Two-dimensional tracking and TDI are consistent methods for evaluating myocardial longitudinal peak strain in left and right ventricle basal segments in athletes

BACKGROUND: Myocardial contractility can be investigated using longitudinal peak strain. It can be calculated using the Doppler-derived TDI method and the non-Doppler method based on tissue tracking on B-mode images. Both are validated and show good reproducibility, but no comparative analysis of th...

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Autores principales: Stefani, Laura, Toncelli, Loira, Gianassi, Marco, Manetti, Paolo, Di Tante, Valentina, Vono, Maria Robertina Concetta, Moretti, Andrea, Cappelli, Brunello, Pedrizzetti, Gianni, Galanti, Giorgio
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2007
Materias:
Technical Notes
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1802752/
https://www.ncbi.nlm.nih.gov/pubmed/17286850
http://dx.doi.org/10.1186/1476-7120-5-7
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author Stefani, Laura
Toncelli, Loira
Gianassi, Marco
Manetti, Paolo
Di Tante, Valentina
Vono, Maria Robertina Concetta
Moretti, Andrea
Cappelli, Brunello
Pedrizzetti, Gianni
Galanti, Giorgio
author_facet Stefani, Laura
Toncelli, Loira
Gianassi, Marco
Manetti, Paolo
Di Tante, Valentina
Vono, Maria Robertina Concetta
Moretti, Andrea
Cappelli, Brunello
Pedrizzetti, Gianni
Galanti, Giorgio
author_sort Stefani, Laura
collection PubMed
description BACKGROUND: Myocardial contractility can be investigated using longitudinal peak strain. It can be calculated using the Doppler-derived TDI method and the non-Doppler method based on tissue tracking on B-mode images. Both are validated and show good reproducibility, but no comparative analysis of their results has yet been conducted. This study analyzes the results obtained from the basal segments of the ventricular chambers in a group of athletes. METHODS: 30 regularly-trained athletes were submitted to an echocardiography at rest and after handgrip. Starting from the four-chamber view, overall myocardial function and regional velocities were evaluated. The images obtained were processed to determine strain in left and right ventricle basal segments. Strain was calculated using the TDI method and a validated "speckle tracking" or, more correctly, "feature tracking" algorithm. The statistical analysis included a Student's t-test (p < 0.05). RESULTS: The range of strain values obtained is in agreement with the data reported in the literature. In the left ventricle (LV) the average strain values of the basal segments calculated with TDI on IVS and LW at rest and after stress were: -21.05 ± 3.31; -20.41 ± 2.99 and -20.05 ± 2.61; -21.20 ± 2.37, respectively. In the right ventricle (RV) the same method gave IVS and LW strain values at rest of -22.22 ± 2.58 ; -24.42 ± 5.84, and after HG of -22.02 ± 5.20 ;-23.93 ± 6.34. The values obtained using feature tracking were: LV at rest -20.48 ± 2.65 for IVS, and -21.25 ± 2.85 for LW; LV after HG: -19.48 ± 3 for IVS and -21.69 ± 3.85 for LW. In RV at rest: -21.46 ± 3.25 for IVS and -24.13 ± 5.86 for LW; RV after HG: -24.79 ± 7.9 for IVS and -24.13 ± 7.0 for LW. Tissue Doppler and "feature tracking" methods showed the respective consistency of the results in the basal segments of myocardial ventricle walls. CONCLUSION: Provided that echographic imaging is good, strain can be computed in athletes by both Doppler-derived and tracking methods. It is technically feasible to use both -interchangeably, at least in basal segments.
