Strain and strain rate: An emerging technology in the perioperative period.
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Date
2016-01
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Abstract
Newer noninvasive parameters are being used for perioperative detection of myocardial ischaemia. TDI and
global strain rate are some of these parameters. TDI signal is a modification of the routine Doppler flow signal.
It is obtained by using thresholding and filtering algorithms that reject echoes originating from the blood pool
(by-passing the high pass filter). Set-Up of the machine by activating the TDI function allows decreasing the
system gain using a low pass filter and eliminates the signal produced by blood flow. Doppler shift obtained
from myocardial tissue motion are of higher amplitudes (reflectivity 40 dB higher) and move about 10 times
slower than blood (velocity range: 0.06 to 0.24 m/s). Speckle tracking echocardiography (tissue tracking, 2D
strain) utilizes routine gray-scale 2D echo images to calculate myocardial strain. Interactions of ultrasound with
myocardium result in reflection and scattering. These interactions generate a finely gray-shaded, speckled
pattern (acoustic marker). This speckled pattern is unique for each myocardial region and relatively stable
throughout the cardiac cycle. Spatial and temporal image processing of acoustic speckles in both 2D and
3D allows for the calculation of myocardial velocity, strain, and Strain rate.
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Keywords
Speckle tracking, Strain, Strain rate
Citation
Malik Vishwas, Subramaniam Arun, Kapoor Poonam Malhotra. Strain and strain rate: An emerging technology in the perioperative period. Annals of Cardiac Anaesthesia. 2016 Jan; 19(1): 112-121.