Device for treatment of atrioventricular valve regurgitation
First Claim
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1. A catheter device, suitable for shrinking collagen in a patient'"'"'s body tissue, having a proximal end for connection to a thermal energy source, a tubular body portion, and a distal end adapted for delivering thermal energy to the tissue, which catheter device comprises:
- (a) a hollow catheter defining a first lumen, having a closed distal end and a distal end portion defining an aperture in the first lumen;
(b) an optical fiber within the first lumen of the catheter having a proximal end adapted for attachment to a laser source and a distal end portion situated within the distal end portion of the catheter, opposite the aperture;
(c) an inflatable balloon affixed over the distal end portion of the catheter and covering the aperture therein; and
(d) a hollow, cylindrical handpiece, affixed to the proximal end of the catheter and in open communication with the first lumen, said handpiece defining a port for delivery of an inflation medium to the balloon through the first lumen and aperture;
wherein the distal end portion of the optical fiber is adapted to emit laser energy through the aperture in the distal end portion of the catheter; and
the balloon has an asymmetric shape when inflated, the portion of the balloon facing the aperture being larger in radius than the portion of the balloon on the side opposite to the side of the catheter facing the aperture, such that the laser energy is directionally emitted through a relatively larger portion of the balloon.
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Abstract
A catheter device suitable for shrinking chordae tendineae of the human heart is provided having an energy conduit and a positioning device that facilitates the delivery of thermal energy, including coherent (laser) or non-coherent light, RF, microwave or ultrasound energy, to a predetermined region of the chordae tendineae or other collagen-containing tissue, such as the female urethra or the esophagus near the sphincter. The device comprises a tubular catheter containing an energy conduit, such as a fiber optic cable, adapted for delivering thermal energy to the tissue. The tubular catheter also contain a stabilizing device, disposed at its distal end, such as an asymmetrically shaped balloon or a retractable flexible metal hook. With the distal end of the catheter device positioned within a human heart, application of thermal energy to the chordae tendineae results in a shrinkage of the chordae, providing a treatment for primary mitral valve regurgitation.
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Citations
17 Claims
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1. A catheter device, suitable for shrinking collagen in a patient'"'"'s body tissue, having a proximal end for connection to a thermal energy source, a tubular body portion, and a distal end adapted for delivering thermal energy to the tissue, which catheter device comprises:
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(a) a hollow catheter defining a first lumen, having a closed distal end and a distal end portion defining an aperture in the first lumen;
(b) an optical fiber within the first lumen of the catheter having a proximal end adapted for attachment to a laser source and a distal end portion situated within the distal end portion of the catheter, opposite the aperture;
(c) an inflatable balloon affixed over the distal end portion of the catheter and covering the aperture therein; and
(d) a hollow, cylindrical handpiece, affixed to the proximal end of the catheter and in open communication with the first lumen, said handpiece defining a port for delivery of an inflation medium to the balloon through the first lumen and aperture;
wherein the distal end portion of the optical fiber is adapted to emit laser energy through the aperture in the distal end portion of the catheter; and
the balloon has an asymmetric shape when inflated, the portion of the balloon facing the aperture being larger in radius than the portion of the balloon on the side opposite to the side of the catheter facing the aperture, such that the laser energy is directionally emitted through a relatively larger portion of the balloon.- View Dependent Claims (2, 3, 4, 5, 6, 7)
(e) a flexible metal rod is slidably disposed within the second lumen, said rod having a permanently curved end portion and a blunt distal end. -
6. The catheter device of claim 5 wherein the flexible metal rod comprises a superelastic shape memory alloy of nickel and titanium.
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7. The catheter device of claim 1 further comprising a source of laser energy, operably coupled to the proximal end of the optical fiber.