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spelling pubmed-18027522007-02-22 Two-dimensional tracking and TDI are consistent methods for evaluating myocardial longitudinal peak strain in left and right ventricle basal segments in athletes Stefani, Laura Toncelli, Loira Gianassi, Marco Manetti, Paolo Di Tante, Valentina Vono, Maria Robertina Concetta Moretti, Andrea Cappelli, Brunello Pedrizzetti, Gianni Galanti, Giorgio Cardiovasc Ultrasound Technical Notes BACKGROUND: Myocardial contractility can be investigated using longitudinal peak strain. It can be calculated using the Doppler-derived TDI method and the non-Doppler method based on tissue tracking on B-mode images. Both are validated and show good reproducibility, but no comparative analysis of their results has yet been conducted. This study analyzes the results obtained from the basal segments of the ventricular chambers in a group of athletes. METHODS: 30 regularly-trained athletes were submitted to an echocardiography at rest and after handgrip. Starting from the four-chamber view, overall myocardial function and regional velocities were evaluated. The images obtained were processed to determine strain in left and right ventricle basal segments. Strain was calculated using the TDI method and a validated "speckle tracking" or, more correctly, "feature tracking" algorithm. The statistical analysis included a Student's t-test (p < 0.05). RESULTS: The range of strain values obtained is in agreement with the data reported in the literature. In the left ventricle (LV) the average strain values of the basal segments calculated with TDI on IVS and LW at rest and after stress were: -21.05 ± 3.31; -20.41 ± 2.99 and -20.05 ± 2.61; -21.20 ± 2.37, respectively. In the right ventricle (RV) the same method gave IVS and LW strain values at rest of -22.22 ± 2.58 ; -24.42 ± 5.84, and after HG of -22.02 ± 5.20 ;-23.93 ± 6.34. The values obtained using feature tracking were: LV at rest -20.48 ± 2.65 for IVS, and -21.25 ± 2.85 for LW; LV after HG: -19.48 ± 3 for IVS and -21.69 ± 3.85 for LW. In RV at rest: -21.46 ± 3.25 for IVS and -24.13 ± 5.86 for LW; RV after HG: -24.79 ± 7.9 for IVS and -24.13 ± 7.0 for LW. Tissue Doppler and "feature tracking" methods showed the respective consistency of the results in the basal segments of myocardial ventricle walls. CONCLUSION: Provided that echographic imaging is good, strain can be computed in athletes by both Doppler-derived and tracking methods. It is technically feasible to use both -interchangeably, at least in basal segments. BioMed Central 2007-02-07 /pmc/articles/PMC1802752/ /pubmed/17286850 http://dx.doi.org/10.1186/1476-7120-5-7 Text en Copyright © 2007 Stefani et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( (http://creativecommons.org/licenses/by/2.0) ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Technical Notes
Stefani, Laura
Toncelli, Loira
Gianassi, Marco
Manetti, Paolo
Di Tante, Valentina
Vono, Maria Robertina Concetta
Moretti, Andrea
Cappelli, Brunello
Pedrizzetti, Gianni
Galanti, Giorgio
Two-dimensional tracking and TDI are consistent methods for evaluating myocardial longitudinal peak strain in left and right ventricle basal segments in athletes
title Two-dimensional tracking and TDI are consistent methods for evaluating myocardial longitudinal peak strain in left and right ventricle basal segments in athletes
title_full Two-dimensional tracking and TDI are consistent methods for evaluating myocardial longitudinal peak strain in left and right ventricle basal segments in athletes
title_fullStr Two-dimensional tracking and TDI are consistent methods for evaluating myocardial longitudinal peak strain in left and right ventricle basal segments in athletes
title_full_unstemmed Two-dimensional tracking and TDI are consistent methods for evaluating myocardial longitudinal peak strain in left and right ventricle basal segments in athletes
title_short Two-dimensional tracking and TDI are consistent methods for evaluating myocardial longitudinal peak strain in left and right ventricle basal segments in athletes
title_sort two-dimensional tracking and tdi are consistent methods for evaluating myocardial longitudinal peak strain in left and right ventricle basal segments in athletes
topic Technical Notes
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1802752/
https://www.ncbi.nlm.nih.gov/pubmed/17286850
http://dx.doi.org/10.1186/1476-7120-5-7
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