Optical Mapping Approaches to Cardiac Electrophysiological Functions.

Sakai, Tetsuro; Kamino, Kohtaro

doi:10.2170/jjphysiol.51.1

Cited by 17 publications

(18 citation statements)

References 116 publications

(128 reference statements)

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“…After staining, the preparations were washed with several changes of normal bathing solution containing BDM. Neither phototoxic effects nor pharmacological actions could be observed using this dye, of which the bleaching time was fairly long [1][2][3][4][5].…”

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“…Electrical pacing at 1 Hz evoked the events of tachycardia-like excitation (TE).Key words: multiple-site optical recording, tachycardia-like excitation, pacing.Optical methods for monitoring membrane potential activity using fast voltage-sensitive dyes, which have several advantages over more conventional electrophysiological techniques, have provided a powerful tool for the mapping studies of excitation spread under arrhythmic conditions [1,2]. These studies are indispensable for understanding the mechanism(s) of the generation and the maintenance of cardiac arrhythmias, in which reentry and/or abnormal automatism may take part.…”

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Optical Mapping of Tachycardia-Like Excitation Evoked by Pacing in the Isolated Rat Atrium

Sakai

2004

JJP

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Multiple-site optical recording of membrane potential activity using a voltage-sensitive dye was employed to monitor action potentials in the rat atrium. Electrical pacing at 1 Hz evoked the events of tachycardia-like excitation (TE).Key words: multiple-site optical recording, tachycardia-like excitation, pacing.Optical methods for monitoring membrane potential activity using fast voltage-sensitive dyes, which have several advantages over more conventional electrophysiological techniques, have provided a powerful tool for the mapping studies of excitation spread under arrhythmic conditions [1,2]. These studies are indispensable for understanding the mechanism(s) of the generation and the maintenance of cardiac arrhythmias, in which reentry and/or abnormal automatism may take part.We have been using optical methods with merocyanine-rhodanine dyes and a multiple-element photodiode array. Formerly, we optically assessed the ontogenetic development of the conduction pattern of excitations in early embryonic hearts [1]. We have also mapped the excitation spread pattern in adult hearts [3][4][5]. In a previous study [4,5], using a voltage-sensitive merocyanine-rhodanine dye together with a 16 × 16 or 12 × 12 element photodiode array, we optically mapped the excitation spread in the isolated rat atrial preparation during the abnormal state of atrial rhythm, which we named tachycardia-like excitation (TE), evoked by electrical stimulation. During TE, the action potentials occur at a much faster rate than in the normal condition, and the physiological pacemaker does not work. We demonstrated that the reentry mechanism took part in most of the TE. We also demonstrated the excitation spread during the initiation phase of TE evoked by tetanus stimulation (5-10 Hz).On the other hand, we have reported that TE can be evoked by regular electrical pacing at 0.5-1 Hz [4,5]. However, the mapping of its initiation phase evoked by pacing has been difficult because TE's initiation is unpredictable during the course of regular pacing. Fortunately, we could evoke several events of TE by pacing stimulation in a preparation and succeeded in recording them by means of a continuous multiple-site optical recording. We report here the conduction patterns of the excitatory wave during the event of TE evoked by regular pacing stimulation at 1 Hz in the isolated rat atrium.Some results presented herein have been communicated in a preliminary abstract [6].The experimental methods were the same as those described in the previous papers [4,5]. Adult rats (Wistar strain, 400-800 g) of both sexes were anesthetized by inhalation of ether. The hearts were quickly removed and bathed in an ice-cold bathing solution. The right atrial preparations including the sinus node area, caval area, and atrial septum were isolated, and the lateral wall of the right auricle was incised. The preparations were attached, positioning the endocardial side upward, to the silicone bottom of a chamber by pinning it with tungsten wires. The preparations were kept i...

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Optical Mapping of Tachycardia-Like Excitation Evoked by Pacing in the Isolated Rat Atrium

Sakai

2004

JJP

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“…In some examples, two ectopic pacemakers appeared simultaneously. We consider that the experiment using the improved preparation is a superb in vitro model of atrial arrhythmia.Key words: rat atrium, voltage-sensitive dye, multiple-site optical recording, circus movement, ectopic pacemaker.To elucidate the basic mechanism(s) of atrial arrhythmia, we have been carrying out experiments using optical methods for monitoring membrane potential activity using fast voltage-sensitive dyes [1,2]. We optically mapped the spread of excitation in the intact isolated rat right atrial preparation during an abnormal state of atrial rhythm, which we termed "tachycardia-like excitation", evoked by electrical stimulation [3][4][5].…”

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Optical Mapping Analysis of the Spatiotemporal Pattern of Experimental Tachyarrhythmia in Improved Isolated Rat Atrium Preparation

