Control of polymer surface molecular architecture via amphipathic endgroups
First Claim
1. An implantable medical device or prosthesis or a non-implantable disposable or extracorporeal medical device or prosthesis or an in vitro or in vivo diagnostic device, wherein said device or prosthesis has a tissue, fluid, and/or blood-contacting surface, comprising a polymer body, wherein the polymer body comprises a plurality of polymer molecules located internally within said body, at least some of which internal polymer molecules have endgroups that comprise a surface of the body, wherein the surface endgroups include at least one surface-modifying amphipathic moiety, wherein the polymer comprising the surface-modifying amphipathic moieties in the polymer body is a polymeric composition of matter having the formula
A[BC]nZwherein B is a polymeric block selected from the group consisting of polyurethanes, polyureas, polyamides, aromatic polyesters, aromatic polycarbonates, polystyrenes, and polyacrylates, C is a polymeric block selected from the group consisting of polyethers, aliphatic polyesters, polyisoprenes, optionally-hydrogenated polyisoprenes, polyisobutylenes, optionally-hydrogenated polybutadienes, polyethylenebutylenes, and aliphatic polycarbonates, n is a number from 5 through 105, A is a surface active endgroup selected from the group consisting of polydimethylsiloxane chains and poly(ethylene oxide) chains having one or more amino-, hydroxyl-, carboxyl-, phosphoryl choline-, acryloxy-, or methacryloxy-containing moieties along the chain or at the terminal position thereof, and Z is a surface active endgroup that may be the same as or different from A, wherein said polymeric composition of matter has a weight average molecular weight in the range 5000-5,000,000 daltons.
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Abstract
Polymers whose surfaces are modified by endgroups that include amphipathic surface-modifying moieties. An amphipathic endgroup of a polymer molecule is an endgroup that contains at least two moieties of significantly differing composition, such that the amphipathic endgroup spontaneously rearranges its positioning in a polymer body to position the moiety on the surface of the body, depending upon the composition of the medium with which the body is in contact, when that re-positioning causes a reduction in interfacial energy. An example of an amphipathic surface-modifying endgroup is one that has both a hydrophobic moiety and a hydrophilic moiety in a single endgroup. For instance, a hydrophilic poly(ethylene oxide) terminated with a hydrophilic hydroxyl group is not surface active in air when the surface-modifying endgroup is bonded to a more hydrophobic base polymer. If the hydroxyl group on the oligomeric poly(ethylene oxide) is replaced by a hydrophobic methoxy ether terminus, the poly(ethylene oxide) becomes surface active in air, and allows the poly(ethylene oxide) groups to crystallize in the air-facing surface. In this example, immersion in water destroys the crystallinity as the poly(ethylene oxide) sorbs water and the hydrophobic methoxy group retreats below the surface of the polymer. Also disclosed are methods and articles of manufacture that make use of these polymers.
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Citations
9 Claims
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1. An implantable medical device or prosthesis or a non-implantable disposable or extracorporeal medical device or prosthesis or an in vitro or in vivo diagnostic device, wherein said device or prosthesis has a tissue, fluid, and/or blood-contacting surface, comprising a polymer body, wherein the polymer body comprises a plurality of polymer molecules located internally within said body, at least some of which internal polymer molecules have endgroups that comprise a surface of the body, wherein the surface endgroups include at least one surface-modifying amphipathic moiety, wherein the polymer comprising the surface-modifying amphipathic moieties in the polymer body is a polymeric composition of matter having the formula
A[BC]nZwherein B is a polymeric block selected from the group consisting of polyurethanes, polyureas, polyamides, aromatic polyesters, aromatic polycarbonates, polystyrenes, and polyacrylates, C is a polymeric block selected from the group consisting of polyethers, aliphatic polyesters, polyisoprenes, optionally-hydrogenated polyisoprenes, polyisobutylenes, optionally-hydrogenated polybutadienes, polyethylenebutylenes, and aliphatic polycarbonates, n is a number from 5 through 105, A is a surface active endgroup selected from the group consisting of polydimethylsiloxane chains and poly(ethylene oxide) chains having one or more amino-, hydroxyl-, carboxyl-, phosphoryl choline-, acryloxy-, or methacryloxy-containing moieties along the chain or at the terminal position thereof, and Z is a surface active endgroup that may be the same as or different from A, wherein said polymeric composition of matter has a weight average molecular weight in the range 5000-5,000,000 daltons.
Specification