Cécile Gay-Bellile scite author profile

Cécile Gay-Bellile

3Publications

72Citation Statements Received

31Citation Statements Given

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136

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Affiliations

Laboratoire de Neurobiologie Cellulaire et Moléculaire

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Automated Multicapillary Electrophoresis for Analysis of Human Serum Proteins

Gay-Bellile

Bengoufa

Houzé

et al. 2003

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Background:We evaluated a new, automated multicapillary zone electrophoresis (CE) instrument (Capillarys ® , 4.51 software version; Sebia) for human serum protein analysis. Methods: With the Capillarys ␤1-␤2؉® reagent set, proteins were separated at 7 kV for 4 min in 15.5 cm ؋ 25 m fused-silica capillaries (n ‫؍‬ 8) at 35.5°C in a pH 10 buffer with online detection at 200 nm. Serum samples with different electrophoretic patterns (n ‫؍‬ 265) or potential interference (n ‫؍‬ 69) were analyzed and compared with agarose gel electrophoresis (AGE; Hydrasys ® -Hyrys ® , Hydragel protein(e) 15/30 ® reagent set; Sebia). Results: CVs were <3.5% for albumin, <11% for ␣ 1 -globulin, <4.1% for ␣ 2 -globulin, <7.4% for ␤-globulin, and <5.8% for ␥-globulin (3 control levels); measured throughput was 60 samples/h. In patients without paraprotein (n ‫؍‬ 116), the median differences between CE and AGE were ؊5.4 g/L for albumin, 4.0 g/L for ␣ 1 -globulin, 0.7 g/L for ␣ 2 -globulin, 0.6 g/L for ␤-globulin (P <0.001 for all fractions), and ؊0.1 g/L for ␥-globulin (not significant). More samples had at least one ␥-migrating peak detected by CE (n ‫؍‬ 135 vs 130; paraprotein detection limit, ϳ0.5-0.7 g/L), but fewer were quantified (n ‫؍‬ 84 vs 91) because of ␥-to ␤-migration shifts. There was a 1.2 g/L median difference between CE and AGE for ␥-migrating paraprotein quantification (n ‫؍‬ 69; P <0.001). Several ultraviolet-absorbing substances (lipid

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Evaluation of renal function in intensive care: plasma cystatin C vs. creatinine and derived glomerular filtration rate estimates

Bricon¹,

Leblanc²,

Benlakehal³

et al. 2005

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Plasma cystatin C, a new marker of glomerular filtration rate (GFR), was prospectively evaluated in surgical intensive care. Cystatin C was measured (immunonephelometry, Dade-Behring) in 10 patients selected to cover a full range of GFR (phase I) and in 28 unselected consecutive patients followed for 5 days post-admission (phase II). Results were compared with (51)Cr-EDTA clearance (phase I only), plasma creatinine (kinetic Jaffe, Roche), 24-h or estimated by Cockcroft and Gault (CG) creatinine clearance (CrCl), and modified diet in renal disease (MDRD)-estimated GFR. In phase I, the highest correlation with(51)Cr-EDTA clearance (22-198 mL/min) was noted for CG CrCl (r(2): 0.883, p<0.001). During phase II follow-up, 24-h CrCl could not be calculated in 25% of daily evaluations. Cystatin C correlated with creatinine (0.856, p<0.0001) and CG CrCl with MDRD GFR (0.926, p<0.0001) in renal failure (10-78 mL/min, n=60). There was a +40% (p<0.001) median difference between cystatin C and creatinine (as a % of upper normal cut-off). Sensitivity/specificity to detect a <80 mL/min CG CrCl was 88/97% for cystatin C vs. 48/100% for creatinine (laboratory cut-off). In patients with normal and stable renal function (n=14), day-to-day intra-individual variation was 7.4% for cystatin C (vs. 10.6% for creatinine). In intensive care unit surgical adult patients, CG CrCl provides an easy and cost-effective estimate of GFR. Superior to creatinine, plasma cystatin C can be measured in selected patients where CG CrCl is known to be inaccurate.

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Lectin affinity electrophoresis of serum alkaline phosphatase in metastasized breast cancer

Bricon¹,

Gay-Bellile²,

Cottu³

et al. 2010

Clinical Laboratory Analysis

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The use of serum alkaline phosphatase (ALP) isoenzymes as markers of breast cancer metastases and treatment efficacy has received little attention. Twenty-six breast cancer women (56+/-13 years, all post-menopausal) were prospectively evaluated during their first and third course of chemotherapy (4-week interval). Serum samples were analyzed for ALP isoenzymes (bone, liver, and intestine) using a lectin affinity electrophoresis kit (Hydragel 15 ISO-PAL, Sebia) adapted on a semi-automated Hydrasys system (Sebia). Results were compared with imaging techniques for the presence of metastases; bone ALP isoenzyme (B-ALP) results were compared with C-Terminal degradation products of type I collagen (S-CTX) (CrossLaps, IDS Nordic). Serum B-ALP, but not S-CTX, confirmed the presence of bone metastases (BM) (n=15) with 67/100% sensitivity/specificity (using a 69 UI/L ROC cut-off); ROC AUC was 0.806 (P=0.0004) (NS for S-CTX). Chemotherapy reduced serum B-ALP by 24% over 4 weeks (P=0.0012); there was no change for S-CTX. There was no specific clinical pattern for other ALP isoenzymes (liver and intestine). In conclusion, serum B-ALP, but not S-CTX, could help confirm the presence of BM in breast cancer patients.

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