A systems and method for reducing coating defects on a stent may involve a support apparatus comprising wire cage for carrying a stent. The support apparatus may have no structure that extends inside the stent. A support apparatus may include a plurality of wires that pass through the stent but do n
A systems and method for reducing coating defects on a stent may involve a support apparatus comprising wire cage for carrying a stent. The support apparatus may have no structure that extends inside the stent. A support apparatus may include a plurality of wires that pass through the stent but do not pass through the midplane of the stent. A support apparatus may contact only the proximal ends of the stent. The method may involve keeping the stent in motion during a spray coating process to prevent the stent from having a point remain in continuous contact with a support apparatus.
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1. A method of coating a stent having an outer surface facing radially outward and an inner surface facing radially inward, the inner surface forming a passageway that extends through the center of the stent from a distal end of the stent to a proximal end of the stent, the passageway having a circu
1. A method of coating a stent having an outer surface facing radially outward and an inner surface facing radially inward, the inner surface forming a passageway that extends through the center of the stent from a distal end of the stent to a proximal end of the stent, the passageway having a circular opening at each of the distal and proximal ends, the stent having a central axis extending through the center of the circular openings, the method comprising: retaining the stent on an apparatus, wherein no part of the apparatus intersects a midplane of the stent, the midplane located halfway between the distal and proximal ends, the outer surface of the stent defining the outer boundary of the midplane, the midplane perpendicular to the central axis of the stent; anddischarging a coating substance onto the stent while the stent is retained on the apparatus; andwherein retaining the stent includes placing the stent inside a wire cage of the apparatus, the wire cage including wires that support and contact the stent; the method further comprising rotating the wire cage 360 degrees during which time the wire cage has no point that remains in continuous contact with the stent. 2. A method of coating a stent having an outer surface facing radially outward and an inner surface facing radially inward, the inner surface forming a passageway that extends through the center of the stent from a distal end of the stent to a proximal end of the stent, the passageway having a circular opening at each of the distal and proximal ends, the stent having a central axis extending through the center of the circular openings, the method comprising: retaining the stent on an apparatus, wherein no part of the apparatus intersects a midplane of the stent, the midplane located halfway between the distal and proximal ends, the outer surface of the stent defining the outer boundary of the midplane, the midplane perpendicular to the central axis of the stent;discharging a coating substance onto the stent while the stent is retained on the apparatus; androtating the stent 360 degrees about the central axis of the stent while the stent is retained on the apparatus, during which time the stent has no point that remains in continuous contact with the apparatus,wherein retaining the stent includes supporting the distal end of the stent with a first wire of the apparatus and supporting the proximal end of the stent with a second wire of the apparatus, the first and second wires each extend into the passageway of the stent by a distance that is no greater than 25% of the distance from the proximal end of the stent to the distal end of the stentwherein the stent includes a proximal end segment at the proximal end of the stent, a distal segment at the distal end of the stent, and an intermediate segment between the proximal and distal end segments, and wherein retaining the stent includes passing transverse wire of the apparatus through gaps between struts of the stent located at the intermediate segment of the stent, and the method further comprises transmitting torque or rotational force from the transverse wires to the stent in order to rotate the stent. 3. A method of coating a stent having an outer surface facing radially outward and an inner surface facing radially inward, the inner surface forming a passageway that extends through the center of the stent from a distal end of the stent to a proximal end of the stent, the passageway having a circular opening at each of the distal and proximal ends, the stent having a central axis extending through the center of the circular openings, the method comprising: retaining the stent on an apparatus, wherein no part of the apparatus intersects a midplane of the stent, the midplane located halfway between the distal and proximal ends, the outer surface of the stent defining the outer boundary of the midplane, the midplane perpendicular to the central axis of the stent;discharging a coating substance onto the stent while the stent is retained on the apparatus;discharging gas onto the stent to rotate the stent, wherein discharging the gas includes concentrating the gas onto a portion of the stent that is off-center from the central axis of the stent; andcirculating the discharged gas in a circular direction around the outer surface of the stent to induce rotation of the stent around the central axis of the stent. 4. The method of claim 1, wherein during the rotating of the wire cage, the wire cage has no point that remains in continuous contact with the stent through 180 degrees of the rotation. 5. The method of claim 1, wherein during the rotating of the wire cage, the wire cage has no point that remains in continuous contact with the stent through 90 degrees of the rotation. 6. The method of claim 1, wherein the wire cage includes longitudinal wires that support and retain the stent. 7. The method of claim 6, wherein the wire cage includes circumferential wires that support and retain the stent. 8. The method of claim 2, wherein during the rotating of the stent while the stent is retained on the apparatus, the stent has no point that remains in continuous contact with the apparatus through 180 degrees of the rotation. 9. The method of claim 3, wherein the portion of the stent on which the gas is concentrated is located at one side of the central axis of the stent, and the discharging of the gas further includes concentrating the gas onto another portion of the stent located at another side of the central axis of the stent. 10. The method of claim 3, wherein during the discharging of the gas, the stent is at least partially surrounded by a curved, cylindrical surface shaped to channel or direct a stream of the gas in a circular direction around the outer surface of the stent.
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이 특허에 인용된 특허 (4)
Malcolm Albert Austin PL; Robert Otto Brandt, Jr. ; Ray Louis Peterson ; David Mendel Nathan ; Gregg Alan Martell ; Peter Thomas Kashulines, Jr., Coating and drying apparatus.
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