Glow discharge process for producing implantable devices
First Claim
1. A method of producing a tubular vascular prosthesis having a substantially non-thrombogenic inside surface and a biocompatible outside surface, said method comprising the steps of:
- A. placing an elongate organic tubular substrate defining pores and having a selected outside diameter within a tubular reaction vessel;
B. establishing a flow of a fluorine-containing gas through said tubular substrate at a subatmospheric pressure;
C. permitting a portion of said gas to diffuse through said pores in transit through said tube;
D. applying an RF field to a portion of the volume of gas within said reaction vessel to produce glow discharge; and
E. inducing relative motion of said RF field and said tubular substrate to deposit along the length of said substrate a substantially non-thrombogenic, polymerized, cross-linked coating bonded to the inside surface of said substrate having a first F/C atomic ratio and a biocompatible, polymerized, cross-linked coating bonded to the outside surface of said substrate having an F/C atomic ratio lower than said first ratio wherein deposition of said polymerizable coating is controlled by controlling the pressure and flow rates of said gas and the field strength of said RF field.
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Accused Products
Abstract
Disclosed is a method of producing implantable prosthetic devices, e.g., tubular vascular prostheses having a substantially non-thrombogenic inside surface and a biocompatible outside surface. The method involves deposition onto an elongate substrate, e.g., a porous tubular substrate, of a fluorine-containing coating by inducing glow discharge progressively along the length of a tubular reaction vessel. A polymerizable fluorine-containing gas is flowed through the tubular substrate and a portion of the gas migrates radially to traverse the pores of the substrate. An RF field is applied to successive volumes of the gas within the vessel and tube. A substantially non-thrombogenic fluorinated coating with a first fluorine to carbon ratio deposits and bonds to the inside surface of the substrate, and a fluorinated biocompatible cross-linked coating with a lower F/C atomic ratio than the inside coating deposits and bonds to the outside surface of the substrate. The method of the invention can produce uniform coatings containing fluorine over the surface of elongated substrates. The coatings can be engineered to have a very low surface energy and to be essentially non-thrombogenic.
196 Citations
25 Claims
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1. A method of producing a tubular vascular prosthesis having a substantially non-thrombogenic inside surface and a biocompatible outside surface, said method comprising the steps of:
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A. placing an elongate organic tubular substrate defining pores and having a selected outside diameter within a tubular reaction vessel; B. establishing a flow of a fluorine-containing gas through said tubular substrate at a subatmospheric pressure; C. permitting a portion of said gas to diffuse through said pores in transit through said tube; D. applying an RF field to a portion of the volume of gas within said reaction vessel to produce glow discharge; and E. inducing relative motion of said RF field and said tubular substrate to deposit along the length of said substrate a substantially non-thrombogenic, polymerized, cross-linked coating bonded to the inside surface of said substrate having a first F/C atomic ratio and a biocompatible, polymerized, cross-linked coating bonded to the outside surface of said substrate having an F/C atomic ratio lower than said first ratio wherein deposition of said polymerizable coating is controlled by controlling the pressure and flow rates of said gas and the field strength of said RF field. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A method of coating an elongate organic substrate to produce a uniform non-thrombogenic surface thereon having an F/C ratio greater than 1.5, said method comprising the steps of:
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A. placing said elongate organic substrate within a tubular reaction vessel; B. establishing a flow of a fluorine containing gas having an F/C atomic ratio of at least two through said vessel and about said substrate at a subatmospheric pressure; C. applying an RF field to a portion of the volume of gas within said vessel to produce glow discharge; D. inducing relative motion of said RF field and said elongate substrate while controlling the density of available reactive species from said gas in the volume of said glow discharge adjacent a surface of said substrate to deposit along the length of said substrate a substantially uniform, non-thrombogenic, polymerized, cross-linked, fluorine-containing coating having an F/C ratio greater than 1.5. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25)
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Specification