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This invention is directed to a new method of mass-transfer/fabrication of micro-sized features/structures onto the inner diameter (ID) surface of a stent. This new approach is provided by technique of through mask electrical micro-machining. One embodiment discloses an application of electrical mic

This invention is directed to a new method of mass-transfer/fabrication of micro-sized features/structures onto the inner diameter (ID) surface of a stent. This new approach is provided by technique of through mask electrical micro-machining. One embodiment discloses an application of electrical micro-machining to the ID of a stent using a customized electrode configured specifically for machining micro-sized features/structures.

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1. A patterned masked electrode, comprising: a. A generally cylindrical electrically conductive electrode member having an outer surface, a first end, a second end and a workpiece mounting region intermediate the first end and the second end; b. A non-conductive coating on the outer surface of the e

1. A patterned masked electrode, comprising: a. A generally cylindrical electrically conductive electrode member having an outer surface, a first end, a second end and a workpiece mounting region intermediate the first end and the second end; b. A non-conductive coating on the outer surface of the electrode member; and c. A micro-pattern defined in the non-conductive coating passing through the non-conductive coating and exposing defined portions of the electrode member, the micro-pattern corresponding to a plurality of continuous elongate slots adapted to transfer electrical energy through the micro-pattern of a plurality of continuous elongate slots to a surface of a workpiece positioned on the workpiece mounting region, and each of the plurality of continuous elongate slots extend along an entire longitudinal axis of the workpiece mounting region. 2. The patterned masked electrode of claim 1, wherein the non-conductive coating is of a material capable of being vacuum deposited onto the outer surface of the electrode member. 3. The patterned masked electrode of claim 1, further comprising a workpiece concentrically engaged with the electrode member such that the non-conductive coating is intermediate the electrode member and the workpiece. 4. The patterned masked electrode of claim 1, wherein the non-conductive coating is made of a material capable of being applied to the electrode member by one of dipping, spray coating, air brushing or lamination techniques. 5. The patterned masked electrode of claim 1, wherein the micro-pattern further comprises a plurality of grooves passing through the non-conductive coating, each of the plurality of grooves having a cross-sectional configuration selected from the group consisting of square, u-shaped, triangular, v-shaped, rectangular, keyway shaped. 6. The patterned masked electrode of claim 1, wherein each of the plurality of elongate slots of the micro-pattern has a width between about 2 and about 40μ and a pattern resolution of between about 1-2μ between adjacent elongate slots of the plurality of elongate slots. 7. An assembly, comprising: a. A generally cylindrical electrically conductive electrode member having an outer surface, a first end, a second end and an intermediate workpiece mounting region; b. A non-conductive coating on the outer surface of the electrode member; c. A micro-pattern of openings defined in and passing through the non-conductive coating; the micro-pattern of openings exposing, through the micro-pattern of openings, defined elongate slot portions in the intermediate workpiece mounting region of the electrode member, the micro-pattern being configured to impart a pattern of grooves on an inner surface of a workpiece; and d. An intraluminal workpiece concentrically engaged around the non-conductive coating and positioned at the intermediate workpiece mounting region. 8. The assembly of claim 7, wherein the non-conductive coating is of a material capable of being vacuum deposited onto the outer surface of the electrode member. 9. The assembly of claim 7, wherein the micro-pattern corresponds to a pattern of grooves adapted to be transferred to the inner surface of the workpiece. 10. The assembly of claim 7, wherein the non-conductive coating is made of a material capable of being applied to the electrode member by one of dipping, spray coating, air brushing or lamination techniques. 11. The assembly of claim 7, wherein the micro-pattern further comprises a plurality of grooves passing through the non-conductive coating, each of the plurality of grooves having a cross-sectional configuration selected from the group consisting of square, u-shaped, triangular, v-shaped, rectangular, keyway shaped. 12. The assembly of claim 7, wherein the micro-pattern has a depth of approximately 0.5 μm-10 μm, a width of approximately 2 μm-40 μm.