Surgery – Instruments – Internal pressure applicator
Reexamination Certificate
2001-08-30
2003-10-28
Truong, Kevin T. (Department: 3731)
Surgery
Instruments
Internal pressure applicator
Reexamination Certificate
active
06638294
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates generally to medical devices used during vascular intervention, and more particularly, concerns medical devices that are useful in treating thromboembolic disorders and for removal of foreign bodies in the vascular system.
Thromboembolic disorders, such as stroke, pulmonary embolism, peripheral thrombosis, atherosclerosis, and the like, affect many people. These disorders are a major cause of morbidity and mortality in the United States and throughout the world. Thromboembolic events are characterized by an occlusion of a blood vessel. The occlusion can be caused by a clot which is viscoelastic (jelly-like) and is comprised of platelets, fibrinogen, and other clotting proteins.
When an artery is occluded by a clot, tissue ischemia (lack of oxygen and nutrients) develops. The ischemia will progress to tissue infarction (cell death) if the occlusion persists. Infarction does not develop or is greatly limited if the flow of blood is reestablished rapidly. Failure to reestablish blood-flow can lead to the loss of limb, angina pectoris, myocardial infarction, stroke, or even death.
Occlusion of the venous circulation by thrombi leads to blood stasis which can cause numerous problems. The majority of pulmonary embolisms are caused by emboli that originate in the peripheral venous system. Reestablishing blood flow and removal of the thrombus is highly desirable.
There are many existing techniques employed to reestablish blood flow in an occluded vessel. One common surgical technique, an embolectomy, involves incising a blood vessel and introducing a balloon-tipped device (such as a Fogarty catheter) to the location of the occlusion. The balloon is then inflated at a point beyond the clot and used to translate the obstructing material back to the point of incision. The obstructing material is then removed by the surgeon. While such surgical techniques have been useful, exposing a patient to surgery may be traumatic and is best avoided when possible. Additionally, the use of a Fogarty catheter may be problematic due to the possible risk of damaging the interior lining of the vessel as the catheter is being withdrawn.
Percutaneous methods are also utilized for reestablishing blood flow.
A common percutaneous technique is referred to as balloon angioplasty where a balloon-tipped catheter is introduced into a blood vessel, typically through an introducing catheter. The balloon-tipped catheter is then advanced to the point of the occlusion and inflated in order to dilate the stenosis. Balloon angioplasty is appropriate for treating vessel stenosis but is generally not effective for treating acute thromboembolisms.
Another percutaneous technique is to place a microcatheter near the clot and infuse Streptokinase, Urokinase, or other thrombolytic agents to dissolve the clot. Unfortunately, thrombolysis typically takes hours to days to be successful. Additionally, thrombolytic agents can cause hemorrhage and in many patients the agents cannot be used at all.
Another problematic area is the removal of foreign bodies. Foreign bodies introduced into the circulation can be fragments of catheters, pace-maker electrodes, guide wires, and erroneously placed embolic material such as thrombogenic coils. There exists retrieval devices for the removal of foreign bodies, certain of such devices form a loop that can ensnare the foreign material by decreasing the size of the diameter of the loop around the foreign body. The use of such removal devices can be difficult and sometimes unsuccessful.
Moreover, systems heretofore disclosed in the art are generally limited by size compatibility and the increase in vessel size as the emboli is drawn out from the distal vascular occlusion location to a more proximal location near the heart. If the embolectomy device is too large for the vessel it will not deploy correctly to capture the clot or foreign body, and if too small in diameter it cannot capture clots or foreign bodies across the entire cross section of the blood vessel. Additionally, if the embolectomy device is too small in retaining volume then as the device is retracted the excess material being removed can spill out and be carried by flow back to occlude another distal vessel.
Various thrombectomy and foreign matter removal devices have been disclosed in the art. However, such devices have been found to have structures which are either highly complex or lacking in sufficient retaining structure. Disadvantages associated with the devices having highly complex structure include difficulty in manufacturability as well as difficulty in use in conjunction with microcatheters. Recent developments in the removal device art features umbrella filter devices having self folding capabilities. Typically, these filters fold into a pleated condition, wherein the pleats extend radially and can obstruct retraction of the device into the microcatheter sheathing.
What has been needed and heretofore unavailable is an extraction device that can be easily and controllably deployed into and retracted from the circulatory system for the effective removal of clots and foreign bodies. There is also a need for a system that can be used as a temporary arterial or venous filter to capture and remove thromboemboli generated during endovascular procedures. Moreover, due to difficult-to-access anatomy such as the cerebral vasculature and the neurovasculature, the invention should possess a small collapsed profile and preferably be expandable to allow the device to be delivered through the lumen of commercially available catheters. The present invention satisfies these needs.
SUMMARY OF THE INVENTION
Briefly, and in general terms, the present invention is directed to an improvement in devices for removing embolic or foreign material from a vessel. In one aspect, the present invention is a medical device which includes an elongate member having a proximal end portion for manipulation by an operator and a distal end portion which is attached to a filter or capture device. This filter or capture device includes a body having a plurality of struts extending from the elongate member to a basket or cage structure. The basket or cage structure includes a proximally directed opening and a generally conical shape in an expanded configuration. When the basket or cage is placed in a compressed or closed configuration pleats are formed in the basket or cage and certain of the struts operate to fold the pleats to thereby define a relatively sleek profile.
In another aspect of the invention, the struts include a first set of arms and a second set of arms, single members of which are interspaced between adjacent pairs of arms of the first set when the medical device is in an expanded configuration. Each of the arms of the second set include a proximal portion defining a slight helix so that when the medical device is compressed radially, the arms of the second set rotate with respect to the arms of the first set. Such action accomplishes the folding or furling of the pleats of the basket or cage. It is contemplated that the medical device of the present invention can further include an atramatic distal end portion projecting distally from the cage or basket. Additionally, the cage or basket is defined by various structures including weaved fabrics or interconnected metal struts with or without a membrane extending thereacross.
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Advanced Cardiovascular Systems Inc.
Fulwider Patton Lee & Utecht LLP
Truong Kevin T.
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