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Method and apparatus for reducing blockage in body channels    
United States Patent4832023   
Link to this pagehttp://www.wikipatents.com/4832023.html
Inventor(s)Murphy-Chutorian; Douglas R. (Stanford, CA); Mok; Walter Y. W. (Palo Alto, CA); Leung; Kang M. (Palo Alto, CA)
AbstractAn instrument for removing an obstruction in an internal body channel comprises an elongated catheter body adapted for insertion into a body channel having a first lumen throughout its length. An elongated guide and laser transmission conduit extends through the lumen of said catheter body and is movable therein so that its distal end can be extendable beyond the distal end of the catheter body. The proximal end of the movable conduit is connected to a controlled source of laser energy. A treatment element is provided at the distal end of the catheter body for further reducing the channel obstruction following preliminary penetration thereof by the movable laser transmission conduit. The treatment element may be a fixed laser transmission conduit which terminates at the end of the catheter body or a dilation balloon near its distal end. In method steps utilizing the instrument, the movable conduit is positioned near a channel obstruction to enlarge a passage through and then serves to guide the catheter body into position so as to further enlarge or remove the obstruction using its treatment element.
   














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Patent Text Patent PDF Print Page Summary File History
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Inventor     Murphy-Chutorian; Douglas R. (Stanford, CA); Mok; Walter Y. W. (Palo Alto, CA); Leung; Kang M. (Palo Alto, CA)
Owner/Assignee     MCM Laboratories, Inc. (Mountain View, CA)
Patent assignment
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Publication Date     May 23, 1989
Application Number     07/057,791
PAIR File History     Application Data   Transaction History
Image File Wrapper   Patent Term   Fees
Litigation
Filing Date     June 3, 1987
US Classification     606/7 604/96.01
Int'l Classification     A61B 017/36
Examiner     Cohen; Lee S.
Assistant Examiner    
Attorney/Law Firm     Irell & Manella
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Parent Case    
Priority Data    
USPTO Field of Search     128/303.1 128/395 128/396 128/397 128/398 604/96 604/101
Patent Tags     reducing blockage body channels
   
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 Technical Review Submit all comments and votes
 Claims Submit all comments and votes
 


What is claimed is:

1. An instrument for removing an obstruction in an internal body channel comprising:

an elongated catheter body adapted for insertion into a body channel having a first lumen throughout its length, said catheter body having a proximal end and an opposing distal end;

an elongated movable guide and laser transmission conduit means extending through said lumen of said catheter body and having a distal end that is extendable beyond the distal end of said catheter body and a proximal end, said proximal end of said conduit means adapted to be connected to a controlled source of laser energy; and

treatment means at the distal end of said catheter body for further reducing said obstruction following preliminary penetration thereof by said elongated movable guide and laser transmission means, wherein said treatment means comprises a laser transmission means fixed within a lumen of said catheter body and terminating at its distal end.

2. The instrument as described in claim 1 including an inflatable means affixed to the outer surface of said catheter body near its distal end for sealingly engaging the interior walls of the body channel.

3. The instrument as described in claim 1 wherein said treatment means comprises a plurality of glass fibers in a closely packed conduit having generally a circular cross-section, whose centerline is offset from the centerline of said catheter body.

4. The instrument as described in claim 1 wherein said treatment means comprises a plurality of glass fibers in a closely packed conduit having generally a crescent shape that partially surrounds said elongated movable guide and laser transmission conduit means.

5. The instrument as described in claim 1 wherein said treatment means comprises a plurality of fixed laser transmission conduit means spaced radially from and circumferentially spaced around said lumen of said catheter body.

6. The instrument as described in claim 5 wherein said plurality of fixed laser transmission conduit means comprises three spaced apart groups of closely packed glass fibers, all terminating at the distal end of said catheter body, each said group being connectable to a laser power source.

7. The instrument as described in claim 1 wherein said treatment means in said catheter body further comprises an inflatable means at its distal end which can be utilized to perform an angioplasty function on a diseased area of body channel following initial penetration thereofy by said elongated movable guide and laser transmission conduit means.

8. The instrument as described in claim 1 wherein elongated movable guide and laser transmission conduit means comprises an elongated member comprised of an outer coil of wire surrounding an inner core of fibero;ptic material.

9. The instrument as described in claim 1 wherein said catheter body is made of a flexible plastic material having a plurality of lumens along its length.

10. The instrument as described in claim 1 wherein said catheter body is less flexible than said elongated movable guide and laser transmission conduit means.

11. The instrument as described in claim 1 wherein said elongated movable guide and laser transmission conduit means is substantially longer than said catheter body and is comprised of at least one major section of length having an outer sheath formed from a wire coil surrounding a core of fiberoptic material, said coil being formed from wire having a rectangular cross section with coils being arranged close together, whereby said conduit means provides a guidewire function for advancing said catheter body in the body channel after it has utilized laser energy to remove the obstruction therein.

