Literature DB >> 31065438

Integrated RFA/PSOCT catheter for real-time guidance of cardiac radio-frequency ablation.

Xiaowei Zhao1,2, Xiaoyong Fu1,2, Colin Blumenthal3, Yves T Wang1,4, Michael W Jenkins1,4, Christopher Snyder4,5, Mauricio Arruda6, Andrew M Rollins1.   

Abstract

Radiofrequency ablation (RFA) is an important standard therapy for cardiac arrhythmias, but direct monitoring of tissue treatment is currently lacking. We demonstrate an RFA catheter integrated with polarization sensitive optical coherence tomography (PSOCT) for directly monitoring the RFA process in real time. The integrated RFA/OCT catheter was modified from a standard clinical RFA catheter and includes a miniature forward-viewing cone-scanning OCT probe. The PSOCT system was validated with a quarter-wave plate while the RFA function of the integrated catheter was validated by comparing lesion sizes with those made with an unmodified RFA catheter. Additionally, the integrated catheter guided catheter-tissue apposition and monitored RFA lesion formation in cardiac tissue in real time. The results show that catheter-tissue contact can be characterized by observing the features of the blood and tissue in the acquired OCT images and that RFA lesion formation can be confirmed by monitoring the change in phase retardance in the acquired PSOCT images. This system demonstrates the feasibility of an integrated RFA/OCT catheter to deliver RF energy and image the cardiac wall simultaneously and justifies further research into use of this technology to aid RFA therapy for cardiac arrhythmias.

Entities:  

Keywords:  (110.4500) Optical coherence tomography; (170.2150) Endoscopic imaging; (170.3890) Medical optics instrumentation

Year:  2018        PMID: 31065438      PMCID: PMC6490984          DOI: 10.1364/BOE.9.006400

Source DB:  PubMed          Journal:  Biomed Opt Express        ISSN: 2156-7085            Impact factor:   3.732


  31 in total

1.  Histologic signatures of thermal injury: applications in transmyocardial laser revascularization and radiofrequency ablation.

Authors:  P Whittaker; S Zheng; M J Patterson; R A Kloner; K E Daly; R A Hartman
Journal:  Lasers Surg Med       Date:  2000       Impact factor: 4.025

2.  In vivo burn depth determination by high-speed fiber-based polarization sensitive optical coherence tomography.

Authors:  B H Park; C Saxer; S M Srinivas; J S Nelson; J F de Boer
Journal:  J Biomed Opt       Date:  2001-10       Impact factor: 3.170

3.  Real-time lesion assessment using a novel combined ultrasound and radiofrequency ablation catheter.

Authors:  Matthew Wright; Erik Harks; Szabolcs Deladi; Freek Suijver; Maya Barley; Anneke van Dusschoten; Steven Fokkenrood; Fei Zuo; Frédéric Sacher; Mélèze Hocini; Michel Haïssaguerre; Pierre Jaïs
Journal:  Heart Rhythm       Date:  2010-10-31       Impact factor: 6.343

4.  Real-time monitoring of cardiac radio-frequency ablation lesion formation using an optical coherence tomography forward-imaging catheter.

Authors:  Christine P Fleming; Hui Wang; Kara J Quan; Andrew M Rollins
Journal:  J Biomed Opt       Date:  2010 May-Jun       Impact factor: 3.170

5.  Toward guidance of epicardial cardiac radiofrequency ablation therapy using optical coherence tomography.

Authors:  Christine P Fleming; Kara J Quan; Andrew M Rollins
Journal:  J Biomed Opt       Date:  2010 Jul-Aug       Impact factor: 3.170

6.  Real-time magnetic resonance imaging-guided radiofrequency atrial ablation and visualization of lesion formation at 3 Tesla.

Authors:  Gaston R Vergara; Sathya Vijayakumar; Eugene G Kholmovski; Joshua J E Blauer; Mike A Guttman; Christopher Gloschat; Gene Payne; Kamal Vij; Nazem W Akoum; Marcos Daccarett; Christopher J McGann; Rob S Macleod; Nassir F Marrouche
Journal:  Heart Rhythm       Date:  2010-10-27       Impact factor: 6.343

7.  Measurement and imaging of birefringence and optic axis orientation by phase resolved polarization sensitive optical coherence tomography.

