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M L Davies,
S P Young,
K Welsh,
M Bunce,
B P Wordsworth,
K A Davies,
D R Wagenknecht,
E Taylor,
C Gordon,
S Jobson,
D Briggs,
S J Bowman
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ABSTRACT: To identify HLA class II associations with anti beta(2)-glycoprotein I (beta2GPI) antibodies in a cohort of Caucasian patients with systemic lupus erythematosus (SLE) and to determine whether these HLA genotypes act as restriction elements for lymphocyte proliferation to native human beta2GPI in vitro.
Anti-beta2GPI antibodies were detected in patient sera using enzyme-linked immunosorbent assays (ELISAs). HLA class II alleles (DRB1, DQB1) were determined by polymerase chain reaction-based DNA genotyping. In vitro peripheral blood mononuclear cell (PBMC) responses to native human beta2GPI were measured in a 7-day proliferation assay.
We identified three groups of Caucasian SLE patients using these ELISAs. In group 1, 16 out of 18 SLE patients (89%) with anti-beta2GPI antibodies were positive for HLA-DRB1*0401/4/8, DR11 or DRB1*1302 (P=0.001 vs controls) compared with 23 out of 53 patients (43%) in group 2 with anti-cardiolipin antibodies only, 57 out of 151 patients (38%) in group 3 (SLE patients without anticardiolipin antibodies) and 109 out of 225 controls (48%). Fourteen patients with anti-beta2GPI antibodies had greater median stimulation indices to beta2GPI in vitro compared with the 15 controls studied (P=0.04).
The HLA class II and PBMC proliferation data suggest that beta2GPI may be both a T- and B-cell autoantigen in SLE.
Rheumatology 05/2002; 41(4):395-400. · 4.06 Impact Factor
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ABSTRACT: The potential of hydrogel copolymer membranes in clinical sensors, based on fibre optics, is addressed. The particular properties of the membranes of relevance in this application are the ease of refractive index modulation and the potential of the hydrogel to act as a permselective barrier in which a colorimetric agent may be immobilized. The results presented illustrate the complexity of colorimetric and refractive index effects together with their dependence on pH and tonicity for hydrogels of a given composition range. The incorporation of an acryloyl-functionalized reagent (bromopyrogallol red) is used to illustrate the way in which a working pH sensor based on these combined properties may be designed and fabricated.
Biomaterials 02/1992; 13(14):991-9. · 7.40 Impact Factor
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ABSTRACT: Polymer membranes are used in a wide variety of molecular sensing devices many of which are of potential clinical interest. The role of the polymer and the physical properties required of it are, however, rarely clearly defined. An extensive review is presented of the range of polymers whose use as membranes is described in the sensor literature. This forms the basis of an overview of membrane function in potentiometric amperometric and fibre optic sensors. In particular, the interaction of permeability, permselectivity and transmembrane potential is highlighted, together with the role of polymer membranes as matrices for the immobilization of reactive chemical and biological agents.
Biomaterials 02/1992; 13(14):971-8. · 7.40 Impact Factor
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ABSTRACT: Hydrogels, particularly the tough, low water content materials, have potential advantages in the field of clinical biosensors because of their established use as medical polymers. The factors that control transport behaviour in these polymers are discussed with particular reference to ion selectivity. The nature of the transport behaviour in relation to coated wire electrode performance is presented and an extension of these permselectivity studies to the fabrication of miniaturized devices, such as ISFETs, is described. Linear soluble hydrogel polymers, coated on to sensor substrates, may be converted to insoluble membranes using solid photosensitive aromatic monomers, such as N-vinyl carbazole. Photolithographic patterning is achieved using a UV source together with appropriate masking, followed by an oxygen plasma etch process. Gas plasma etching, which selectively removes uncross-linked (masked) areas forms the basis of an all dry, low-temperature patterning process capable of giving micrometre-scale resolution. This novel photographic process, which does not damage or extract enzymes or ionophores, can advantageously be extended to the fabrication of poly(vinylchloride)-based membranes.
Biomaterials 02/1992; 13(14):979-90. · 7.40 Impact Factor
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[show abstract]
[hide abstract]
ABSTRACT: Polymer membranes are used in a wide variety of molecular sensing devices many of which are of potential clinical interest. The role of the polymer and the physical properties required of it are, however, rarely clearly defined. An extensive review is presented of the range of polymers whose use as membranes is described in the sensor literature. This forms the basis of an overview of membrane function in potentiometric amperometric and fibre optic sensors. In particular, the interaction of permeability, permselectivity and transmembrane potential is highlighted, together with the role of polymer membranes as matrices for the immobilization of reactive chemical and biological agents.
Biomaterials.
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[show abstract]
[hide abstract]
ABSTRACT: Hydrogels, particularly the tough, low water content materials, have potential advantages in the field of clinical biosensors because of their established use as medical polymers. The factors that control transport behaviour in these polymers are discussed with particular reference to ion selectivity. The nature of the transport behaviour in relation to coated wire electrode performance is presented and an extension of these permselectivity studies to the fabrication of miniaturized devices, such as ISFETs, is described. Linear soluble hydrogel polymers, coated on to sensor substrates, may be converted to insoluble membranes using solid photosensitive aromatic monomers, such as N-vinyl carbazole. Photolithographic patterning is achieved using a UV source together with appropriate masking, followed by an oxygen plasma etch process. Gas plasma etching, which selectively removes uncross-linked (masked) areas forms the basis of an all dry, low-temperature patterning process capable of giving micrometre-scale resolution. This novel photographic process, which does not damage or extract enzymes or ionophores, can advantageously be extended to the fabrication of poly(vinylchloride)-based membranes.
Biomaterials.
-
[show abstract]
[hide abstract]
ABSTRACT: The potential of hydrogel copolymer membranes in clinical sensors, based on fibre optics, is addressed. The particular properties of the membranes of relevance in this application are the ease of refractive index modulation and the potential of the hydrogel to act as a permselective barrier in which a colorimetric agent may be immobilized. The results presented illustrate the complexity of colorimetric and refractive index effects together with their dependence on pH and tonicity for hydrogels of a given composition range. The incorporation of an acryloyl-functionalized reagent (bromopyrogallol red) is used to illustrate the way in which a working pH sensor based on these combined properties may be designed and fabricated.
Biomaterials.
