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Catheter for balloon angioplasty    
United States Patent4808164   
Link to this pagehttp://www.wikipatents.com/4808164.html
Inventor(s)Hess; Robert (Portola Valley, CA)
AbstractA catheter for balloon angioplasty includes a flexible shaft defining a hollow passage. The shaft has first and second ends. A core is movably and removably mounted in the passage and has first and second ends adjacent the first and second ends of the shaft. The core has a first flexible portion adjacent the first end and a second flexible portion of greater flexibility adjacent the second end. The core also has an enlarged terminal knob at the second end. A flexible guidewire may be fixed to the second end of one of the shaft and the core. The catheter may be inserted into a vascular tree and the core removed. The core may be replaced by an exchange wire, an angioscope, a laser fiber, or a rotatable bit. Also, when the core is replaced by an exchange wire, the shaft may then be removed and replaced by either a balloon angioplasty catheter or a perfusion catheter.
   














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Patent Text Patent PDF Print Page Summary File History
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Drawing from US Patent 4808164
Catheter for balloon angioplasty - US Patent 4808164 Drawing
Catheter for balloon angioplasty
Inventor     Hess; Robert (Portola Valley, CA)
Owner/Assignee     Progressive Angioplasty Systems, Inc. (Los Angeles, CA)
Patent assignment
All assignments
Publication Date     February 28, 1989
Application Number     07/088,264
PAIR File History     Application Data   Transaction History
Image File Wrapper   Patent Term   Fees
Litigation
Filing Date     August 24, 1987
US Classification     604/95.01 600/434 604/913 606/7 606/194
Int'l Classification     A61M 025/00 A61B 017/36
Examiner     Truluck; Dalton L.
Assistant Examiner    
Attorney/Law Firm     Burns, Doane, Swecker & Mathis
Address
Parent Case    
Priority Data    
USPTO Field of Search     128/303.1 128/303.11 128/305 128/344 128/348.1 128/656 128/657 128/658 128/772 128/341 128/343 604/96 604/97 604/98 604/99 604/100 604/101 604/102 604/103 604/95 604/170 604/96 604/97 604/98 604/99 604/100 604/101 604/102 604/103
Patent Tags     catheter balloon angioplasty
   
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What is claimed is:

1. A catheter for balloon angioplasty comprising:

a flexible shaft having a hollow passage therein, said flexible shaft having a first proximal end which is open and a second distal end which is closed;

a core means movably and removably mounted within said passage, said core means having a first proximal end and a second distal end, said ends adjacent with first and second ends of said flexible shaft, respectively, said core means having a first flexible portion extending along its length from said first proximal end and a second flexible portion being of greater flexibility than said first flexible portion, said second flexible portion extending to said second distal end, said core means having an enlarged terminal knob at said second distal end thereof, said knob contacting said second distal end of said flexible shaft upon axial movement of said core means, further axial movement of said core means causing bending and buckling of said second flexible portion of said core means in turn bending said flexible shaft and causing angulation of said second distal end of said flexible shaft;

a flexible guide wire externally attached to the second distal end of said flexible shaft, said flexible guide wire axially extending away from said second distal end; and

an inflatable member having a non-inflatable sheath covering an external surface of said flexible shaft near the second distal end of said flexible shaft and further including means for inflating said inflatable member.

2. A catheter as in claim 1 further including ferrite material within said flexible shaft near said second distal end of said flexible shaft and including means for transmitting radio frequency energy through said flexible shaft to said ferrite material to cause heating of said ferrite material to heat said second distal end of said flexible shaft.

3. A catheter for balloon angioplasty comprising:

a flexible shaft having a hollow passage therein, said flexible shaft having a first proximal end which is open and a second distal end which is partially open having a reduced cross-section;

a core means movably and removably mounted within said passage, said core means having a first proximal end and a second distal end, said ends adjacent said first and second ends of said flexible shaft, respectively, said core means having a first flexible portion extending along its length from said first proximal end and a second flexible portion being of greater flexibility than said first flexible portion, said second flexible portion extending to said second proximal end, said core means having an enlarged terminal knob at said second distal end thereof, said knob contcting said reduced cross-section of said second distal end of said flexible shaft upon axial movement of said core means, further axial movement of said core means causing bending and buckling of said second flexible portion of said core means bending said flexible shaft and causing angulation of said second distal end of said flexible shaft;

a flexible guide wire attached to said terminal knob and axially extending away from said knob, said guide wire axially extensible through the opening in said second distal end of said flexible shaft; and

an inflatable member having a non-inflatable sheath covering an external surface of said flexible shaft near the second distal end of said flexible shaft and further including means for inflating said inflatable member.

4. A catheter as in claim 3 further including ferrite material within said flexible shaft near said second distal end of said flexible shaft and including means for transmitting radio frequency energy through said flexible shaft to said ferrite material to cause heating of said ferrite material to heat said second distal end of said flexible shaft.