12. A method for removing an obstruction in an internal body channel, the method comprising the steps of:

inserting an elongated catheter body into the body channel being treated, said catheter body having a proximal end and an opposing distal end;

moving a combined guidewire and laser transmission conduit through said catheter body so that it extends beyond its distal end and near the channel obstruction being treated;

transmitting laser energy through said combined guidewire and laser transmission conduit and emitting it so as to destroy at least a portion of the channel obstruction and thereby provide an increased opening through the obstruction as the conduit moves forwardly therein;

further reducing said obstruction by emitting laser energy from a treatment means positioned at the distal end of said catheter body; and

thereafter utilizing said combined guidewire and laser transmission conduit to guide said catheter body further along into said body channel.

13. The method as set forth in claim 12 including the further steps of:

moving said catheter body along said combined guidewire and laser transmission conduit to a position close to said increased opening in said obstruction; and

using said treatment means to further reduce the size of the obstruction and thereby increase the cross-sectional area of the opening through the obstruction.

14. The method as set forth in claim 13 further including dilating an expandable balloon near the distal end of said catheter body to further reduce said obstruction.

15. The method as set forth in claim 13 further including slowly rotating said catheter body as laser energy is transmitted through its distal end, thereby sweeping an arcuate cross-sectional area of the obstruction in said body channel.

16. The method as set forth in claim 13 further including transmitting laser energy in bursts through a selected one or more of a plurality of laser transmission conduits in said catheter body whose ends are circumferentially spaced apart at its distal end.

17. A method for removing an obstruction in a body channel, the method comprising the steps of:

providing a flexible guidewire device having a fiber optic core, a proximal end portion, and distal end portion that can be advanced, retracted or rotated by axial or torsional manipulation and control of the device at a location near its proximal end portion;

inserting said guidewire device within a lumen of a larger catheter body having a proximal end and a distal end corresponding to the proximal end portion and the distal end portion of the guidewire device;

positioning said catheter body within a body channel;

moving said guidewire device through said catheter body to the proximity of a body channel obstruction;

transmitting laser energy through the core of said guidewire device to enlarge an opening through said obstruction and advancing said guidewire device within said opening;

utilizing said guidewire device to guide said catheter body as it moves further along in the body channel closer to the obstruction opening;

moving said catheter body along said guidewire device to a position close to said obstruction opening; and

using treatment means at the distal end of the catheter body to further reduce the size of the obstruction and thereby increase the cross-sectional area of the opening through the obstruction, wherein said treatment means comprises a laser transmission means and said further reduction of said obstruction is effected by emission of laser energy from said laser transmssion means.

18. The method as set forth in claim 17 further including dilating an expandable balloon near the distal end of said catheter body to further reduce said obstruction.

19. The method as set forth in claim 17 further including slowly rotating said catheter body as laser energy is transmitted through its distal end, thereby sweeping an arcuate cross-sectional area of the obstruction in said body channel.

20. The method as set forth in claim 17 further including transmitting laser energy in bursts through a selected one or more of a plurality of laser transmission conduits in said catheter body whose ends are circumferentially spaced apart at its distal end.

21. An instrument for removing an obstruction in an internal body channel comprising:

(a) an elongated catheter body having a proximal end and a distal end, the distal end of which is adapted for insertion into a body channel, and having a first lumen including a proximal end and a distal end corresponding to the proximal and distal ends of said catheter body;

(b) a movable, elongated, combination guiding and laser transmission device positioned within said first lumen and adapted for transmitting laser energy to an arteriosclerotic site in a blood vessel, the combination guiding and laser transmission device including a flexible sheathing surrounding said transmission device for at least a substantial portion of its length said sheating having a proximal end and a distal end corresponding to the proximal and distal ends of said catheter body, and having sufficient stiffness so that said device can be pushed through a body channel and turned therein by force applied near its proximal end and can also serve as a tracking means for said catheter body; and

(c) treatment means at the distal end of said catheter body for reducing the obstruction, wherein said treatment means comprises a fixed laser transmission means contained within a second lumen of said catheter body.

22. The device as described in claim 21 wherein said sheating is a coiled metal wire.

23. The device as described in claim 22 wherein said coiled wire has a rectangular cross section and the coils are close together.

24. The device as described in claim 22 wherein said metal sheathing has a modified "J" shaped tip at its distal end for ease of reaching arteriosclerotic sites within a blood vessel.

25. The device as described in claim 21, wherein said combination guiding and laser transmission device comprises a bundle of glass fibers.

26. The device as described in claim 21, wherein at least one opaque marker is provided at said distal end of said elongated catheter body, so that accurate positioning of the catheter body within a body channel can be controlled under fluoroscopy when in use.

