Interactive visualization for scar transmurality in cardiac resynchronization therapy

Sabrina Reiml; Daniel Toth; Maria Panayiotou; Bernhard Fahn; Rashed Karim; Jonathan M. Behar; Christopher A. Rinaldi; Reza Razavi; Kawal S. Rhode; Alexander Brost; Peter Mountney

doi:10.1117/12.2214737

Interactive visualization for scar transmurality in cardiac resynchronization therapy

Sabrina Reiml^*, Daniel Toth, Maria Panayiotou, Bernhard Fahn, Rashed Karim, Jonathan M. Behar, Christopher A. Rinaldi, Reza Razavi, Kawal S. Rhode, Alexander Brost, Peter Mountney

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Poster abstract › peer-review

3 Citations (Scopus)

Abstract

Heart failure is a serious disease affecting about 23 million people worldwide. Cardiac resynchronization therapy is used to treat patients suffering from symptomatic heart failure. However, 30% to 50% of patients have limited clinical benefit. One of the main causes is suboptimal placement of the left ventricular lead. Pacing in areas of myocardial scar correlates with poor clinical outcomes. Therefore precise knowledge of the individual patient's scar characteristics is critical for delivering tailored treatments capable of improving response rates. Current research methods for scar assessment either map information to an alternative non-anatomical coordinate system or they use the image coordinate system but lose critical information about scar extent and scar distribution. This paper proposes two interactive methods for visualizing relevant scar information. A 2-D slice based approach with a scar mask overlaid on a 16 segment heart model and a 3-D layered mesh visualization which allows physicians to scroll through layers of scar from endocardium to epicardium. These complementary methods enable physicians to evaluate scar location and transmurality during planning and guidance. Six physicians evaluated the proposed system by identifying target regions for lead placement. With the proposed method more target regions could be identified.

Original language	English
Title of host publication	Progress in Biomedical Optics and Imaging - Proceedings of SPIE
Publisher	SPIE
Volume	9786
ISBN (Print)	9781510600218
DOIs	https://doi.org/10.1117/12.2214737
Publication status	Published - 18 Mar 2016
Event	Medical Imaging 2016: Image-Guided Procedures, Robotic Interventions, and Modeling - San Diego, United States Duration: 28 Feb 2016 → 1 Mar 2016

Conference

Conference	Medical Imaging 2016: Image-Guided Procedures, Robotic Interventions, and Modeling
Country/Territory	United States
City	San Diego
Period	28/02/2016 → 1/03/2016

Keywords

Cardiac Resynchronization Therapy
Cardiology
Device Implantation
Electrophysiology
Scar
Transmurality
Visualization

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10.1117/12.2214737

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Reiml, S., Toth, D., Panayiotou, M., Fahn, B., Karim, R., Behar, J. M., Rinaldi, C. A., Razavi, R., Rhode, K. S., Brost, A., & Mountney, P. (2016). Interactive visualization for scar transmurality in cardiac resynchronization therapy. In Progress in Biomedical Optics and Imaging - Proceedings of SPIE (Vol. 9786). Article 97862S SPIE. https://doi.org/10.1117/12.2214737

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title = "Interactive visualization for scar transmurality in cardiac resynchronization therapy",

abstract = "Heart failure is a serious disease affecting about 23 million people worldwide. Cardiac resynchronization therapy is used to treat patients suffering from symptomatic heart failure. However, 30% to 50% of patients have limited clinical benefit. One of the main causes is suboptimal placement of the left ventricular lead. Pacing in areas of myocardial scar correlates with poor clinical outcomes. Therefore precise knowledge of the individual patient's scar characteristics is critical for delivering tailored treatments capable of improving response rates. Current research methods for scar assessment either map information to an alternative non-anatomical coordinate system or they use the image coordinate system but lose critical information about scar extent and scar distribution. This paper proposes two interactive methods for visualizing relevant scar information. A 2-D slice based approach with a scar mask overlaid on a 16 segment heart model and a 3-D layered mesh visualization which allows physicians to scroll through layers of scar from endocardium to epicardium. These complementary methods enable physicians to evaluate scar location and transmurality during planning and guidance. Six physicians evaluated the proposed system by identifying target regions for lead placement. With the proposed method more target regions could be identified.",

keywords = "Cardiac Resynchronization Therapy, Cardiology, Device Implantation, Electrophysiology, Scar, Transmurality, Visualization",

author = "Sabrina Reiml and Daniel Toth and Maria Panayiotou and Bernhard Fahn and Rashed Karim and Behar, {Jonathan M.} and Rinaldi, {Christopher A.} and Reza Razavi and Rhode, {Kawal S.} and Alexander Brost and Peter Mountney",

