Method and system for improving the effectiveness of medical stents by the application of gas cluster ion beam technology
First Claim
Patent Images
1. An apparatus for smoothing and/or cleaning at least one surface of a medical stent comprising:
- a vacuum vessel;
a gas cluster ion beam source within the vacuum vessel for producing a gas cluster ion beam;
an accelerator for accelerating the gas cluster ion beam along a path having a beam axis; and
a manipulator including a medical stent bolder for positioning the medical stent within the gas cluster ion beam path for processing.
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Reexamination
Accused Products
Abstract
Numerous studies suggest that the current popular designs of coronary stents are functionally equivalent and suffer a 16 to 22 percent rate of restenosis. Although the use of coronary stents is growing, the benefits of their use remain controversial in certain clinical situations or indications due to their potential complications. The application of gas cluster ion beam (GCIB) surface modification such as smoothing or cleaning appears to reduce these complications and lead to genuine cost savings and an improvement in patient quality of life. The present invention is directed to the use of GCIB surface modification to overcome prior problems of thrombosis and restenosis. The atomic level surface smoothing of stents utilizing GCIB substantially reduces undesirable surface micro-roughness in medical coronary stents.
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Citations
33 Claims
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1. An apparatus for smoothing and/or cleaning at least one surface of a medical stent comprising:
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a vacuum vessel;
a gas cluster ion beam source within the vacuum vessel for producing a gas cluster ion beam;
an accelerator for accelerating the gas cluster ion beam along a path having a beam axis; and
a manipulator including a medical stent bolder for positioning the medical stent within the gas cluster ion beam path for processing. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
said at least two different axes of rotation and said beam axis all intersect each other at a common point; and said medical stent holder positions the medical stent at a predetermined angle with respect to at least one of said two different axes of rotation.
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7. The apparatus of claim 6, wherein one of said at least two different axes of rotation intersects said beam axis approximately perpendicularly thereto.
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8. The apparatus of claim 6, wherein said predetermined angle is in the range of approximately 15 degrees to approximately 45 degrees.
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9. The apparatus of claim 6, wherein said predetermined angle is approximately 45 degrees.
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10. The apparatus of claim 7, wherein said predetermined angle is in the range of approximately 15 degrees to approximately 45 degrees with respect to said one of said at least two different axes of rotation.
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11. The apparatus of claim 7, wherein said predetermined angle is approximately 45 degrees with respect to said one of said at least two different axes of rotation.
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12. The apparatus of claim 4, wherein the repositioning mechanism rotates the medical stent about two of said at least two different axes of rotation at two different rates of rotation.
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13. The apparatus of claim 12, wherein the two different rates of rotation are in the ratio N:
- M, where N divided by M is not an integer and where M divided by N is not an integer.
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14. The apparatus of claim 12, wherein the medical stent is substantially cylindrical and has an axis aligned with one of the two of said at least two different axes of rotation;
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rotation of the medical stent about said one of the two of said at least two different axes of rotation aligned with the stent axis is more rapid than rotation about the other of the two of said at least two different axes of rotation.
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15. The apparatus of claim 2, wherein the repositioning mechanism positions multiple surfaces of the medical stent for irradiation by the gas cluster ion beam path at angles of beam incidence that are in the range of less than about +/−
- 65 degrees from normal incidence of the beam axis with respect to the multiple surfaces of the medical stent.
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16. The apparatus of claim 15, wherein the angles of beam incidence are in the range of less than about +/−
- 45 degrees from normal incidence.
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17. The apparatus of claim 1 further comprising scanning means for scanning the gas cluster ion beam and the medical stent relative to each other.
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18. A method for smoothing and/or cleaning at least one surface of a medical stent comprising the steps of:
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forming a gas cluster ion beam in a vacuum chamber;
accelerating the gas cluster ion beam;
positioning the medical stent in the vacuum chamber to receive the gas cluster ion beam for processing; and
irradiating at least one surface of the medical stent with a predetermined dose of gas cluster ions having a predetermined energy to reduce small scale surface roughness on the surface. - View Dependent Claims (19, 20, 21, 22, 23)
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24. An apparatus for holding and manipulating a cylindrical object having an object axis within a beam path having a beam axis, for surface irradiation, said apparatus comprising:
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an object holder for positioning the cylindrical object in the path of the beam;
a repositioning mechanism operably connected to said object holder for repositioning the cylindrical object in the beam path by rotating the cylindrical object about at least a first axis of rotation and a second axis of rotation;
the first axis of rotation and the second axis of rotation intersecting each other within the beam path at an angle of intersection that is in the range of approximately 15 degrees to approximately 45 degrees; and
the cylindrical object being positioned by said object holder such that the object axis is substantially aligned with the second axis of rotation. - View Dependent Claims (25)
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26. An apparatus for modifying at least one surface of a medical stent comprising:
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a vacuum vessel;
a gas cluster ion beam source within the vacuum vessel for producing a gas cluster ion beam;
an accelerator for accelerating the gas cluster ion beam along a path having a beam axis; and
a manipulator including a medical stent holder for positioning the medical stent within the gas cluster ion beam path for processing, said manipulator further comprising a repositioning mechanism for repositioning the medical stent in the gas cluster ion beam path by rotating said medical stent about at least two different axes of rotation at two different rates of rotation wherein said rates are in the ratio N;
M, where N divided by M is not an integer and where M divided by N is not an integer.
