In vitro and in vivo mineralization of Nafion membrane used for implantable glucose sensors.

[1]  D. Olsen,et al.  Polymer Properties Associated with Calcification of Cardiovascular Devices , 1985 .

[2]  D. J. Harrison,et al.  Prevention of the rapid degradation of subcutaneously implanted Ag/AgCl reference electrodes using polymer coatings. , 1994, Analytical chemistry.

[3]  R. Wightman,et al.  Temporal characterization of perfluorinated ion exchange coated microvoltammetric electrodes for in vivo use. , 1987, Analytical chemistry.

[4]  G. H. Nancollas Biological Mineralization and Demineralization , 1982, Dahlem Workshop Reports.

[5]  G. S. Wilson,et al.  Elimination of the acetaminophen interference in an implantable glucose sensor. , 1994, Analytical chemistry.

[6]  R. Buck,et al.  Miniaturized biosensors employing electropolymerized permselective films and their use for creatine assays in human serum. , 1996, Analytical chemistry.

[7]  D. J. Harrison,et al.  In vitro and in vivo performance and lifetime of perfluorinated ionomer-coated glucose sensors after high-temperature curing. , 1994, Analytical chemistry.

[8]  G. Golomb,et al.  Development of a new in vitro model for studying implantable polyurethane calcification. , 1991, Biomaterials.

[9]  D. J. Harrison,et al.  Characterization of perfluorosulfonic acid polymer coated enzyme electrodes and a miniaturized integrated potentiostat for glucose analysis in whole blood. , 1988, Analytical chemistry.

[10]  M. Rice,et al.  Ion exchange and transport of neurotransmitters in nation films on conventional and microelectrode surfaces , 1985 .

[11]  F W Schildberg,et al.  Collagen Gel Immobilisation Provides a Suitable Cell Matrix for Long Term Human Hepatocyte Cultures in Hybrid Reactors , 1994, The International journal of artificial organs.

[12]  P Atanasov,et al.  Integrated implantable device for long-term glucose monitoring. , 1995, Biosensors & bioelectronics.

[13]  H. Harasaki,et al.  Calcification in cardiovascular implants: degraded cell related phenomena. , 1985, Transactions - American Society for Artificial Internal Organs.

[14]  Coleman Dl Mineralization of blood pump bladders. , 1981 .

[15]  D. J. Harrison,et al.  A Miniaturized Nafion-Based Glucose Sensor: in vitro and in vivo evaluation in dogs , 1994, The International journal of artificial organs.

[16]  D. Jed Harrison,et al.  Permeability of glucose and other neutral species through recast perfluorosulfonated ionomer films , 1992 .

[17]  J. Andrade,et al.  Calcification of nontextured implantable blood pumps. , 1981, Transactions - American Society for Artificial Internal Organs.

[18]  R. Kretsinger,et al.  Calcium in biological systems , 1976 .

[19]  D. J. Harrison,et al.  Preliminary in vivo biocompatibility studies on perfluorosulphonic acid polymer membranes for biosensor applications. , 1991, Biomaterials.

[20]  I. Hodge,et al.  Dielectric and Mechanical Relaxations in a Nafion Precursor , 1978 .

[21]  D. J. Harrison,et al.  Performance of subcutaneously implanted needle-type glucose sensors employing a novel trilayer coating. , 1993, Analytical chemistry.

[22]  J. Leddy,et al.  Density and solubility of nafion:  recast, annealed, and commercial films. , 1996, Analytical chemistry.