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booktitle = "Progress in Biomedical Optics and Imaging - Proceedings of SPIE",

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Reiml, S, Toth, D , Panayiotou, M, Fahn, B, Karim, R , Behar, JM , Rinaldi, CA , Razavi, R , Rhode, KS, Brost, A & Mountney, P 2016, Interactive visualization for scar transmurality in cardiac resynchronization therapy. in Progress in Biomedical Optics and Imaging - Proceedings of SPIE. vol. 9786, 97862S, SPIE, Medical Imaging 2016: Image-Guided Procedures, Robotic Interventions, and Modeling, San Diego, United States, 28/02/2016. https://doi.org/10.1117/12.2214737

TY - CHAP

T1 - Interactive visualization for scar transmurality in cardiac resynchronization therapy

AU - Reiml, Sabrina

AU - Toth, Daniel

AU - Panayiotou, Maria

AU - Fahn, Bernhard

AU - Karim, Rashed

AU - Behar, Jonathan M.

AU - Rinaldi, Christopher A.

AU - Razavi, Reza

AU - Rhode, Kawal S.

AU - Brost, Alexander

AU - Mountney, Peter

PY - 2016/3/18

Y1 - 2016/3/18

N2 - Heart failure is a serious disease affecting about 23 million people worldwide. Cardiac resynchronization therapy is used to treat patients suffering from symptomatic heart failure. However, 30% to 50% of patients have limited clinical benefit. One of the main causes is suboptimal placement of the left ventricular lead. Pacing in areas of myocardial scar correlates with poor clinical outcomes. Therefore precise knowledge of the individual patient's scar characteristics is critical for delivering tailored treatments capable of improving response rates. Current research methods for scar assessment either map information to an alternative non-anatomical coordinate system or they use the image coordinate system but lose critical information about scar extent and scar distribution. This paper proposes two interactive methods for visualizing relevant scar information. A 2-D slice based approach with a scar mask overlaid on a 16 segment heart model and a 3-D layered mesh visualization which allows physicians to scroll through layers of scar from endocardium to epicardium. These complementary methods enable physicians to evaluate scar location and transmurality during planning and guidance. Six physicians evaluated the proposed system by identifying target regions for lead placement. With the proposed method more target regions could be identified.

AB - Heart failure is a serious disease affecting about 23 million people worldwide. Cardiac resynchronization therapy is used to treat patients suffering from symptomatic heart failure. However, 30% to 50% of patients have limited clinical benefit. One of the main causes is suboptimal placement of the left ventricular lead. Pacing in areas of myocardial scar correlates with poor clinical outcomes. Therefore precise knowledge of the individual patient's scar characteristics is critical for delivering tailored treatments capable of improving response rates. Current research methods for scar assessment either map information to an alternative non-anatomical coordinate system or they use the image coordinate system but lose critical information about scar extent and scar distribution. This paper proposes two interactive methods for visualizing relevant scar information. A 2-D slice based approach with a scar mask overlaid on a 16 segment heart model and a 3-D layered mesh visualization which allows physicians to scroll through layers of scar from endocardium to epicardium. These complementary methods enable physicians to evaluate scar location and transmurality during planning and guidance. Six physicians evaluated the proposed system by identifying target regions for lead placement. With the proposed method more target regions could be identified.

KW - Cardiac Resynchronization Therapy

KW - Cardiology

KW - Device Implantation

KW - Electrophysiology

KW - Scar

KW - Transmurality

KW - Visualization

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M3 - Poster abstract

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BT - Progress in Biomedical Optics and Imaging - Proceedings of SPIE

PB - SPIE

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Y2 - 28 February 2016 through 1 March 2016

ER -

Interactive visualization for scar transmurality in cardiac resynchronization therapy

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