Method for effecting closure of a perforation in the septum of the heart
First Claim
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1. A method for effecting transvenous closure of acquired ventricular septal perforations comprising:
- (A) providing a catheter including;
(a) an elongated, firm, flexible shaft member having a proximal end and a distal end and defining a plurality of lumens commencing adjacent said proximal end;
(b) a first expandable balloon and a second expandable balloon located adjacent said distal end of the shaft member, both of said balloons being constructed, arranged, and positioned relative to one another such that they are inflatable;
(1) from an unexpanded condition wherein they have diameter(s) sufficiently small as to permit passage of the catheter distal end portion through a vein and into a ventricle of the heart and through the perforation in the septum of the heart to position said first and second balloons on opposing sides of the septum;
(2) to an inflated condition wherein said balloons are in snug leak-resistant engagement with the opposing walls of the septum all around said perforation therein;
(c) first and second ones of said lumens communicating with said first and second balloons, respectively, to permit said balloons to be inflated and deflated independently of each other;
(B) introducing a steering catheter via said vein into the right atrium and through the tricuspid valve into the right ventricle of the heart and steering and passing the steerable catheter through the perforation in the septum, then feeding a guidewire through the steerable catheter and into the left ventricle, with the steerable catheter being thereafter removed while leaving the guidewire in position and then passing the distal end of said first mentioned catheter, with said balloons deflated along said guide wire and through said vein and into the right ventricle of the heart and thence through the perforation in the septum of the heart whereby to position the deflated balloons on opposing sides of the septum,(C) inflating the balloons thereby to cause the balloons to snugly engage the opposing walls of the septum around said defect and wherein that balloon most closely adjacent the distal end of the catheter is inflated first and brought into close engagement with the one wall of the septum following which the other balloon is inflated to bring it into close engagement with the other wall of the septum to prevent leakage through the perforation.
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Abstract
A novel double-balloon septal defect occlusion catheter which is used in conjunction with a unique surgical procedure to temporarily close septal perforations, particularly spontaneous ventricular septal perforations following acute myocardial infarction, without the need for open heart surgery, thus permitting the patient'"'"'s condition to stabilize and permitting elective surgical closure of the defect at a later date.
748 Citations
8 Claims
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1. A method for effecting transvenous closure of acquired ventricular septal perforations comprising:
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(A) providing a catheter including; (a) an elongated, firm, flexible shaft member having a proximal end and a distal end and defining a plurality of lumens commencing adjacent said proximal end; (b) a first expandable balloon and a second expandable balloon located adjacent said distal end of the shaft member, both of said balloons being constructed, arranged, and positioned relative to one another such that they are inflatable; (1) from an unexpanded condition wherein they have diameter(s) sufficiently small as to permit passage of the catheter distal end portion through a vein and into a ventricle of the heart and through the perforation in the septum of the heart to position said first and second balloons on opposing sides of the septum; (2) to an inflated condition wherein said balloons are in snug leak-resistant engagement with the opposing walls of the septum all around said perforation therein; (c) first and second ones of said lumens communicating with said first and second balloons, respectively, to permit said balloons to be inflated and deflated independently of each other; (B) introducing a steering catheter via said vein into the right atrium and through the tricuspid valve into the right ventricle of the heart and steering and passing the steerable catheter through the perforation in the septum, then feeding a guidewire through the steerable catheter and into the left ventricle, with the steerable catheter being thereafter removed while leaving the guidewire in position and then passing the distal end of said first mentioned catheter, with said balloons deflated along said guide wire and through said vein and into the right ventricle of the heart and thence through the perforation in the septum of the heart whereby to position the deflated balloons on opposing sides of the septum, (C) inflating the balloons thereby to cause the balloons to snugly engage the opposing walls of the septum around said defect and wherein that balloon most closely adjacent the distal end of the catheter is inflated first and brought into close engagement with the one wall of the septum following which the other balloon is inflated to bring it into close engagement with the other wall of the septum to prevent leakage through the perforation. - View Dependent Claims (2, 3, 4)
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5. A method for effecting closure of septal perforations comprising:
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(A) providing a catheter having; (a) an elongated, firm, flexible shaft member having a proximal end and a distal end and defining a plurality of lumens commencing adjacent said proximal end; (b) a first expandable balloon and a second expandable balloon located adjacent said distal end of the shaft member, both of said balloons being constructed, arranged, and positioned relative to one another such that they are inflatable; (1) from an unexpanded condition wherein they have diameter(s) sufficiently small as permit passage of the catheter distal end through a blood vessel and into the heart and through the perforation in the septum to position said first and second balloons on opposing sides of the septum; (2) to an inflated condition wherein said balloons are in snug leak-resistant engagement with the opposing walls of the septum all around said perforation therein; (c) first and second ones of said lumens communicating with said first and second balloons, respectively, to permit said balloons to be inflated and deflated independently of each other and wherein a third one of said lumens extends from said proximal end to and through said distal end to allow for passage therealong of an elongated guidewire for introduction of said catheter into the heart; (B) introducing a steerable catheter via said blood vessel into the heart and then steering and passing the steerable catheter through the perforation in the septum, then feeding a guidewire fully through the steerable catheter, the steerable catheter being thereafter removed leaving the guidewire in place, following which the distal end of said first mentioned catheter, with said balloon deflated, is passed along said guidewire, through the blood vessel and into the chamber of the heart and thence through the perforation in the septum of the heart whereby to position the deflated balloons on opposing sides of the septum, (C) inflating the balloons thereby to cause the balloons to snugly engage the opposing walls of the septum around said defect, that balloon most closely adjacent the distal end of the catheter being inflated first and brought into close engagement with the wall of the septum following which the other balloon is inflated to prevent leakage through the perforation. - View Dependent Claims (6, 7, 8)
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Specification