Surgery – Diagnostic testing – Detecting nuclear – electromagnetic – or ultrasonic radiation
Reexamination Certificate
2001-07-31
2002-12-03
Jaworski, Francis J. (Department: 3737)
Surgery
Diagnostic testing
Detecting nuclear, electromagnetic, or ultrasonic radiation
C600S439000
Reexamination Certificate
active
06488628
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to imaging procedures. More specifically, the present invention relates to methods and systems for imaging tissues surrounding arteries. The present invention is particularly, though not exclusively, useful for using intravascular ultrasound to profile an infiltration of a medicament into the tissue surrounding an artery.
BACKGROUND OF THE INVENTION
Angioplasty is a widely used procedure for treating a stenosis within a body vessel such as a human artery. Although the angioplasty procedure is generally successful in dilating the lumen of the vessel, and thereby allowing increased blood flow through the vessel, often times a restenosis occurs soon after the angioplasty procedure. It is widely recognized that the body's response (inflammation). to the tissue damage that occurs during an angioplasty procedure contributes to the occurrence of a restenosis. Several medicaments, however, are known to be efficacious for the prevention of a restenosis if properly delivered near the site of the inflammation. To that end, devices that are capable of penetrating the wall of a vessel with a dispenser and releasing a medicament into the vessel wall have been developed. For example, U.S. Pat. No. 5,713,863 which issued to Vigil et al. for an invention entitled “Catheter With Fluid Medication Injectors,” and which is assigned to the same assignee as the present invention, discloses such a device. It is the case, however, that these intravascular infusion devices can be used to deliver medicaments for prevention of restenosis as well as for other treatment and diagnostic purposes.
There are various forms of tissue injury that can result from an intravascular procedure, any one of which will trigger an inflammation response. As indicated above, such an inflammation response is widely recognized to contribute to the restenosis of the vessel. It is also known that this inflammation response will cause localized changes near the injured tissue including increased permeability and increased blood flow. This localized increase in blood flow and permeability will generally increase the dispersion rate of medicaments released near an injury in a vessel wall.
For a medicament to be effective in preventing a restenosis it must be delivered to a prescribed area and in a prescribed dosage. To do this efficiently, the size, shape and location of the prescribed treatment area must be determined, and this will depend on the amount and location of tissue injury. Also, the dispersion rate of the medicament will be affected by the amount of inflammation, the type of medicament, and the amount of medicament released. Due to the many variables involved, it would obviously be helpful to know exactly where the medicament has dispersed into tissue after it has been administered.
It happens that results of an intravascular infusion procedure are not the same from patient to patient. This may be due to a variety of reasons. One possible reason is the anatomical differences between patients. The differing results can also be due to different degrees of inflammation of the tissues, as discussed above. In any event, the actual distribution of the medicament has been a matter of estimate, based on clinical results. Heretofore, there has been no reliable in-vivo method to ascertain the success of an intravascular infusion procedure. Thus, it can be appreciated that it would be beneficial to know whether the medicament actually reached the target tissue. It would also be desirable to know whether the infused medicament is uniformly distributed in the target area. Of further interest to a clinician would be the concentration of the infused medicament in the tissues surrounding the arterial wall.
Information regarding the condition of tissues inside a patient can be obtained using diagnostic radiology. In particular, diagnostic ultrasound techniques can give information about tissue condition by differentiating between tissues at their anatomic boundaries inside the patient. Specifically, this happens as transmitted ultrasound waves reflect back to the transducer from these boundaries. The amplitude of the reflected ultrasound waves is then displayed as different shades of gray. Thus, anatomic structures with different acoustic density will be portrayed with different brightness. The introduction of a medicament into a tissue, however, changes its videodensitometry. Importantly, an ultrasonic image can show this difference.
Ultrasound technology is now available which will produce an inside view of an artery. Specifically, intravascular ultrasound, or IVUS, incorporates an ultrasound head within: a balloon catheter which can be used to obtain a cross sectional image of an artery. This image will also include the tissue that is surrounding the artery. An example of the use of IVUS can be found in the detection of plaque inside artery walls. Another example is the use of IVUS to determine the position and orientation of a probe during a procedure, using perivascular structures as landmarks.
In light of the above, it is an object of the present invention to provide a reliable method for profiling an infiltration of a medicament into the tissue surrounding an artery. Another object of the present invention is to provide a method and a system to determine the extent of the infiltration of the medicament into an arterial wall of a patient. A further object is to provide a system for quantitatively evaluating the distribution of the medicament in the tissue surrounding the artery. Yet another object of the present invention is to provide a method for profiling the infiltration of a medicament into the tissue surrounding the artery that is easy to perform, is safe, and is comparatively cost effective.
SUMMARY OF THE PREFERRED EMBODIMENTS
The present invention is directed to a method for determining the extent of an infiltration of a medicament into an arterial wall of a patient. Essentially, this is a two-step process. First, the medication is administered. Second, the extent of medication infiltration is determined. In accordance with the present method, a balloon catheter infusion device containing the fluid medicament is positioned in the artery of the patient at the treatment site. Upon being so positioned, the device then injects the medicament from inside the lumen of the artery into the wall of the artery. As the medicament is released, it infiltrates into the tissue surrounding the artery. It is anticipated that this procedure can be accomplished either at only one treatment site or repeated at a number of locations along the wall of the artery. This, of course depends on the pathology of the artery. In detail, when multiple infusions are to be performed, the infusion device is first advanced to a position in the artery that is most distal from the point of entry for the device. The device is then gradually pulled back through the artery, and the medicament is injected into selected sites along the arterial wall. When the infusion process is completed, the balloon catheter housing the infusion device is withdrawn from the artery.
In accordance with the present invention, after the infusion device has been withdrawn, another catheter is inserted into the lumen of the artery. This second catheter houses an intravascular ultrasound device (IVUS) of a type well known in the pertinent art. The IVUS is then advanced to the location of the infusion that is most distal from the point of entry of the device. The ultrasound is activated, and it begins imaging the arterial wall at a start point.
From this start point, the device is incrementally withdrawn, through the artery. This is preferably done using a motorized pullback device which will stabilize the IVUS in an axial orientation as it takes images of the artery between its incremental movements through the artery.
As the IVUS is thus pulled back along the axis of the artery, it creates a series of images at predetermined or preselected positions in the artery.
Each image, thus created, will represent the extent
Jaworski Francis J.
Kenyon & Kenyon
Sci-Med Life Systems, Inc.
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