27. The device as described in claim 26, wherein a plurality of opaque markers are provided at spaced intervals between said distal and proximal ends of said elongated catheter body.

28. The device as described in claim 26, wherein at least one intermediate portion of said combination guiding and laser transmission device is covered with an annular section of plastic material which enables a torsional force to be applied for turning the transmission device within said catheter body and within a body channel being treated.
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FIELD OF INVENTION

This invention pertains to the use of lasers in medicine, and more particularly to the guidance and positioning of light radiation using elongated, flexible transfer conduits for diagnostic use and/or therapeutic removal of obstructive disease in an internal body channel or cavity.

BACKGROUND OF THE INVENTION

Disease deposits which cause reduction of flow of body fluids in internal body channels occur in various body sites including the arteries, the ureters and the bile ducts. Conventional surgical techniques which are used to remove the obstructive material include operative procedures and minimally invasive procedures. In an operative procedure, skin incision directly exposes the disease site to facilitate removal of diseases. In a minimally invasive procedure, a surgical instrument is inserted percutaneously (through the skin) into a body channel or cavity and advanced to the disease site. The instrument may use various means (e.g. mechanical, chemical, photophysical) to remove the diseased area and restore normal flow.

In various techniques heretofore conceived for using laser energy as a means to remove diseased areas within body channels, the laser energy enters the proximal end of a radiation transfer conduit (e.g. an optical fiber), travels through the fiber and exits from a more distal operative end within the body channel to reach the treatment site. A major difficulty with these prior techniques was in providing adequate means for non-traumatically guiding the operative end of the radiation transfer conduit to the treatment area and then providing a sufficiently efficient means for removing all or a large portion of the diseased obstruction. Body channels may tortuously curve and branch and the radiation transfer conduit must therefore be flexible and yet maneuverable and controllable. Since manpulation of the transfer conduit must be controlled at one end thereof, the conduit must be capable of responsing to both torsional and pushing forces applied to its proximal end. Furthermore, during the obstruction removal process, the radiation transfer conduit must often pass through an area of obstruction to treat more distal areas wherein and beyond a lesion. In some situations, the obstruction may be quite large compared with the size of the beam of laser energy being applied. Therefore, in order to dissolve or reduce such obstructions the beam must be moved or additional treatment means must be utilized to reduce the obstructions after an initial or new channel has been made through the obstruction. Moreover, when any radiation transfer conduit is moved within the body channel, it is essential that its laser energy not be directed at non-contiguous sites within the obstructive deposits, and thereby avoid creating a hazard of embolic events. In addition, the newly created channel must be sufficiently wide to permit adequate re-establishment of the flow of body fluid despite the requirement of using a low profile radiation transfer conduit. Finally, the aforesaid problems were further complicated by specific site factors that often occur at different types of disease areas (e.g. atherosclerosis, uretheral stones, gallstones).

In U.S. Pat. No. 4,641,650 a method is disclosed for destroying atheromatous plaque within an artery of a patient using a catheter system including fiberoptical cable means which includes optical diagnostic means and a treatment fiber optical array means. The diagnostic means is used to sense the presence and location of the plaque in the artery so that the treatment means can be directed on the plaque and avoid damaging healthy tissue. However, despite the improvements in treatment results afforded by the aforesaid sensing system, there existed a need for a more effective system for removing body channel obstructions, and moreover one that was compatible with and could encorporate the sensing system.

Accordingly, a general object of the invention is to provide an improved method of delivering laser energy for the treatment of an area within a body channel or cavity.

Another object of the invention is to teach an improved method and to provide an instrument usable in said method capable of tunneling through a body channel or cavity and of also providing guidance and positioning capabilities that will provide an improved treatment modality in terms of safety and efficacy.

Another object of the invention is to teach an improved method and provide an instrument for enlarging an opening within a body channel or cavity by providing a means to deliver laser energy to contiguous area of diseases and thus diminish the chance of embolic events.

Yet another, more specific object of the invention is to provide an improved instrument of radiation transfer which can be inserted into a body channel having an obstruction and then be controlled to create or enlarge a first opening through the obstructive body channel such that said instrument can advance further through this first channel and thereafter serve as a directional guide for another component of the instrument capable of providing subsequent treatment when operationally interfaced with the diseased site.

Still another object of the present invention is to provide a catheter assembly for removing obstructions from a body channel wherein a first movable guidewire element with radiation capabilities is movable within a second larger catheter body having at least one radiation transfer conduit, so that the first element can be positioned to form an initial opening in the body channel obstruction being treated and then can serve as a guide means to advance the second larger catheter body so that its radiation transfer cnduit can be positioned near the channel obstruction to further dissolve diseased tissue and greatly enlarge the opening through the obstruction.

SUMMARY OF THE INVENTION

In accordance with one aspect of the invention, there is contemplated a method of removing atheromatous plaque to create