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עמוד בית
Fri, 22.11.24

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August 2019
Marina Leitman MD, Yan Topilsky MD, Vladimir Tyomkin MSc, Shemy Carasso MD, Sara Shimoni MD, Sorel Goland MD, Sagit Ben Zekry MD, Alik Sagie MD, Noah Liel Cohen MD, Chaim Yosefy MD and Rоnen Beeri MD

The output settings of echocardiographic systems should be set to the full (original) frame rate and lossless compression (e.g., run-length encoding) in order to transmit echocardiographic videos so that they retain their original quality. In addition, monitors and display cards of echocardiography systems and workstations should be able to support an adaptive refresh rate for displaying video at an arbitrary frame rate, including a high frame rate (90+ fps) without dropping frames and preserving the original frame duration. Currently, the only available option for echocardiography monitors is 144–165 Hz (or higher) based on adaptive frame rate G-Sync or FreeSync technology monitors. These monitors should be accompanied by compatible display cards. Echocardiography systems and workstation video playback software should support G-Sync or FreeSync adaptive frame rate technology to display echocardiography videos at their original frame rates without the effects of jitter and frame drops. Echocardiography systems should support an online display of the videos on the workstations during acquisition with the original quality. The requirements for web-based workstations are the same as for desktops workstations. Hospital digital networks should provide transmission and long-term archiving of the echocardiographic videos in their original acquisition quality.

December 2018
Sorel Goland MD, Irena Fugenfirov MD, Igor Volodarsky MD, Hadass Aronson MD, Liaz Zilberman MD, Sara Shimoni MD and Jacob George MD

Background: Early identification of patients with a likelihood of cardiac improvement has important implications for management strategies.

Objectives: To evaluate whether tissue Doppler imaging (TDI) and two-dimensional (2D) strain measures may predict left ventricular (LV) improvement in patients with recent onset dilated cardiomyopathy (ROCM).

Methods: Clinical and comprehensive echo were performed at baseline and at 6 months. Patients who achieved an increase of ≥ 10 LV ejection fraction (LVEF) units and LV reverse remodeling (LVRR) (group 1) and those who improved beyond the device threshold achieving LVEF of ≥ 0.40 (group 2) were compared to patients who did not improve to this level.

Results: Among 37 patients with ROCM (mean age 56.3 ± 12.9 years and LVEF 29.1 ± 7.0%), 48% achieved LVEF ≥ 0.40 and 37.8% demonstrated LVRR. Patients with LVEF improvement ≥ 40% presented at diagnosis with higher LVEF (P = 0.006), smaller LV end-diastolic diameter (LVEDd) (P = 0.04), higher E’ septal (P = 0.02), lower E/E’ ratio (P = 0.02), increased circumferential strain (P = 0.04), and apical rotation (P = 0.009). Apical rotation and LVEDd were found to be independent predictors of LVRR. End-systolic LV volume was a significant predictor of LVEF improvement (≥ 40%).

Conclusions: Nearly half of the patients with ROCM demonstrated cardiac function improvement beyond the device threshold by 6 months. Apical rotation was introduced in our study as 2D strain prognostic parameter and found to be an independent predictor of LVRR. LV size and volume were predictors of LV improvement.

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