Speckle Tracking Echocardiography of the Right Atrium: The Neglected Chamber

ABSTRACT The right atrium (RA) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic mechanical function make it distinct from ventricles. Various invasive and noninvasive techniques have been used to elucidate RA structure and f...

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Published inClinical cardiology (Mahwah, N.J.) Vol. 38; no. 11; pp. 692 - 697
Main Authors Rai, Aitzaz Bin Sultan, Lima, Eduardo, Munir, Farrukh, Faisal Khan, Anum, Waqas, Ahmed, Bughio, Sara, ul Haq, Ehtesham, Attique, Hassan Bin, Rahman, Zia Ur
Format Journal Article
LanguageEnglish
Published New York Wiley Periodicals, Inc 01.11.2015
John Wiley & Sons, Inc
Subjects
Atrial Function, Right
Biomechanical Phenomena
Echocardiography - methods
Heart Atria - diagnostic imaging
Heart Atria - physiopathology
Heart Diseases - diagnostic imaging
Heart Diseases - physiopathology
Humans
Image Processing, Computer-Assisted
Myocardial Contraction
Predictive Value of Tests
Prognosis
Review
Reviews
Stress, Mechanical
Online AccessGet full text

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Abstract ABSTRACT The right atrium (RA) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic mechanical function make it distinct from ventricles. Various invasive and noninvasive techniques have been used to elucidate RA structure and function. Of these modalities, echocardiography has distinct advantages over others. Several conventional measures of RA function through echocardiography have been described in the literature, but they are load dependent. A relatively new technique is speckle tracking–derived strain, which is relatively less dependent on loading conditions. Speckle tracking echocardiography tracks acoustic scatters (speckles) of myocardium frame‐by‐frame to calculate strain or deformation of the myocardium. Speckle tracking echocardiography has been used extensively for strain assessment of the right and left ventricle to detect subtle disease pathology, to gain mechanistic insight, as a marker of ischemic metabolic memory, as an endpoint in clinical trials, and as a functional assessment tool. The RA is a relatively neglected chamber, as it is mostly studied for assessment of atrial mass lesions, for electrophysiological studies, and in animal models for physiological assessment. However, its role in the systolic and diastolic function of the right heart, pulmonary vascular pathology, congenital heart diseases, and combined electromechanical activation phenomena has been less explored or unexplored. Speckle tracking echocardiography is an ideal tool for the assessment of the RA because of its regional and global functional characterization, angle independence, and high temporal resolution.
AbstractList ABSTRACT The right atrium ( RA ) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic mechanical function make it distinct from ventricles. Various invasive and noninvasive techniques have been used to elucidate RA structure and function. Of these modalities, echocardiography has distinct advantages over others. Several conventional measures of RA function through echocardiography have been described in the literature, but they are load dependent. A relatively new technique is speckle tracking–derived strain, which is relatively less dependent on loading conditions. Speckle tracking echocardiography tracks acoustic scatters (speckles) of myocardium frame‐by‐frame to calculate strain or deformation of the myocardium. Speckle tracking echocardiography has been used extensively for strain assessment of the right and left ventricle to detect subtle disease pathology, to gain mechanistic insight, as a marker of ischemic metabolic memory, as an endpoint in clinical trials, and as a functional assessment tool. The RA is a relatively neglected chamber, as it is mostly studied for assessment of atrial mass lesions, for electrophysiological studies, and in animal models for physiological assessment. However, its role in the systolic and diastolic function of the right heart, pulmonary vascular pathology, congenital heart diseases, and combined electromechanical activation phenomena has been less explored or unexplored. Speckle tracking echocardiography is an ideal tool for the assessment of the RA because of its regional and global functional characterization, angle independence, and high temporal resolution.
The right atrium ( RA ) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic mechanical function make it distinct from ventricles. Various invasive and noninvasive techniques have been used to elucidate RA structure and function. Of these modalities, echocardiography has distinct advantages over others. Several conventional measures of RA function through echocardiography have been described in the literature, but they are load dependent. A relatively new technique is speckle tracking–derived strain, which is relatively less dependent on loading conditions. Speckle tracking echocardiography tracks acoustic scatters (speckles) of myocardium frame‐by‐frame to calculate strain or deformation of the myocardium. Speckle tracking echocardiography has been used extensively for strain assessment of the right and left ventricle to detect subtle disease pathology, to gain mechanistic insight, as a marker of ischemic metabolic memory, as an endpoint in clinical trials, and as a functional assessment tool. The RA is a relatively neglected chamber, as it is mostly studied for assessment of atrial mass lesions, for electrophysiological studies, and in animal models for physiological assessment. However, its role in the systolic and diastolic function of the right heart, pulmonary vascular pathology, congenital heart diseases, and combined electromechanical activation phenomena has been less explored or unexplored. Speckle tracking echocardiography is an ideal tool for the assessment of the RA because of its regional and global functional characterization, angle independence, and high temporal resolution.
