Mitral valve analysis using a novel 3D holographic display: a feasibility study of 3D ultrasound data converted to a holographic screen

Mitral valve analysis using a novel 3D holographic display: a feasibility study of 3D ultrasound data converted to a holographic screen

The aim of the present study was to test the feasibility of analyzing 3D ultrasound data on a novel holographic display. An increasing number of mini-invasive procedures for mitral valve repair require more effective visualization to improve patient safety and speed of procedures. A novel 3D hologra...

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Veröffentlicht in:International Journal of Cardiovascular Imaging 2015-02, Vol.31 (2), p.323-328
Hauptverfasser: Beitnes, Jan Otto, Klæboe, Lars Gunnar, Karlsen, Jørn Skaarud, Urheim, Stig
Format: Artikel
Sprache:eng
Schlagworte:
Adult
Aged
Cardiac Imaging
Cardiology
Echocardiography, Three-Dimensional - methods
Echocardiography, Transesophageal
Feasibility Studies
Female
Holography - methods
Humans
Image Interpretation, Computer-Assisted - methods
Imaging
Male
Medicine
Medicine & Public Health
Middle Aged
Mitral Valve - diagnostic imaging
Mitral Valve - surgery
Mitral Valve Insufficiency - diagnostic imaging
Mitral Valve Insufficiency - surgery
Mitral Valve Prolapse - diagnostic imaging
Mitral Valve Prolapse - surgery
Observer Variation
Original Paper
Predictive Value of Tests
Prospective Studies
Radiology
Reproducibility of Results
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container_end_page 328
container_issue 2
container_start_page 323
container_title International Journal of Cardiovascular Imaging
container_volume 31
creator Beitnes, Jan Otto
Klæboe, Lars Gunnar
Karlsen, Jørn Skaarud
Urheim, Stig
description The aim of the present study was to test the feasibility of analyzing 3D ultrasound data on a novel holographic display. An increasing number of mini-invasive procedures for mitral valve repair require more effective visualization to improve patient safety and speed of procedures. A novel 3D holographic display has been developed and may have the potential to guide interventional cardiac procedures in the near future. Forty patients with degenerative mitral valve disease were analyzed. All had complete 2D transthoracic (TTE) and transoesophageal (TEE) echocardiographic examinations. In addition, 3D TTE of the mitral valve was obtained and recordings were converted from the echo machine to the holographic screen. Visual inspection of the mitral valve during surgery or TEE served as the gold standard. 240 segments were analyzed by 2 independent observers. A total of 53 segments were prolapsing. The majority included P2 (31), the remaining located at A2 (8), A3 (6), P3 (5), P1 (2) and A1 (1). The sensitivity and specificity of the 3D display was 87 and 99 %, respectively (observer I), and for observer II 85 and 97 %, respectively. The accuracies and precisions were 96.7 and 97.9 %, respectively, (observer I), 94.3 and 88.2 % (observer II), and inter-observer agreement was 0.954 with Cohen’s Kappa 0.86. We were able to convert 3D ultrasound data to the holographic display. A very high accuracy and precision was shown, demonstrating the feasibility of analyzing 3D echo of the mitral valve on the holographic screen.
doi_str_mv 10.1007/s10554-014-0564-z
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An increasing number of mini-invasive procedures for mitral valve repair require more effective visualization to improve patient safety and speed of procedures. A novel 3D holographic display has been developed and may have the potential to guide interventional cardiac procedures in the near future. Forty patients with degenerative mitral valve disease were analyzed. All had complete 2D transthoracic (TTE) and transoesophageal (TEE) echocardiographic examinations. In addition, 3D TTE of the mitral valve was obtained and recordings were converted from the echo machine to the holographic screen. Visual inspection of the mitral valve during surgery or TEE served as the gold standard. 240 segments were analyzed by 2 independent observers. A total of 53 segments were prolapsing. The majority included P2 (31), the remaining located at A2 (8), A3 (6), P3 (5), P1 (2) and A1 (1). The sensitivity and specificity of the 3D display was 87 and 99 %, respectively (observer I), and for observer II 85 and 97 %, respectively. The accuracies and precisions were 96.7 and 97.9 %, respectively, (observer I), 94.3 and 88.2 % (observer II), and inter-observer agreement was 0.954 with Cohen’s Kappa 0.86. We were able to convert 3D ultrasound data to the holographic display. A very high accuracy and precision was shown, demonstrating the feasibility of analyzing 3D echo of the mitral valve on the holographic screen.</abstract><cop>Dordrecht</cop><pub>Springer Netherlands</pub><pmid>25392054</pmid><doi>10.1007/s10554-014-0564-z</doi><tpages>6</tpages></addata></record>
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subjects Adult
Aged
Cardiac Imaging
Cardiology
Echocardiography, Three-Dimensional - methods
Echocardiography, Transesophageal
Feasibility Studies
Female
Holography - methods
Humans
Image Interpretation, Computer-Assisted - methods
Imaging
Male
Medicine
Medicine & Public Health
Middle Aged
Mitral Valve - diagnostic imaging
Mitral Valve - surgery
Mitral Valve Insufficiency - diagnostic imaging
Mitral Valve Insufficiency - surgery
Mitral Valve Prolapse - diagnostic imaging
Mitral Valve Prolapse - surgery
Observer Variation
Original Paper
Predictive Value of Tests
Prospective Studies
Radiology
Reproducibility of Results
title Mitral valve analysis using a novel 3D holographic display: a feasibility study of 3D ultrasound data converted to a holographic screen
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