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27. An apparatus for modifying at least one surface of a medical stent comprising:
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a vacuum vessel;
a gas cluster ion beam source within the vacuum vessel for producing a gas cluster ion beam;
an accelerator for accelerating the gas cluster ion beam along a path having a beam axis;
a manipulator including a medical stent holder for positioning the medical stent within the gas cluster ion beam path for processing; and
a scanning means for scanning the gas cluster ion beam and the medical stent relative to each other.
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28. An apparatus for holding and manipulating a cylindrical object having an object axis within a beam path having a beam axis, for surface irradiation, said apparatus comprising:
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an object holder for positioning the cylindrical object in the path of the beam;
a repositioning mechanism operably connected to said object holder for repositioning the cylindrical object in the beam path by rotating the cylindrical object about at least a first axis of rotation and a second axis of rotation;
the first axis of rotation and the second axis of rotation intersecting each other within the beam path at an angle of intersection that is in the range of approximately 15 degrees to approximately 45 degrees;
the cylindrical object being positioned by said object holder such that the object axis is substantially aligned with the second axis of rotation; and
a means for rotating said repositioning mechanism and said object holder such that the rotation of the cylindrical object about the first axis of rotation and about the second axis of rotation are at two different rates of rotation in the ratio N;
M where N divided by M is not an integer and where M divided by N is not an integer.- View Dependent Claims (29)
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30. An apparatus for holding and manipulating a cylindrical object having an object axis within a beam path having a beam axis, for surface irradiation, said apparatus comprising:
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an object holder for positioning the cylindrical object in the path of the beam;
a repositioning mechanism operably connected to said object holder for repositioning the cylindrical object in the beam path by rotating the cylindrical object about at least a first axis of rotation and a second axis of rotation, wherein said first axis of rotation is substantially perpendicular to the beam axis;
the first axis of rotation and the second axis of rotation intersecting each other within the beam path at an angle of intersection that is in the range of approximately 15 degrees to approximately 45 degrees;
the cylindrical object being positioned by said object holder such that the object axis is substantially aligned wit the second axis of rotation; and
a means for rotating said repositioning mechanism and said object holder such that the rotation of the cylindrical object about the first axis of rotation and about the second axis of rotation are at two different rates of rotation in the ratio N;
M where N divided by M is not an integer and where M divided by N is not an integer.- View Dependent Claims (31)
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32. An apparatus for holding and manipulating a cylindrical object having an object axis within a beam path having a beam axis, for surface irradiation, said apparatus comprising:
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an object holder for positioning the cylindrical object in the path of the beam;
a repositioning mechanism operably connected to said object holder for repositioning the cylindrical object in the beam path by rotating the cylindrical object about at least a first axis of rotation and a second axis of rotation;
the first axis of rotation and the second axis of rotation intersecting each other within the beam path at an angle of intersection that is in the range of approximately 15 degrees to approximately 45 degrees; and
the cylindrical object being positioned by said object holder such that the object axis is substantially aligned with the second axis of rotation, said object holder comprising a means for removably attaching to the cylindrical object by being inserted with the object along the object axis.
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33. An apparatus for smoothing and/or cleaning at least one surface of a medical stent, the apparatus comprising:
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a vacuum vessel;
a gas cluster ion beam source within the vacuum vessel for producing a gas cluster ion beam;
an accelerator for accelerating the gas cluster ion beam along a path having a beam axis;
a scanning means for scanning the gas duster ion beam and the medical stent relative to each other; and
a manipulator including a medical stent holder for positioning the medical stent for scanning by the gas cluster ion beam for processing said manipulator also repositioning the medical stent by rotating the medical stent about two different axes of rotation, said two different axes of rotation substantially intersecting each other at a point within the gas cluster ion beam path.
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Specification
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Litigation Data
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Current AssigneeExogenesis Corporation
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Original AssigneeEpion Corporation (Tokyo Electron Limited)
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InventorsBecker, Robert K., Freytsis, Avrum, Kirkpatrick, Allen R.
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Primary Examiner(s)VERSTEEG, STEVEN H
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Application NumberUS09/901,204Publication NumberTime in Patent Office918 DaysField of Search204/192.11, 204/192.34, 204/298.04, 204/298.15, 204/298.23, 204/298.27, 204/298.28, 204/298.36, 118/723.CB, 118/730, 118/500, 118/66, 156/345, 427/224, 427/228, 427/595US Class Current427/2.28CPC Class CodesA61F 2/91 made from perforated sheet ...C23F 3/00 Brightening metals by chemi...H01J 2237/0812 Ionized cluster beam [ICB] ...