5. A method of performing a combined fixed wire and movable wire angioplasty including the steps of:

(a) inserting a catheter in a vascular tree, said catheter including a flexible shaft having a hollow passage therein, said flexible shaft having a first proximal end which is open and a second distal end which is partially open having a reduced cross-section, said catheter including a core means movably and removably mounted within said passage, said core means having a first proximal end and a second distal end, said ends adjacent said first and second ends of said flexible shaft, respectively, said core means having a first flexible portion extending along its length from said first proximal end and a second flexible portion being of greater flexibility than said first flexible portion, said second flexible portion extending to said second proximal end, said core means having an enlarged terminal knob at said second distal end thereof, said knob contacting said reduced cross-section of said second distal end of said flexible shaft upon axial movement of said core means, said catheter including a flexible guide wire attached to said terminal knob and axially extending away from said knob, said guide wire axially extensible through the opening in said second distal end of said flexible shaft, said guide wire further including an inflatable member having a non-inflatable sheath covering an external surface of said flexible shaft near said second distal end of said flexible shaft and further including means for inflating said inflatable member; and

(b) moving said core means axially toward and into contact with said reduced cross-section causing bending and buckling of said second flexible portion of said core means bending said flexible shaft and causing angulation of said second distal end of said flexible shaft.

6. A method according to claim 5 further including the steps of:

(c) removing said core means through said first proximal end of said flexible shaft;

(d) inserting an exchange wire within said flexible shaft;

(e) removing said flexible shaft; and

(f) inserting a different balloon angioplasty catheter over said exchange wire.

7. A method according to claim 5 further including the steps of:

(c) removing said core means through said first proximal end of said flexible shaft;

(d) inserting an exchange wire within said flexible shaft;

(e) removing said flexible shaft; and

(f) inserting a perfusion catheter over said exchange wire.

8. A method according to claim 5 further including the steps of:

(c) removing said core means through said first proximal end of said flexible shaft; and

(d) inserting an angioscope within said flexible shaft.

9. A method according to claim 5 further including the steps of:

(c) removing said core means through said first proximal end of said flexible shaft; and

(d) inserting a laser fiber within said flexible shaft.

10. A method according to claim 5 further including the steps of:

(c) removing said core means through said first proximal end of said flexible shaft; and

(d) inserting a rotatable bit within said flexible shaft.

11. A method according to claim 5 further including the steps of:

(c) removing said core means through said first proximal end of said flexible shaft; and

(d) inserting within said flexible shaft a thermal angioplasty means for thermal oblation and remodeling of tissue.

12. A kit including:

a catheter having a flexible shaft having a hollow passage therein, said flexible shaft having a first proximal end which is open and a second distal end which is partially open having a reduced cross-section, said catheter including a core means movably and removably mounted within said passage, said core means having a first proximal end and a second distal end, said ends adjacent said first and second ends of said flexible shaft, respectively, said core means having a first flexible portion extending along its length from said first proximal end and a second flexible portion being of greater flexibility than said first flexible portion, said second flexible portion extending to said second proximal end, said core means having an enlarged terminal knob at said second distal end thereof, said knob contacting said reduced cross-section of said second distal end of said flexible shaft upon axial movement of said core means, further axial movement of said core means causing bending and buckling of said core means, in turn bending said flexible shaft and causing angulation of said second distal end of said flexible shaft, said catheter further including a flexible guide wire attached to said terminal knob and axially extending away from said knob, said guide wire axially extensible through the opening in said second distal end of said flexible shaft, said catheter further including an inflatable member having a noninflatable sheath covering an external surface of said flexible shaft near the second distal end of said flexible shaft and further including means for inflating said inflatable member;

components in the form of an exchange wire, an angioscope, a laser fiber, a rotatable bit, and a thermal angioplasty means for thermal oblation and remodeling of tissue, all of said components sized to be insertable within said flexible shaft upon removal of said core means; and

a different balloon angioplasty catheter and a perfusion catheter, said balloon angioplasty catheter and said perfusion catheter sized to be inserted over said exchange wire.
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BACKGROUND OF THE INVENTION

This invention relates generally to surgical procedures using a flexible catheter guide and more particularly to an apparatus for use in balloon angioplasty.

BACKGROUND DESCRIPTION

Catheters require pushability and flexibility in order to be effectively inserted into blood vessels and maneuvered through a vascular tree. Often a hollow spring wire shaft is used and includes a movable core wire. A balloon may be used with the catheter so as to be expanded in the vessel and open blockages found therein. One such device relates to a balloon catheter which includes an elongated coil spring defining an inner passage. The spring has a silicone covering which includes an extendable sheath, strain collar, and a balloon tip affixed to the strain relief collar. A portion of the elongated coil spring and sheath form a support structure which perceptibly elongates when excessive stretching force is applied to the support structure in pulling the balloon through a body passage.

Another device relates to a coil spring guide with a deflectable tip which comprises a coil spring, a core wire within the coil spring extending the length of the coil spring, and a head member. The coil spring is covered with a sheath. A mechanism is provided at the proximal end of the coil spring guide for causing movement of the coil spring relative to the core wire. The core wire is eccentrically fixed to the back side of the head member and adjacent to a lateral side thereof. Thereby, rearward movement of the core wire causes compression of the distal end spring coils and deflection thereof in a direction laterally from the side of the head member to which the core extension is fixed. Standard low profile catheters with a fixed wire system do not offer, in addition, a combined over the wire system or variabl