Abstract: The invention relates to a catheter device including an optical fiber whose distal end is disposed within a hollow tube with a sharp or needle shaped distal end, which can penetrate tissue. The distal end of the optical fiber and the hollow tube are configured so as to emit, by refraction (total internal reflection) or reflection from a metal surface, laser energy at an angle of about 80° to about 90° relative to the longitudinal axis of the optical fiber and hollow tube. The hollow tube is mounted to a housing and may be surrounded by a sheath.

Abstract: The invention relates to a catheter device including an optical fiber whose distal end is disposed within a hollow tube with a sharp or syringe shaped distal end, which may be inserted into tissue. The distal end of the optical fiber and the hollow tube are configured so as to emit, by refraction (total internal reflection) or reflection from a metal surface, laser energy at an angle of about 80° to about 90° relative to the longitudinal axis of the optical fiber and hollow tube. A first fluid channel within the distal end portion of the tube enables fluid to be infused to cool the distal end of the tube and to cool and clean the emission face of the optical fiber. A second, relatively larger diameter fluid channel in the tube enables the fluid, flowing through said first channel along with hot gasses from the vaporization of tissue, to exit the device through a second port in the tube, away from the tissue being treated.

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.

Abstract: The invention relates to a catheter device including an optical fiber whose distal end is disposed within a hollow tube with a sharp or syringe shaped distal end, which may be inserted into tissue. The distal end of the optical fiber and the hollow tube are configured so as to emit, by refraction (total internal reflection) or reflection from a metal surface, laser energy at an angle of about 80° to about 90° relative to the longitudinal axis of the optical fiber and hollow tube. A first fluid channel within the distal end portion of the tube enables fluid to be infused to cool the distal end of the tube and to cool and clean the emission face of the optical fiber. A second, relatively larger diameter fluid channel in the tube enables the fluid, flowing through said first channel along with hot gasses from the vaporization of tissue, to exit the device through a second port in the tube, away from the tissue being treated.

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.

Abstract: A medical device applies radiant energy to tissue surrounding or underlying the surface of a duct, hollow organ or body cavity. The energy is emitted through an expandable, energy-transmissive balloon in which a fluid coolant is circulated to cool the surface of the duct, hollow organ or body cavity and the tissue immediately underlying the surface of the duct, hollow organ or body cavity. The device includes an elongated transmission line extending through a catheter, having a proximal end portion, which is connectable to a source of radiant energy, and a distal end portion, to which a radiant energy emitter is coupled. The balloon is mounted on the distal end of the catheter and extends over the emitter. The catheter contains an inlet confined fluid passageway and an outlet confined fluid passageway to provide fluid coolant circulation through the balloon. Microscopic albumen microspheres or particles of quartz or silica are suspended in the fluid coolant to more uniformly diffuse the radiant energy.