Imaging techniques in cardiac electrophysiology

Panutich, Michael; Knight, Bradley P.

doi:10.1586/14779072.4.1.59

Cited by 3 publications

(3 citation statements)

References 76 publications

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“…But to develop cost-effective real-time assessment techniques to diagnose the cardio electrophysiology pathologies can assist in disseminating the error-free information of the affected area of the patient for the further treatment procedure. Modern cardiac electrophysiology studies include catheter-based arrhythmia ablation and transvenous device implantation, which are highly dependent on accurate, real-time cardiac imaging and machine learning [4]. This era has been led to an explosion of advance technology especially machine learning.…”

Section: Introductionmentioning

confidence: 99%

Cardiac Electrophysiology Studies Based on Image and Machine Learning

Singh¹,

Deepa²,

Wu³

et al. 2018

JBET

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Cardiac Electrophysiology study is the origin and treatment of arrhythmia, which is an abnormality in the rate, regularity or sequence of cardiac activation. There has been considerable recent development in this field, where computational methods such as Imaging and Machine Learning for Cardiac Electrophysiology, provide the framework for cardiac re-modeling. In this research, we review various recent strategies currently available for the meeting the goal of structurally and functionally integrated models of cardiac function that combine data intensive cellular systems models with compute-intensive anatomically detailed multiscale simulations.

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Section: Introductionmentioning

confidence: 99%

Cardiac Electrophysiology Studies Based on Image and Machine Learning

Singh¹,

Deepa²,

Wu³

et al. 2018

JBET

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“…Intracardiac echo has been widely used in order to increase safety in electrophysiological procedures, 6,7 and particularly in atrial fibrillation ablation. [8][9][10] The image below refers to an intracardiac echo-guided transseptal puncture during ablation of persistent atrial fibrillation.…”

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confidence: 99%

Intracardiac echocardiographic thrombus detection just before transseptal puncture

Sciarra

Dottori²,

Ruvo³

et al. 2017

Journal of Cardiovascular Medicine

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“…Most cardiologists involved in the new imaging technologies believe that patient benefits are real. Electrophysiologists are using three‐dimensional visualization aid in ablative complex catheter based procedures by projecting real‐time catheter positions onto to static three‐dimensional images obtained pre‐procedure [2, 3].…”

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confidence: 99%

Three‐dimensional imaging is here and now: Time to prove its relevance

Schwartz¹

2007

Cathet Cardio Intervent

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I cannot help mocking all our unwavering certainties. It is, for example, great fun deliberately to confuse two and three dimensions, the plane and space. . . it is, for example, a pleasure knowingly to mix up two and three dimensionalities, flat and spatial, and to make fun of gravity. M.C. EscherHumankind has survived for millions of years by successfully interacting with a complex three-dimensional environment through three-dimensional vision. Although each eye sees a two-dimensional image, the eyes work in tandem and with more than 10 10 neurons in the visual cortex to reconstruct three-dimensional perception. Our three-dimensional spatial world moves, and we actually live in four dimensions, three of space and one of time.Medicine in general, and cardiology in specific, deals with complex three-dimensional anatomic structures moving in time. Yet despite our powerful three-dimensional visual capabilities, virtually all diagnostic technologies are constrained to two-dimensional images, usually compressing the third spatial dimension by techniques such as flat plate X-rays, requiring experience and expertise to make diagnoses through interpreting subtle shadows that indicate cardiovascular and intrathoracic pathology. Also, the catheterization laboratory relies on two-dimensional fluoroscopic projection images for making diagnoses, and performing intervention on complex coronary artery anatomy.At last these imaging limitations are yielding to exciting technologic developments permitting the cardiologist to interact with the heart and arteries in their full three-dimensionality. A revolution is underway in both interventional cardiac device research ( Fig. 1) and in clinical cardiac imaging (Fig. 2), made possible through immense computational image processing developed by the computer gaming industry.This article is important at several levels. It first implicitly questions whether coronary artery visualization in three dimensions is relevant. Although we can now perform three-dimensional imaging, evidence of relevance and utility is lacking. The author tested the relevance question and found a positive answer, concluding that three-dimensional visualization in stenting changed therapeutic decisions from what was planned based on traditional fluoroscopic data. This conclusion is not surprising given the complexity of coronary artery anatomy. It is thus an important, early article about the potential relevance for three-dimensional imaging in the catheterization laboratory. Other investigators have asked this question, and have concluded that threedimensional imaging has multiple benefits for understanding coronary anatomy including selecting optimal fluoroscopic visualization angles, and comprehending complex three-dimensional coronary arterial anatomy [1,2]. This cardiovascular imaging revolution requires new knowledge for the interventional cardiologist, including understanding tomographic anatomy, threedimensional reconstruction techniques, and familiarity with three-dimensional software.The article indirect...

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Imaging techniques in cardiac electrophysiology

Cited by 3 publications

References 76 publications

Cardiac Electrophysiology Studies Based on Image and Machine Learning

Cardiac Electrophysiology Studies Based on Image and Machine Learning

Intracardiac echocardiographic thrombus detection just before transseptal puncture

Three‐dimensional imaging is here and now: Time to prove its relevance

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