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8. A catheter device, suitable for shrinking the chordae tendineae of the human heart, having a proximal end for connection to a thermal energy source, a tubular body portion, and a distal end adapted for delivering thermal energy to the chordae tendineae, which catheter device comprises:
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(a) a tubular sheath defining at least a first lumen and a second lumen, each lumen having an opening at its distal end;
(b) a fiber optic bundle, having a proximal end adapted for attachment to a source of laser energy, comprising a plurality of optical fibers, slidably disposed within the first lumen, each fiber having a distal end portion comprising a flexible curved metal tube, coaxially disposed over and affixed to the end portion of the fiber, such that the distal end of each fiber terminates just proximal to the distal end of the tube; and
(c) a flexible metal rod having a permanently curved end portion and a blunt distal end, slidably disposed within the second lumen of the sheath. - View Dependent Claims (9, 10, 11)
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12. A catheter device, suitable for shrinking collagen in a patient'"'"'s body tissue, having a proximal end for connection to a thermal energy source, a tubular body portion, and a distal end adapted for delivering thermal energy to the tissue, which catheter device comprises:
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(a) a hollow catheter defining a first lumen, having a closed distal end and a distal end portion defining an aperture in the first lumen;
(b) an optical fiber within the first lumen of the catheter having a proximal end adapted for attachment to a laser source and a distal end portion situated within the distal end portion of the catheter, opposite the aperture;
(c) an inflatable balloon affixed over the distal end portion of the catheter and covering the aperture therein; and
(d) a hollow, cylindrical handpiece, affixed to the proximal end of the catheter and in open communication with the first lumen, said handpiece defining a port for delivery of an inflation medium to the balloon through the first lumen and aperture;
wherein the distal end portion of the optical fiber is adapted to emit laser energy through the aperture in the distal end portion of the catheter and the distal end of the optical fiber is beveled at an angle of about 39 degrees and the distal end portion of the optical fiber is sealed within a glass capillary tube, such that laser energy is emitted at an angle of about 60 to about 100 degrees from the axis of the distal end portion of the fiber when the optical fiber is attached to a laser energy source;
the balloon having an asymmetric shape when inflated, the portion of the balloon facing the aperture being larger in radius than the portion of the balloon on the side opposite to the side of the catheter facing the aperture, such that the laser energy is directionally emitted through a relatively larger portion of the balloon.
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13. A catheter device, suitable for shrinking collagen in a patient'"'"'s body tissue, having a proximal end for connection to a thermal energy source, a tubular body portion, and a distal end adapted for delivering thermal energy to the tissue, which catheter device comprises:
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(a) a hollow catheter defining a first lumen, having a closed distal end and a distal end portion defining an aperture in the first lumen;
(b) an optical fiber within the first lumen of the catheter having a proximal end adapted for attachment to a laser source and a distal end portion situated within the distal end portion of the catheter, opposite the aperture;
(c) an inflatable balloon affixed over the distal end portion of the catheter and covering the aperture therein;
(d) a hollow, cylindrical handpiece, affixed to the proximal end of the catheter and in open communication with the first lumen, said handpiece defining a port for delivery of an inflation medium to the balloon through the first lumen and aperture; and
(e) a control wire within the first lumen of the catheter, said control wire having a distal end and a proximal end, the distal end of the control wire being attached to an inner surface of the distal end portion of the catheter, said control wire being adapted to manipulate the position and orientation of the distal end portion of the catheter, the handpiece containing a reel mechanism comprising a shaft and a knob that is fixedly attached to one end of the shaft, wherein said shaft is pivotally moveable within said handpiece, said shaft being operably attached to the control wire, such that turning the knob causes the distal end portion of the catheter to bend in response to the turning of the knob;
wherein the distal end portion of the optical fiber is adapted to emit laser energy through the aperture in the distal end portion of the catheter; and
the balloon has an asymmetric shape when inflated, the portion of the balloon facing the aperture being larger in radius than the portion of the balloon on the side opposite to the side of the catheter facing the aperture, such that the laser energy is directionally emitted through a relatively larger portion of the balloon.
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14. A catheter device, suitable for shrinking collagen in a patient'"'"'s body tissue, having a proximal end for connection to a thermal energy source, a tubular body portion, and a distal end adapted for delivering thermal energy to the tissue, which catheter device comprises:
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(a) a hollow catheter defining a first lumen, having a closed distal end and a distal end portion defining an aperture in the first lumen;
(b) an optical fiber within the first lumen of the catheter having a proximal end adapted for attachment to a laser source and a distal end portion situated within the distal end portion of the catheter, opposite the aperture;
(c) an inflatable balloon affixed over the distal end portion of the catheter and covering the aperture therein;
(d) at least one thermocouple positioned at the distal end portion of the catheter, within the balloon, or on the surface of the balloon, adapted for measuring the temperature of the inflation medium in the balloon or the temperature at the surface of the balloon, respectively; and
(e) a hollow, cylindrical handpiece, affixed to the proximal end of the catheter and in open communication with the first lumen, said handpiece defining a port for delivery of an inflation medium to the balloon through the first lumen and aperture;
wherein the distal end portion of the optical fiber is adapted to emit laser energy through the aperture in the distal end portion of the catheter; and
the balloon has an asymmetric shape when inflated, the portion of the balloon facing the aperture being larger in radius than the portion of the balloon on the side opposite to the side of the catheter facing the aperture, such that the laser energy is directionally emitted through a relatively larger portion of the balloon.