Authors:  C Hitzenberger; E Goetzinger; M Sticker; M Pircher; A Fercher
Journal:  Opt Express       Date:  2001-12-17       Impact factor: 3.894

8.  In vitro characterization of cardiac radiofrequency ablation lesions using optical coherence tomography.

Authors:  Christine P Fleming; Kara J Quan; Hui Wang; Guy Amit; Andrew M Rollins
Journal:  Opt Express       Date:  2010-02-01       Impact factor: 3.894

9.  Catheter ablation for atrial fibrillation: are results maintained at 5 years of follow-up?

Authors:  Rukshen Weerasooriya; Paul Khairy; Jean Litalien; Laurent Macle; Meleze Hocini; Frederic Sacher; Nicolas Lellouche; Sebastien Knecht; Matthew Wright; Isabelle Nault; Shinsuke Miyazaki; Christophe Scavee; Jacques Clementy; Michel Haissaguerre; Pierre Jais
Journal:  J Am Coll Cardiol       Date:  2011-01-11       Impact factor: 24.094

10.  Endoscopically guided spectral-domain OCT with double-balloon catheters.

Authors:  Wei Kang; Hui Wang; Yinsheng Pan; Michael W Jenkins; Gerard A Isenberg; Amitabh Chak; Matthew Atkinson; Deepak Agrawal; Zhilin Hu; Andrew M Rollins
Journal:  Opt Express       Date:  2010-08-02       Impact factor: 3.894
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  12 in total

Review 1.  A Percutaneous Catheter for In Vivo Hyperspectral Imaging of Cardiac Tissue: Challenges, Solutions and Future Directions.

Authors:  Kenneth Armstrong; Cinnamon Larson; Huda Asfour; Terry Ransbury; Narine Sarvazyan
Journal:  Cardiovasc Eng Technol       Date:  2020-07-14       Impact factor: 2.495

2.  Steerable OCT catheter for real-time assistance during teleoperated endoscopic treatment of colorectal cancer.

Authors:  Oscar Caravaca Mora; Philippe Zanne; Lucile Zorn; Florent Nageotte; Natalia Zulina; Sara Gravelyn; Paul Montgomery; Michel de Mathelin; Bernard Dallemagne; Michalina J Gora
Journal:  Biomed Opt Express       Date:  2020-02-03       Impact factor: 3.732

3.  Characterization of the human myocardium by optical coherence tomography.

Authors:  Yu Gan; Theresa H Lye; Charles C Marboe; Christine P Hendon
Journal:  J Biophotonics       Date:  2019-08-26       Impact factor: 3.207

4.  Balloon catheter-based radiofrequency ablation monitoring in porcine esophagus using optical coherence tomography.

Authors:  William C Y Lo; Néstor Uribe-Patarroyo; Katharina Hoebel; Kathy Beaudette; Martin Villiger; Norman S Nishioka; Benjamin J Vakoc; Brett E Bouma
Journal:  Biomed Opt Express       Date:  2019-03-28       Impact factor: 3.732

5.  Monitoring of irrigated lesion formation with single fiber based multispectral system using machine learning.

Authors:  Soo Young Park; Rajinder P Singh-Moon; Haiqiu Yang; Christine P Hendon
Journal:  J Biophotonics       Date:  2022-06-15       Impact factor: 3.390

6.  Cardiac endocardial left atrial substrate and lesion depth mapping using near-infrared spectroscopy.

Authors:  Soo Young Park; Haiqiu Yang; Charles Marboe; Ohad Ziv; Kenneth Laurita; Andrew Rollins; Deepak Saluja; Christine P Hendon
Journal:  Biomed Opt Express       Date:  2022-03-02       Impact factor: 3.562

7.  Intracardiac radiofrequency ablation in living swine guided by polarization-sensitive optical coherence tomography.

Authors:  Xiaowei Zhao; Orhan Kilinc; Colin J Blumenthal; Deniz Dosluoglu; Michael W Jenkins; Christopher S Snyder; Mauricio Arruda; Andrew M Rollins
Journal:  J Biomed Opt       Date:  2020-05       Impact factor: 3.170

8.  Real-time photoacoustic assessment of radiofrequency ablation lesion formation in the left atrium.

Authors:  Sophinese Iskander-Rizk; Pieter Kruizinga; Robert Beurskens; Geert Springeling; Frits Mastik; Natasja M S de Groot; Paul Knops; Antonius F W van der Steen; Gijs van Soest
Journal:  Photoacoustics       Date:  2019-11-30

9.  Imaging of subendocardial adipose tissue and fiber orientation distributions in the human left atrium using optical coherence tomography.

Authors:  Theresa H Lye; Charles C Marboe; Christine P Hendon
Journal:  J Cardiovasc Electrophysiol       Date:  2019-11-05

10.  Independent prognostic value of HIF-1α expression in radiofrequency ablation of lung cancer.

Authors:  Jun Wan; Xiean Ling; Zhanpeng Rao; Bin Peng; Guanggui Ding
Journal:  Oncol Lett       Date:  2019-11-21       Impact factor: 2.967
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