Surgery – Instruments – Light application
Reexamination Certificate
2001-09-06
2003-03-04
Gibson, Roy D. (Department: 3739)
Surgery
Instruments
Light application
C606S008000, C606S127000
Reexamination Certificate
active
06527763
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates generally to at least partial removal of occlusive material from a body vessel with acoustic phenomena resulting from radiation energy pulses delivered through optical fiber media to the vessel, and, more specifically, to methods and apparatus for generating flow within a body lumen to facilitate disruption of occlusive material and recanalization of the occluded vessel. The term “clot” is used herein to refer to a thrombus, embolus or some other total or partial occlusion of a vessel. The term “emulsify” means to break apart or disrupt by photo-acoustic or mechanical or other phenomena into particle(s) smaller than the original occlusive material.
Various embodiments for delivering radiation energy to body lumens for ablative and photo-acoustic recanalization have been previously disclosed. However, none of these embodiments are capable of generating fluid flow within the vessel that can be used to improve the degree of emulsification of an occlusion.
Therefore, it is an object of the present invention to provide techniques and apparatus that use pulsed radiation energy to generate fluid flow and/or to perform mechanical work within body lumens.
It is another object of the present invention to recanalize body vessels by disrupting total or partial occlusions using the disclosed flow techniques and apparatus.
It is a further object of the present invention to provide improved techniques for removing obstructions from the human body, particularly clots from cerebral blood vessels, without causing collateral damage to the vessel.
It is an object of the present invention to provide a method (and apparatus) for attracting rather than repelling occlusive material to the photoacoustic source of disruption so as to potentially enhance the amount and/or degree of emulsification.
Some or all of these objects are achievable with the various embodiments disclosed herein.
SUMMARY OF THE INVENTION
These and other objects are accomplished by the various aspects of the present invention, wherein, briefly and generally, a device having at least one inlet port, at least one outlet port (which may be distal from or proximal to the external environment), and at least one optical fiber having a distal end positioned relative to the ports such that when pulsed radiation energy is delivered to a body vessel via the optical fiber, fluid is caused to pass through the inlet port and to travel towards the outlet port, preferably past the optical fiber distal end. The repetitive formation and collapse of bubbles in the ambient fluid creates this flow phenomenon, which in turn results from the repetitive absorption of radiation pulses by the fluid. This flow phenomenon can be used to enhance the total or partial mechanical disruption or emulsification of occlusions with photoacoustic phenomena (all of which was previously described in the '858 application) by causing ambient fluid and occlusive material to be drawn towards the recanalization apparatus. The invention can also result in localized emulsification of occlusive material or partial or complete removal of that material from the body. The capability of radiation energy to cause mechanical work to be performed is demonstrated by the present invention.
Multiple fibers can be arranged in such a manner that one or more fibers generate the pumping phenomenon and/or one or more fibers contribute to the clot emulsification by generating the acoustic phenomena described in the previous '858 application, and/or one or more fibers contribute to mechanical disruption of the clot as disclosed herein, for example.
The use of very small diameter optical fibers allows the desired pumping to be achieved and acoustic waves to be generated with a relatively low amount of radiation pulse energy, thereby keeping the amount of heat input to the vessel at a low level. Proper thermal management according to the present invention reduces the likelihood of damaging the walls of the blood vessel adjacent the occlusion, which is especially important for the relatively thin walled vessels of the brain in which the present invention has application. Further, it is desirable that radiation pulses not causing the desired fluid flow or not being efficiently converted into the desired acoustic waves be terminated in order to prevent inputting energy that heats the region without doing useful work, as has been described in both previous applications.
Additional objects, features and advantages of the various aspects of the present invention will be better understood from the following description of its preferred embodiments, which description should be taken in conjunction with the accompanying drawings.
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Anderson R. Rox
Esch Victor C.
Tran Quang Q.
De Runtz K. Alison
Endovasix, Inc.
Gibson Roy D.
Skjerven Morrill LLP
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