ABSTRACT The right atrium (RA) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic mechanical function make it distinct from ventricles. Various invasive and noninvasive techniques have been used to elucidate RA structure and function. Of these modalities, echocardiography has distinct advantages over others. Several conventional measures of RA function through echocardiography have been described in the literature, but they are load dependent. A relatively new technique is speckle tracking–derived strain, which is relatively less dependent on loading conditions. Speckle tracking echocardiography tracks acoustic scatters (speckles) of myocardium frame‐by‐frame to calculate strain or deformation of the myocardium. Speckle tracking echocardiography has been used extensively for strain assessment of the right and left ventricle to detect subtle disease pathology, to gain mechanistic insight, as a marker of ischemic metabolic memory, as an endpoint in clinical trials, and as a functional assessment tool. The RA is a relatively neglected chamber, as it is mostly studied for assessment of atrial mass lesions, for electrophysiological studies, and in animal models for physiological assessment. However, its role in the systolic and diastolic function of the right heart, pulmonary vascular pathology, congenital heart diseases, and combined electromechanical activation phenomena has been less explored or unexplored. Speckle tracking echocardiography is an ideal tool for the assessment of the RA because of its regional and global functional characterization, angle independence, and high temporal resolution.
The right atrium (RA) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic mechanical function make it distinct from ventricles. Various invasive and noninvasive techniques have been used to elucidate RA structure and function. Of these modalities, echocardiography has distinct advantages over others. Several conventional measures of RA function through echocardiography have been described in the literature, but they are load dependent. A relatively new technique is speckle tracking-derived strain, which is relatively less dependent on loading conditions. Speckle tracking echocardiography tracks acoustic scatters (speckles) of myocardium frame-by-frame to calculate strain or deformation of the myocardium. Speckle tracking echocardiography has been used extensively for strain assessment of the right and left ventricle to detect subtle disease pathology, to gain mechanistic insight, as a marker of ischemic metabolic memory, as an endpoint in clinical trials, and as a functional assessment tool. The RA is a relatively neglected chamber, as it is mostly studied for assessment of atrial mass lesions, for electrophysiological studies, and in animal models for physiological assessment. However, its role in the systolic and diastolic function of the right heart, pulmonary vascular pathology, congenital heart diseases, and combined electromechanical activation phenomena has been less explored or unexplored. Speckle tracking echocardiography is an ideal tool for the assessment of the RA because of its regional and global functional characterization, angle independence, and high temporal resolution.
Author Waqas, Ahmed
Bughio, Sara
Rai, Aitzaz Bin Sultan
Attique, Hassan Bin
ul Haq, Ehtesham
Munir, Farrukh
Rahman, Zia Ur
Lima, Eduardo
Faisal Khan, Anum
AuthorAffiliation 5 Department of Internal Medicine Bronx‐Lebanon Hospital Center Bronx New York
2 Department of cardiovascular medicine University of Oxford Oxford United Kingdom
8 Department of Internal Medicine East Tennessee State University Johnson City Tennessee
3 Department of Internal Medicine King Edward Medical University Lahore Pakistan
7 Department of Internal Medicine Hammad Medical Corporation Doha Qatar
4 Medical Student CMH Lahore Medical College & Institue of Dentistry Lahore Pakistan
1 Green Templeton College University of Oxford Oxford United Kingdom
6 Department of Cardiology University of South Alabama Mobile Alabama
AuthorAffiliation_xml – name: 3 Department of Internal Medicine King Edward Medical University Lahore Pakistan
– name: 2 Department of cardiovascular medicine University of Oxford Oxford United Kingdom
– name: 5 Department of Internal Medicine Bronx‐Lebanon Hospital Center Bronx New York
– name: 6 Department of Cardiology University of South Alabama Mobile Alabama
– name: 7 Department of Internal Medicine Hammad Medical Corporation Doha Qatar
– name: 4 Medical Student CMH Lahore Medical College & Institue of Dentistry Lahore Pakistan
– name: 8 Department of Internal Medicine East Tennessee State University Johnson City Tennessee
– name: 1 Green Templeton College University of Oxford Oxford United Kingdom
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  organization: East Tennessee State University
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Snippet ABSTRACT The right atrium (RA) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic...
The right atrium (RA) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic mechanical...
ABSTRACT The right atrium ( RA ) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic...
The right atrium ( RA ) plays a pivotal role in electromechanical and endocrine regulation of the heart. Its peculiar anatomical features and phasic mechanical...
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pubmed
wiley
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StartPage 692
SubjectTerms Atrial Function, Right
Biomechanical Phenomena
Echocardiography - methods
Heart Atria - diagnostic imaging
Heart Atria - physiopathology
Heart Diseases - diagnostic imaging
Heart Diseases - physiopathology
Humans
Image Processing, Computer-Assisted
Myocardial Contraction
Predictive Value of Tests
Prognosis
Review
Reviews
Stress, Mechanical
Title Speckle Tracking Echocardiography of the Right Atrium: The Neglected Chamber
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fclc.22438
https://www.ncbi.nlm.nih.gov/pubmed/26418622
https://www.proquest.com/docview/1757142531
https://search.proquest.com/docview/1760882018
https://pubmed.ncbi.nlm.nih.gov/PMC6490855
Volume 38
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