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15. A catheter device, suitable for shrinking collagen in a patient'"'"'s body tissue, having a proximal end for connection to a thermal energy source, a tubular body portion, and a distal end adapted for delivering thermal energy to the tissue, which catheter device comprises:
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(a) a hollow catheter defining a first lumen, having a closed distal end and a distal end portion defining an aperture in the first lumen;
(b) an optical fiber within the first lumen of the catheter having a proximal end adapted for attachment to a laser source and a distal end portion situated within the distal end portion of the catheter, opposite the aperture;
(c) an inflatable balloon affixed over the distal end portion of the catheter and covering the aperture therein; and
(d) a hollow, cylindrical handpiece, affixed to the proximal end of the catheter and in open communication with the first lumen, said handpiece defining a port for delivery of an inflation medium to the balloon through the first lumen and aperture, the inflation medium comprising a cooling fluid, capable of cooling a tissue in contact with the balloon;
wherein the distal end portion of the optical fiber is adapted to emit laser energy through the aperture in the distal end portion of the catheter; and
the balloon has an asymmetric shape when inflated, the portion of the balloon facing the aperture being larger in radius than the portion of the balloon on the side opposite to the side of the catheter facing the aperture, such that the laser energy is directionally emitted through a relatively larger portion of the balloon.
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16. A catheter device, suitable for shrinking the chordae tendineae of the human heart, having a proximal end for connection to a thermal energy source, a tubular body portion, and a distal end adapted for delivering thermal energy to the chordae tendineae, which catheter device comprises:
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(a) a tubular sheath having an opening at its distal end;
(b) an energy conducting cable, slidably disposed within the sheath, having a proximal end adapted for attachment to an energy source and a distal end portion adapted for delivering thermal energy to a predetermined region of the chordae tendineae and at least one terminal in the distal end portion comprising a radio frequency electrode; and
(c) a flexible metal rod slidably disposed within the sheath having a permanently curved end portion and a blunt distal end.
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17. A catheter device, suitable for shrinking the chordae tendineae of the human heart, having a proximal end for connection to a thermal energy source, a tubular body portion, and a distal end adapted for delivering thermal energy to the chordae tendineae, which catheter device comprises:
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(a) a tubular sheath having an opening at its distal end;
(b) an energy conducting cable, slidably disposed within the sheath, having a proximal end adapted for attachment to an energy source, a distal end portion adapted for delivering thermal energy to a predetermined region of the chordae tendineae and a pair of leads having a proximal end adapted for connection to an electrical power source and a distal end portion operably connected to a resistive heating loop; and
(c) a flexible metal rod slidably disposed within the sheath, having a permanently curved end portion and a blunt distal end.
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Specification
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Current AssigneeTrimedyne Incorporated (InnovaQuartz, LLC)
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Original AssigneeTrimedyne Incorporated (InnovaQuartz, LLC)
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InventorsLoeb, Marvin P., Crawford, L. Dean, Graham, Randy P.
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Primary Examiner(s)Dvorak, Linda C. M.
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Assistant Examiner(s)ROANE, AARON F
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Application NumberUS10/024,798Publication NumberTime in Patent Office888 DaysField of Search607/89, 607/101, 607/102, 607/88, 607/90, 607/92, 606/2, 606/13, 606/15US Class Current607/89CPC Class CodesA61B 18/1492 having a flexible, catheter...A61B 18/24 with a catheter A61B18/26, ...A61B 2017/00243 cardiacA61B 2017/00867 shape memory effectA61B 2017/22059 transparentA61B 2017/22069 Immobilising; StabilisingA61B 2018/00196 reciprocating lengthwiseA61B 2018/2211 Plurality of fibresA61B 2018/2277 with refractive surfaces
