Surgery – Magnetic field applied to body for therapy – Magnetic element placed within body
Reexamination Certificate
1999-10-29
2002-04-23
Nasser, Robert L. (Department: 3736)
Surgery
Magnetic field applied to body for therapy
Magnetic element placed within body
Reexamination Certificate
active
06375606
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to methods of and apparatus for treating vascular defects, such as aneurysms and atriovenous malformations, and in particular a method and related apparatus for treating such defects with magnetically manipulated objects and materials.
BACKGROUND OF THE INVENTION
There are many types of vascular defects that can be treated by blocking the defect. One example of such a defect is an aneurysm, which is a permanent, abnormal blood-filled dilatation or ballooning of a blood vessel that may be congenital or the result of disease. Aneurysms typically have thin walls vulnerable to rupture. If an aneurysm ruptures, the resulting hemorrhage that can put injurious pressure on surrounding tissue, impair downstream blood flow, and even cause death. Another example of a vascular defect is an atriovenous malformation—a typically congenital shunt formed between an artery and a vein that often carries a substantial blood flow. One of the principal complications in treating these and other vascular defects is the blood flow in the adjacent vessels which impairs treatment, but should be maintained for the health of the patient.
Current treatments for aneurysms include embolizing the aneurysm to remove the dilatation or balloon from the wall of the vessel. In the most mature technique, the surgeon accesses the region of the aneurysm under direct visualization and places one or more aneurysm clips on the opening or “neck” of the aneurysm. While this conventional surgical technique has a high rate of success, it is highly invasive and for that reason it is undesirable. More recently, less invasive techniques have been developed for the treatment of aneurysms. One such technique involves the introduction of small wire coils into the aneurysm. A catheter is navigated to the site of the aneurysm, and the coils are delivered through the lumen of the catheter into the aneurysm. The coils reduce the blood flow through the aneurysm, which results in clotting within the aneurysm. This coiling procedure can be time consuming both in navigating the catheter through the vasculature to the site of the aneurysm, and in introducing the coils into the aneurysm. In some cases, the shape of the aneurysm allows the coils to escape from the aneurysm, requiring the coil to be retrieved and replaced.
Another less invasive technique for treating vascular defects is the delivery of embolic materials to the site of the vascular defect to occlude the defect. In the case of an aneurysm a balloon is inflated over the neck of the aneurysm and a liquid embolic agent is introduced into the aneurysm. Attempts have been made to deliver embolic agents directly into the dilation or balloon of the aneurysm. Embolic agents have also been used to occlude atriovenous malformations, but it can be difficult to accurately deliver the embolic agents. In one of the more common procedures a catheter is navigated to the site of the atriovenous malformation and particles of polyvinyl alcohol with sizes selected for the particular application are introduced. This procedure requires guessing at the proper size of the particles and there is limited control over the placement of the particles, which upon release follow the path of greatest flow.
SUMMARY OF THE INVENTION
The present invention provides improved methods and related devices for treating vascular defects. According to one aspect of this invention, various magnetic objects are provided that can be delivered intravascularly through a catheter and which can be guided into and/or held in place in the vascular defect with an applied magnetic field. One embodiment of these magnetic objects includes magnetic coils. These coils may either be magnetic, or include magnetic elements. Another embodiment of these magnetic objects includes a magnetic patch, adapted to cover the vascular defect. The magnetic patch may include a hoop for ensuring that the patch is fully deployed.
In another aspect of this invention, a catheter is provided for delivering the magnetic objects and materials of the present invention. The catheter has a proximal end and a distal end, and lumen therebetween. There is a coil at the distal end, and leads extending along the catheter by which a current can be selectively applied to the coil at the distal end
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of the catheter. Current can be selectively applied to the coil on the distal end of the catheter to selectively enhance the magnetic responsiveness of the distal end of the catheter so that it can be navigated in the body with an externally applied magnetic field, but the coil can be disconnected from current so that the coil does not interfere with the delivery of magnetic objects or magnetic materials through the lumen. The magnetism created by the current in the coil is enhanced by the presence of the magnetic objects or the magnetic material in the lumen of the catheter. The coil can also be energized to help retain magnetic materials in the lumen of the catheter. A second coil may be provided on the catheter to enhance magnetic responsive and to enhance the ability to retain magnetic materials in the lumen. In another embodiment, lateral coils (as opposed to circumferential coils) are provided in the sidewall of the catheter. These coils facilitate movement of the distal end
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of the catheter, for example when it is n the opening of an aneurysm.
Thus, the method and devices of the present invention allows a catheter to be brought to the procedure site through magnetically assisted navigation, but the catheter can remain at the site as a further magnetic procedure, such as the magnetic delivery of magnetic objects and magnetic materials, is conducted.
REFERENCES:
patent: 5353807 (1994-10-01), DeMarco
patent: 5851218 (1998-12-01), Lev
patent: 5895385 (1999-04-01), Gugliemi et al.
patent: 5951566 (1999-09-01), Lev
patent: 6015414 (2000-01-01), Werp et al.
Laksne et al, Iron-acrylic Compound for Stereotaxic Aneurysm Thrombosis, J Neurosurgery 47:137-141 (1977).
Garibaldi Jeffrey M.
Hastings Roger N.
Hogg Bevil J.
Ren Brooke
Harness Dickey & Pierce PLC
Nasser Robert L.
Stereotaxis, Inc.
Szmal Brian
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