-mode, two-dimensional, or three-dimensional) and the equations used to determine left ventricular (LV) volumes. The measurements obtained can be linear (one-dimensional), area (two-dimensional), or volume (three-dimensional) measurements. Lack of ionizing radiation works in favor of echocardiography. The biplane method of disks (modified Simpson’s rule) is the currently recommended two-dimensional method to assess LVEF. Other methods listed below which rely heavily on geometric assumptions (i.e., modified quinones, ellipsoid model, hemisphere-cylinder model) are no longer recommended in clinical practice for the estimation of LVEF.
M-mode and T wo-dimensional Echocardiography
Algorithms from which Total LVEF, EDV, and ESV can be Calculated
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Three-dimensional Echocardiography
Because three-dimensional echo does not require geometric assumptions, it is felt to be the optimal way of measuring LVEF using echocardiography. LVEF derived from this modality would mostly require the data to be obtained over several heartbeats using special three-dimensional imaging probes. Unlike other M-mode and two-dimensional echocardiographic techniques, three-dimensional methods give a minimal explanation about the shape of the LV cavity. Compared to other echocardiographic methods, three-dimensional modality is known to be more accurate and far less variable because the entire LV cavity is detected.
MRI
LVEF can be obtained with MRI using manual, semi-automated or automated methods. Simpson disk summation method uses the short-axis cine steady-state free precession images of the LV to obtain LVEF. During the end-systole and end-diastole phase, short-axis images are obtained. LV endocardial borders are manually traced on each short-axis image to obtain the ventricular cavity area for each slice. Multiplying the area of the tracing for each image slice by the slice interval (image gap + slice thickness) gives the volume of the slice. LV volume is then derived by the addition of the volumes of the slices. LV shape needs to be determined in this technique as the entire LV cavity is traced. A well-defined endocardial border can be obtained with the use of high contrast. Calculation of LVEF with MRI does not necessarily require the use of ionizing radiation or contrast material.
CT
Lack of contrast results in poor differentiation on non-contrast CT images. As a result, iodinated contrast is used, which helps in differentiating blood and endocardial borders. The automated methods are used, which depend on Hounsfield unit measurements. These measurements and contrast play an important role in differentiating the LV cavity from the endocardium. LVEF can be calculated using the Simpson method. This involves generating and tracing reconstructed short-axis cine images of the heart. Determining the LV shape is essential as this technique involves the tracing of the entire LV cavity using the Simpson method. The definition of the endocardial border is directly related to the timing of the contrast bolus. Unlike the MRI, CT images are obtained with single breath hold. However, one has to take into consideration the patient’s poor renal function and contrast allergies while using the contrast material, which can limit the use of this modality.
Nuclear Cardiac Imaging
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There are different techniques available to calculate LVEF. The two most commonly employed nuclear cardiac imaging modalities to calculate LVEF are gated equilibrium radionuclide angiography (multiple-gated acquisition [MUGA] scan) and gated myocardial perfusion imaging with either single-photon emission computed tomography (SPECT) or positron emission tomography (PET) radionuclide angiography.
Radionuclide Angiography
This is a technique in which a patient’s red blood cells are labeled with technetium 99m pertechnetate. Planar images of the left ventricle are obtained. However, SPECT images can also be obtained. Planar imaging to calculate LVEF calculation requires differentiation of left and right ventricle with left anterior oblique projection. LV region of interest is determined, following which the radioactivity counts within that region are analyzed. Analyzing radioactivity counts within that identified region is important as this technique studies the changes in radioactivity in the left ventricle between the end-systolic phase and end-diastolic phase instead of truly measuring volumes of the left ventricle. ECG guidance is used to gate image acquisition over multiple cardiac cycles. Each cardiac cycle is later separated into a predetermined number of intervals (16 or 32), relating to the number of frames (images) per cardiac cycle. Frame with the highest count represents the end-diastole, and frame with the lowest count represents the end-systole.
LVEF can be calculated from the following equation: Net counts in the end-diastolic frame – net counts in the end-systolic frame/net counts in end-diastole. Net counts are determined by subtracting counts from a background region of interest (next to the left ventricle) from measured LV counts. This technique can be performed especially in patients whose body habitus limits the use of other modalities. It can be used in the course of cardiotoxic chemotherapy and/or subsequent to radiation to the anterior or left chest when echocardiography has not been helpful. Radionuclide angiography is also recommended when echocardiography has proven inadequate (e.g., COPD, obesity) or in the presence of significant resting wall motion abnormalities or distorted geometry. There are no contraindications to this modality.[5]
Gated Myocardial Perfusion Single-Photon Emission Computed Tomography and Positron Emission Tomography Technique
Radiolabelled myocardial perfusion agent such as technetium 99m-radiolabelled sestamibi or tetrofosmin is initially injected into a patient. Ammonia, rubidium, or fluorodeoxyglucose can be used as imaging agents. LVEF can be calculated along with a myocardial perfusion study. This helps in analyzing function and perfusion with one test. Imaging agents enter the myocardium once injected into the patient. ECG-gated images are obtained. The ECG gating helps in dividing the cardiac cycle into a pre-calculated number of frames (images) per each cycle (could be 8 or 16). Automated edge detection software plays an important role in analyzing reconstructed three-dimensional data to determine LVEF. This technique will require a three-dimensional data set as a result of which assumptions of the LV cavity need to be determined. The border between the high LV myocardium and the count poor LV cavity can be differentiated by the software used in the technique. EDV and ESV are the two important variables that can be obtained by calculating LV cavity volume during every cardiac cycle frame.
Left Ventricular Contrast Ventriculography During Invasive Catheterization
This technique requires a pigtail catheter to inject a contrast medium into the ventricular cavity. This position opacifies the cavity from the basal part up to the apex, does not hinder the mitral subvalvular apparatus, and causes little ventricular ectopic activity. Thirty degrees right oblique and 60 degrees left anterior oblique are the most commonly used views. The right anterior oblique view is cheaper and uses less radiation, and thus, is more commonly used. Various geometric methods have been developed that help in determining LVEF. These methods are based on determining ventricular volumes using mathematical models that assume that the ventricular cavity is symmetrical. Initially, ESV and EDV are calculated, which later help in determining the LVEF. The disk method (Simpson’s rule) and the Dodge-Sandler area-length method are the most commonly used mathematical methods. Dodge-Sandler area-length method is the most commonly used method because LV in the 30 degrees right anterior oblique view and 60 degrees left anterior oblique view resembles an ellipse. This makes the longitudinal axis of the ventricular cavity to coincide with the longitudinal axis of this shape. Ventricular volume is obtained by calculating the volume of the ellipsoid.
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