Device and method for delivery of uniform and controlled radiation dose to blood vessels
First Claim
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1. A radiation delivery system, comprising:
- a catheter comprising a central body member having a distal end portion and an inflatable tubular member wrapped around and secured to the distal end portion of the body member;
a radiation source slidably disposed within said tubular member; and
a wire slidably disposed in said inflatable tubular member and attached to said radiation source, said wire for sliding said radiation source through said tubular member for substantially uniform delivery of radiation from said source to a site of interest along the tubular member.
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Abstract
The present invention provides a device, system and method for uniformly delivering a radiation dose over the surface area of a stenosed vessel during or after a percutaneous transluminal angioplasty procedure. A helical balloon is inflated in the region to be treated, preferably in contact with the vessel wall, and a radiation source is drawn through the helical coils of the balloon to provide a uniform dosage. Alternatively, the helical balloon is disposed within a cylindrical balloon and the helical balloon containing a radiation source with at least one coil is drawn through the cylindrical balloon.
43 Citations
21 Claims
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1. A radiation delivery system, comprising:
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a catheter comprising a central body member having a distal end portion and an inflatable tubular member wrapped around and secured to the distal end portion of the body member;
a radiation source slidably disposed within said tubular member; and
a wire slidably disposed in said inflatable tubular member and attached to said radiation source, said wire for sliding said radiation source through said tubular member for substantially uniform delivery of radiation from said source to a site of interest along the tubular member. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
said inflatable tubular member is a helical inflatable balloon with a plurality of helical turns;
said wire having a helical coil at its distal end is slidably disposed within the helical turns of said helical inflatable balloon; and
wherein said radiation source is disposed on a distal tip of said helical coil, whereby withdrawal of said pull wire causes said radiation source to follow the path of the helical turns.
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11. The device according to claim 1 further comprising a substantially cylindrical inflatable balloon surrounding at least the distal end portion of the catheter, wherein:
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said inflatable tubular member is a helical inflatable balloon with a plurality of helical turns slidably disposed within said substantially cylindrical inflatable balloon such that when said helical inflatable balloon is inflated at least one of the helical turns is approximately adjacent to an interior wall of said cylindrical balloon;
said wire comprises a helical coil at a distal end, the helical coil slidably disposed within the helical turns of said helical balloon; and
said radiation source is disposed on a distal tip of said wire such that said radiation source spans approximately an integral number of helical turns.
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12. A device for delivering a substantially uniform radiation dose to a lumen, comprising:
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an outer catheter member with an inflatable, substantially cylindrical balloon disposed at a distal end of said member;
an inflatable helical balloon slidably disposed within said substantially cylindrical balloon, said helical balloon having a plurality of helical turns;
a radiation source disposed in at least one helical turn of said helical balloon; and
a wire slidably disposed through the substantially cylindrical balloon and connected to said inflatable helical balloon, whereby sliding said wire moves said inflatable helical balloon through said substantially cylindrical balloon at a predetermined velocity and provides a substantially uniform and controlled dose of radiation to the lumen. - View Dependent Claims (13, 14, 15)
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16. A method for delivering a substantially uniform radiation dose to a lumen wall, comprising:
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locating an inflatable balloon in the lumen;
placing a radioactive source within said inflatable balloon;
inflating said inflatable balloon, wherein an external wall of the inflated balloon substantially abuts the lumen wall, and wherein said radioactive source substantially abuts an internal wall of the inflated balloon; and
drawing said radioactive source along the internal wall of the inflated balloon such that a substantially uniform radiation dose is delivered to the lumen wall. - View Dependent Claims (17, 18, 19, 20)
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21. A method for delivering a substantially uniform radiation dose to a lumen wall, comprising:
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locating an inflatable, substantially cylindrical balloon in the lumen;
slidably disposing an inflatable helical balloon within said inflatable substantially cylindrical balloon;
placing a radioactive source within said inflatable helical balloon;
inflating said inflatable substantially cylindrical balloon, wherein an external wall of the inflated substantially cylindrical balloon substantially abuts the lumen wall;
inflating said inflatable helical balloon such that an external wall of at least one helical turn of said inflated helical balloon substantially contacts an internal wall of the inflated, substantially cylindrical balloon, wherein said radioactive source substantially abuts an internal wall of an approximately integral number of helical turns of the inflated helical balloon; and
drawing the inflated helical balloon through the inflated substantially cylindrical balloon such that a substantially uniform radiation dose is delivered to the lumen wall.
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Specification