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Methods and devices for treatment of vascular defects

Inactive Publication Date: 2011-01-27
MICROVENTION INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

Some embodiments of a device for treatment of a patient's vasculature include an expandable body support structure. The expandable body support structure may include a low profile radially constrained state with an elongated tubular configuration that includes a first end, a second end, a longitudinal axis and elongate flexible struts disposed substantially parallel to each other with first ends thereof secured to a first ring and second ends thereof secured to a second ring. The first and second rings may be disposed substantially concentric to the longitudinal axis, and a middle portion of the expandable body may have a first transverse dimension with a low profile suitable for delivery from a microcatheter. The expandable body may also have an expanded relaxed state

Problems solved by technology

Due to the force exerted by the flowing blood on the blood vessel the blood vessels may develop a variety of vascular defects.
If, for example, an aneurysm is present within an artery of the brain, and the aneurysm should burst with resulting cranial hemorrhaging, death could occur.
Unfortunately, surgical techniques for treating these conditions include major surgery procedures which often require extended periods of time under anesthesia involving high risk to the patient.
Vaso-occlusive coils are commonly used to treat cerebral aneurysms but suffer from several limitations including poor packing density, compaction due to hydrodynamic pressure from blood flow, poor stability in wide-necked aneurysms and complexity and difficulty in the deployment thereof as most aneurysm treatments with this approach require the deployment of multiple coils.
In the treatment of cerebral aneurysms, covered stents or stent-grafts have seen very limited use due to the likelihood of inadvertent occlusion of small perforator vessels that may be near the vascular defect being treated.
In addition, current uncovered stents are generally not sufficient as a stand-alone treatment.
Thus, they do not block enough flow to cause clotting of the blood in the aneurysm and are thus generally used in combination with vaso-occlusive devices, such as the coils discussed above, to achieve aneurysm occlusion.
A number of aneurysm neck bridging devices with defect spanning portions or regions have been attempted, however, none of these devices have had a significant measure of clinical success or usage.
A major limitation in their adoption and clinical usefulness is the inability to position the defect spanning portion to assure coverage of the neck.
Existing stent delivery systems that are neurovascular compatible (i.e. deliverable through a microcatheter and highly flexible) do not have the necessary rotational positioning capability.
Another limitation of many aneurysm bridging devices described in the prior art is the poor flexibility.

Method used

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  • Methods and devices for treatment of vascular defects
  • Methods and devices for treatment of vascular defects
  • Methods and devices for treatment of vascular defects

Examples

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embodiment 20

The defect spanning portion may be formed of a sheet material or fabric that is attached to the one or more surfaces of the support structure. Alternatively, the defect spanning portion may be fabricated as an integral part of the overall structure. These integral members may be cut by laser, photochemical etching or electrical discharge machining (EDM). In some embodiments, the defect spanning strut members 18 have at least one portion that has a wave-like shape as shown in the support structure embodiment 20 in FIG. 3. For some embodiments, material may be attached to the structure such that it substantially reduces the size of the fenestrations or cells and thus reduces the porosity in that area. For example, coatings, filaments, fibers, wires, struts, ribbons, sheet or fabric may be connected to portions of the structure to create small fenestrations or cells and thus higher density of the defect spanning portion (as shown in FIG. 18 below). Active materials such as a responsive...

embodiment 400

FIGS. 33 and 34 illustrate an embodiment of a device 420 that may have the same or similar features, dimension and materials as those of the device of FIGS. 29-32. The device for treatment of a patient's vasculature 420 shown in FIG. 33 includes a substantially flattened first end 422 or side of the device a support structure 424 and a defect spanning structure 426. FIG. 34 illustrates an outline of an embodiment of a device for treatment of a patient's vasculature 440 that includes a trunk portion 442 extending from a first end 444 of the device. The trunk portion 442 is a somewhat cylindrical extension extending from the nominal globular or spherical shape of the device. For some of these embodiments, the detachment hub 412 may be recessed so that the profile of the device in the blood vessel lumen is reduced. The device embodiments 420 and 440 of FIGS. 33 and 34 may be delivered and deployed in the same manner and with any of the same devices and methods as those discussed above ...

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Abstract

Devices and methods for treatment of a patient's vasculature with some embodiments configured for delivery with a microcatheter for treatment of the cerebral vasculature of a patient. Some embodiments include thin permeable membranes configured to occlude blood flow therethrough.

Description

FIELD OF THE INVENTIONGenerally, embodiments of devices and methods herein are directed to blocking a flow of fluid through a tubular vessel or into a small interior chamber of a saccular cavity within a mammalian body. More specifically, embodiments herein are directed to devices and methods for treatment of a vascular defect of a patient including some embodiments directed specifically to the treatment of cerebral aneurysms of patients.BACKGROUNDThe mammalian circulatory system is comprised of a heart, which acts as a pump, and a system of blood vessels which transport the blood to various points in the body. Due to the force exerted by the flowing blood on the blood vessel the blood vessels may develop a variety of vascular defects. One common vascular defect known as an aneurysm results from the abnormal widening of the blood vessel. Typically, vascular aneurysms are formed as a result of the weakening of the wall of a blood vessel and subsequent ballooning and expansion of the ...

Claims

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Application Information

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IPC IPC(8): A61F2/82A61F2/84
CPCA61B17/12022A61F2230/0054A61B17/12172A61B17/12177A61B17/1219A61F2/0077A61F2/91A61F2/915A61F2002/823A61F2002/9155A61F2002/91558A61F2/06A61F2/86A61F2/82A61F2/90A61F2230/006A61F2230/0076A61F2210/0076A61F2220/005A61F2220/0075A61B17/12118A61F2230/0069A61B17/12031A61B2017/1205A61B17/12181
Inventor COXSCHAEFER, DEANROSENBLUTH, ROBERT F.
Owner MICROVENTION INC
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