Sakai

2008

J. Physiol. Sci

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Abstract:We have studied the experimental tachyarrhythmia in an improved isolated rat atrial preparation for the optical mapping of excitation spread. The atrial preparation, including the right or left auricle, was dissected from the adult rat heart, and an artificial hole was made in the center of the preparation. The preparation was then stained with a fast merocyanine-rhodanine voltage-sensitive dye (NK2761). Using a multi-element (16 × 16) photodiode array, the spread of excitation was assessed optically by timing the initiation of the action potential-related extrinsic absorption changes. In comparison with the intact isolated right atrial preparation, which we used previously, the mapping of the excitation spread was much easier and more precise because of the simple structure of the preparation. The electrical stimulation applied by a bipolar electrode evoked the sustained excitation with a fast rhythm, which we termed "experimental tachyarrhythmia" (ET). We optically mapped the spatiotemporal patterns of the spread of excitation during the initiation and the maintenance phases of ET. In most cases, a rotation of the excitatory wave around the artificial hole, i.e., a circus movement of the excitatory wave, was observed. These maps suggest that this circus movement resembles the basic mechanism of the tachycardia-like excitation observed in the intact isolated right atrial preparation. On the other hand, the appearance of an ectopic pacemaker with a fast rhythm was also observed. In some examples, two ectopic pacemakers appeared simultaneously. We consider that the experiment using the improved preparation is a superb in vitro model of atrial arrhythmia.Key words: rat atrium, voltage-sensitive dye, multiple-site optical recording, circus movement, ectopic pacemaker.To elucidate the basic mechanism(s) of atrial arrhythmia, we have been carrying out experiments using optical methods for monitoring membrane potential activity using fast voltage-sensitive dyes [1,2]. We optically mapped the spread of excitation in the intact isolated rat right atrial preparation during an abnormal state of atrial rhythm, which we termed "tachycardia-like excitation", evoked by electrical stimulation [3][4][5]. During this event, the occurrence of the excitatory waves shows a much faster rate than that in the normal condition, and the physiological pacemaker does not work. From the optical mapping, we demonstrated that the reentry mechanism took part in tachycardia-like excitation. In the most cases, the excitatory wave rotated around an anatomical obstacle (mostly the ostium of the superior vena cava). Moreover, in some examples, abnormal automatism, i.e., an ectopic pacemaker, also took part in the generation of tachycardia-like excitation. This phenomenon is interesting because transient complex patterns of excitation spread were observed during the initiation phase of the event before the establishment of the stable reentry pattern. Furthermore, event-to-event variations were observed in the excitation spread pattern. Thi...

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“…The signal-to-noise ratio was sufficient for analyzing the spreading pattern of excitatory waves in frog atria in a single sweep.Key words: long-duration recording, optical recording, real-time writing technique, photodiode array, voltage-sensitive dye.Optical methods for detecting membrane potential using voltage-sensitive dyes have facilitated simultaneous recording from many sites and enabled spatial analysis (for reviews see [1][2][3]). Recently, this technique has become widespread, with the commercial availability of systems with high spatiotemporal-resolution.…”

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“…Optical methods for detecting membrane potential using voltage-sensitive dyes have facilitated simultaneous recording from many sites and enabled spatial analysis (for reviews see [1][2][3]). Recently, this technique has become widespread, with the commercial availability of systems with high spatiotemporal-resolution.…”

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A Long-Time, High Spatiotemporal Resolution Optical Recording System for Membrane Potential Activity via Real-Time Writing to the Hard Disk

Hirota

Ito

2006

J. Physiol. Sci

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Using real-time hard disk recording, we have developed an optical system for the long-duration detection of changes in membrane potential from 1,020 sites with a high temporal resolution. The signal-to-noise ratio was sufficient for analyzing the spreading pattern of excitatory waves in frog atria in a single sweep.Key words: long-duration recording, optical recording, real-time writing technique, photodiode array, voltage-sensitive dye.Optical methods for detecting membrane potential using voltage-sensitive dyes have facilitated simultaneous recording from many sites and enabled spatial analysis (for reviews see [1][2][3]). Recently, this technique has become widespread, with the commercial availability of systems with high spatiotemporal-resolution. However, these systems are limited in their capacity for continuous recording. Although these systems might be sufficient for monitoring evoked potential, a longer continuous recording capacity is desired for studies on spontaneous excitation, especially when the focus is on intermittent or irregular signals. The CCD camera enables continuous recording over a long-duration with a high spatial resolution [4], but the temporal resolution is usually insufficient for detailed analysis. Actually, most of the previous optical studies on spontaneous activities were done with high temporal resolution, but in these studies, either the duration of continuous recording was relatively short [5,6], or the number of simultaneous recording sites was limited [7][8][9][10]. Thus, optical recording systems with a long-duration recording

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Optical Mapping Approaches to Cardiac Electrophysiological Functions.

Cited by 17 publications

References 116 publications

Optical Mapping of Tachycardia-Like Excitation Evoked by Pacing in the Isolated Rat Atrium

Optical Mapping of Tachycardia-Like Excitation Evoked by Pacing in the Isolated Rat Atrium

Optical Mapping Analysis of the Spatiotemporal Pattern of Experimental Tachyarrhythmia in Improved Isolated Rat Atrium Preparation

A Long-Time, High Spatiotemporal Resolution Optical Recording System for Membrane Potential Activity via Real-Time Writing to the Hard Disk

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