Porous membranes for medical implants and methods of manufacture
First Claim
Patent Images
1. A method of making a single-layer porous membrane for use in medical implants comprising:
- extruding a continuous fiber-forming biocompatible polymeric material through a reciprocating extrusion head to form an elongated fiber;
depositing the fiber with a width of 5 to 500 micrometers onto a substrate in a predetermined pattern of non-crossing traces, the traces extending adjacently from a first end to a second end of the substrate, each trace contacting its adjacent traces in an alternating manner, the traces defining a plurality of pores of predetermined sizes, the fiber having a predetermined viscous characteristic that enables adjacent traces to bond to each other; and
thermally drying the biocompatible material on the substrate to provide a stable, single-layer porous membrane.
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Abstract
The present invention involves porous polymer membranes, suitable for use in medical implants, having controlled pore sizes, pore densities and mechanical properties. Methods of manufacturing such porous membranes are described in which a continuous fiber of polymer is extruded through a reciprocating extrusion head and deposited onto a substrate in a predetermined pattern. When cured, the polymeric material forms a stable, porous membrane suitable for a variety of applications, including reducing emboli release during and after stent delivery, and providing a source for release of bioactive substances to a vessel or organ and surrounding tissue.
308 Citations
9 Claims
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1. A method of making a single-layer porous membrane for use in medical implants comprising:
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extruding a continuous fiber-forming biocompatible polymeric material through a reciprocating extrusion head to form an elongated fiber; depositing the fiber with a width of 5 to 500 micrometers onto a substrate in a predetermined pattern of non-crossing traces, the traces extending adjacently from a first end to a second end of the substrate, each trace contacting its adjacent traces in an alternating manner, the traces defining a plurality of pores of predetermined sizes, the fiber having a predetermined viscous characteristic that enables adjacent traces to bond to each other; and thermally drying the biocompatible material on the substrate to provide a stable, single-layer porous membrane. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification
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Current AssigneeAbbott Laboratories Limited (Abbott Laboratories Incorporated)
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Original AssigneeAbbott Laboratories Limited (Abbott Laboratories Incorporated)
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InventorsHuesler, Erhard, Zucker, Arik, Fierens, Joost J., Nicaise, Philippe, Marcoux, Eric, Dubois, Sebastien
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Primary Examiner(s)Tolin; Michael A
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Application NumberUS11/313,110Publication NumberTime in Patent Office1,765 DaysField of Search156/167, 156/172, 156/175, 156/180, 156/244.11, 156/244.24, 156/307.1, 156/307.7, 264/205, 264/308, 623/1.54, 623/23.76US Class Current156/167CPC Class CodesA61F 2/01 Filters implantable into bl...A61F 2/90 characterised by a net-like...A61F 2/91 made from perforated sheet ...A61F 2/915 with bands having a meander...A61F 2002/91508 the meander having a differ...A61F 2002/91533 characterised by the phase ...A61F 2002/91558 connected peak to peakB29C 2948/92571 Position, e.g. linear or an...B29C 2948/9258 VelocityB29C 2948/9259 Angular velocityB29C 2948/926 Flow or feed rateB29C 2948/92609 DimensionsB29C 2948/92628 Width or heightB29C 2948/92695 Viscosity; Melt flow index ...B29C 2948/92904 Die; Nozzle zoneB29C 48/0012 combined with shaping by in...B29C 48/08 flexible, e.g. filmsB29C 48/151 Coating hollow articlesB29C 48/92 Measuring, controlling or r...B29K 2023/06 PE, i.e. polyethyleneView All
