Surgery: light – thermal – and electrical application – Light – thermal – and electrical application – Electrical therapeutic systems
Reexamination Certificate
2001-04-06
2003-12-09
Jastrzab, Jeffrey R. (Department: 3762)
Surgery: light, thermal, and electrical application
Light, thermal, and electrical application
Electrical therapeutic systems
Reexamination Certificate
active
06662045
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to methods, apparatus, and catheters that may be used to administer a therapeutic electrical pulse, such as an atrial defibrillation pulse, to the heart of a patient in need of such treatment.
BACKGROUND OF THE INVENTION
Atrial fibrillation (AF) is the most common arrhythmia in humans and represents a significant public health problem. There are presently 2.2 million cases of AF in the United States and approximately 160,000 new cases diagnosed each year. AF is typically managed by a combination of anti-arrhythmic drugs and external or internal electrical cardioversion. In addition, surgical compartmentalization or radiofrequency ablation of atrial tissue can be used. Unfortunately, long term success rates are low; AF recurrence is high with both drug treatment and electrical cardioversion with internal and external shocks.
Internal electrical cardioversion of AF remains an uncomfortable therapy option for managing patients with AF. Even with recent advancements, shock voltages necessary to defibrillate the atrial, while considerably lower than that for the ventricles, are still beyond the pain threshhold. One reason high voltages may be necessary is that the main generator for AF is the left atrium and direct access to the left atrium is problematic because of the risk of embolism. Typically, atrial defibrillation lead locations are limited to right sided chambers (right atrium and right ventricle) and venous structures accessible from the right side of the heart (coronary sinus).
To create a trans-atrial shocking vector, the most common approach is to shock between one or more electrodes on the right side of the heart (right atrial appendage, superior vena cava, or right ventricle) to an electrode on the left side of the heart in the distal coronary sinus. The left atrium is also an important atrial chamber to defibrillate since (i) it can fibrillate independent of the right atrium, (ii) mapping studies have shown that earliest sites of activation following failed defibrillation arise from the left atrium for most defibrillation electrode configurations, (iii) early sites in or near the pulmonary veins have been shown to be responsible for the initiation of and early reoccurence of AF in many patients, and (iv) ablation of right atrial structures alone has had poor success in terminating AF or preventing its reoccurence. Nevertheless, there remains a need for means of defibrillating the atria of a subject without unduly high energy defibrillation pulses that would be painful to the subject being treated.
SUMMARY OF THE INVENTION
A first aspect of the present invention is an implantable system for the defibrillation of the atria of a patient's heart. The system comprises (a) a first catheter configured for insertion into the right atrium of the heart, preferably without extending into the right ventricle of the heart; a first atrial defibrillation electrode carried by the first catheter and positioned at the atrial septum of the heart (i.e., an atrial septum electrode); (b) a second atrial defibrillation electrode which together with the first atrial defibrillation electrode provides a pair of atrial defibrillation electrodes that are configured for orientation in or about the patient's heart to effect atrial defibrillation, and (c) a pulse generator operatively associated with the pair of atrial defibrillation electrodes for delivering a first atrial defibrillation pulse to the heart of the patient. The second electrode may be configured for positioning through the coronary sinus ostium and in the coronary sinus or a vein on the surface of the left ventricle, such as the great vein. As explained further below, an additional electrode configured for positioning in the superior vena cava, right atrium (including the right atrial appendage, or the right ventricle may also be included, and the pulse generator may be configured or programmed for concurrently delivering a first defibrillation pulse through the additional electrode and the atrial septum electrode, and a second defibrillation pulse through the atrial septum electrode and the second electrode.
A second aspect of the present invention is a catheter assembly useful for the defibrillation or cardioversion of a patient's heart. The assembly comprises: (a) a first transveneous catheter configured for insertion into the heart of the patient, the first transvenous catheter having a proximal end portion, a distal end portion, and an elongate intermediate portion therebetween, and with the first transveneous catheter having a first electrode connected thereto; (b) a second transveneous catheter configured for insertion into the heart of the patient, the second transveneous catheter having a proximal end portion, a distal end portion, and an elongate intermediate portion therebetween; and (c) a connecting member attached to the first transveneous catheter, with the connecting member connected to the second transveneous catheter intermediate portion.
A further aspect of the present invention is a method for the defibrillation or cardioversion of the heart of a patient in need thereof while minimizing or reducing the voltage of the defibrillation pulses to be delivered. The method comprises the steps of: (a) positioning first and second defibrillation electrodes in operable association with the heart of the subject, the first and second defibrillation electrodes defining a gradient field in the heart, the gradient field including a region of the heart to be defibrillated; (b) positioning a third electrode in the gradient field between the first and second electrodes; and then (c) concurrently delivering (i) a first defibrillation pulse between the first and third electrode and (ii) a second defibrillation pulse between the second and third electrodes; with the first and second defibrillation pulses together effective to defibrillate the heart. The voltage required for each of the first and second defibrillation pulses is preferably less than the voltage necessary for a single defibrillation pulse delivered between the first and second electrodes that is effective to defibrillate the heart. One, two or three or more additional electrodes may be positioned between the first, second and third electrodes to further reduce the voltage required, with additional shocks being delivered concurrently between various combinations of the electrodes (typically between adjacent electrodes).
A further aspect of the present invention is an implantable system for the defibrillation or cardioversion of a patient's heart. The system comprises: (a) first and second defibrillation electrodes configured for positioning in operable association with the heart of the subject, the first and second defibrillation electrodes when so positioned defining a gradient field in the heart between the first and second electrodes and in a region to be defibrillated; (b) a third defibrillation electrode configured for positioning in the gradient field between the first and second electrodes; and (c) a pulse generator operatively associated with the first, second and third defibrillation electrodes and configured for concurrently delivering (a) a first defibrillation pulse between the first and third electrode and (b) a second defibrillation pulse between the second and third electrodes. The two pulses are together effective to defibrillate the heart. Preferably, the voltage required for each of the first and second defibrillation pulses is less than the voltage required for a single defibrillation pulse delivered between the first and second electrodes that is effective to defibrillate the heart. Such an apparatus may be configured to carry out the methods described above.
In preferred embodiments of the foregoing methods and systems, there is further provided first and second transveneous catheters, wherein the first, second and third electrodes are carried by the first and second transveneous catheters, and wherein the first transveneous catheter is fixed to the second transveneous catheter.
In par
Benser Michael E.
Girouard Steven D.
Ideker Raymond E.
Walcott Gregory P.
Zheng Xiangsheng
Jastrzab Jeffrey R.
Myers Bigel & Sibley & Sajovec
UAB Research Foundation
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