Effect of calibration on dispersion of glycohemoglobin values determined by 111 laboratories using 21 methods

Weykamp, C.W.; Penders, T. J.; Muskiet, Frits A. J.; Slik, W. van der

doi:10.1093/clinchem/40.1.138

Cited by 47 publications

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“…Each method is calibrated using reference materials that are adjusted to an international reference material. Unfortunately, considerable discrepancies in the measured values of HbA 1c have been observed among methods and among laboratories (Weykamp et al, 1994). The International Federation of Clinical Chemistry (IFCC) proposed an approved reference method for measurement of HbA 1c applying LC‐ESI‐MS (Jeppsson et al, 2002).…”

Section: Isotope‐dilution Ms Assay For Hba1c Based On Enzyme‐clmentioning

confidence: 99%

Detection and characterization of variant and modified structures of proteins in blood and tissues by mass spectrometry

Shimizu

Nakanishi

Miyazaki

2006

Mass Spectrometry Reviews

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Some variant proteins cause diseases, and some diseases result in increases of proteins with abnormally modified structures. The detection, characterization, and estimation of the relative amounts of protein variants and abnormally modified proteins are important for clinical diagnosis and for elucidation of the mechanisms of the pathogenesis of diseases. Analysis of the covalent structures of proteins using matrix‐assisted laser desorption time‐of‐flight mass spectrometry (MALDI‐TOF‐MS) and liquid chromatography‐electrospray ionization MS (LC‐ESI‐MS), which had been developed by the early 1990s, have largely replaced analyses by conventional protein chemistry. Here, we review the detection and characterization of hemoglobin variants, HbA1c measurement, detection of carbohydrate‐deficient transferrin, and identification of variants of transthyretin (TTR) and Cu/Zn‐superoxide dismutase (SOD‐1) using soft ionization MS. We also propose the diagnostic application of the signals of modified forms of TTR, that is, S‐sulfonated TTR and S‐homocysteinyl TTR. The relative peak height ratio of the abnormal/normal components gives valuable information about the instability of variants and enables the detection of unstable Hb subunits or thalassemia heterozygotes. We found unique modified structures of TTR that suggested changes in amyloid fibrils. © 2006 Wiley Periodicals, Inc.

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Section: Isotope‐dilution Ms Assay For Hba1c Based On Enzyme‐clmentioning

confidence: 99%

Detection and characterization of variant and modified structures of proteins in blood and tissues by mass spectrometry

Shimizu

Nakanishi

Miyazaki

2006

Mass Spectrometry Reviews

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“…Later in the 1960s, measurement of the hemoglobin A(1c) fraction by qualitative or quantitative assays began when Trivelli & al. published the first quantitative assay of HbA(1c) [3,4]. Numerous methods have then been developed for HbA(1c) measurements [2,[4][5][6][7]. Weykamp & al concluded that the high variation between the methods and the laboratories was substantially corrected by a new calculation of the primary results [5].…”

Section: Introductionmentioning

confidence: 99%

“…Numerous methods have then been developed for HbA(1c) measurements [2,[4][5][6][7]. Weykamp & al concluded that the high variation between the methods and the laboratories was substantially corrected by a new calculation of the primary results [5].…”

Section: Introductionmentioning

confidence: 99%

Hemoglobin A(1c) Reporting Units and Diagnostic Cut-Offs in Relation to International Recommendations

Ilkka¹

2019

IJCEMS

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Purpose. In this account were studied the use of units and cutoff limits for hemoglobin A(1c) in worldwide clinical laboratory practice and the quality assurance ranges of hemoglobin A(1c) by calculating the target limits from the values of Labquality Ltd. and ERLGH. Methods. The use of HbA(1c) units and the diagnostic limits for diabetes were examined using e-mail and letter inquiries to 37-51 societies of laboratory medicine (mainly clinical chemistry) sent from 2009 to 2017. The parametric statistical programs of Labquality Ltd., SPSS ® 13.0, and MS Excel 2013 (Microsoft ® Co., Cambridge, MA, USA) were used. Results. The mean values of the Finnish quality control organization Labquality Ltd. and the corresponding values from the HbA(1c) queries as to the percentage and mmol/mol SI units (IFCC) were used. The IFCC system for hemoglobin A(1c) is slowly but constantly gaining acceptance in Europe, but remains quite rare outside Europe where the percentage results were correspondingly lower. The mean round values of Labquality Ltd. and the corresponding mean values of the European Reference Laboratory for Glycohemoglobin (ERLGH) showed equal ranges for calculation of the target values with ± 6% intervals for the percentage results and ± 8% intervals for the mmol/mol results. Conclusions. To avoid confusion, the overall use of mmol/mol as a single unit for HbA(1c) may be the best option when the IFCC system has been accepted worldwide. The target values can be calculated equally well from the mean values of Labquality Ltd. and the ERLGH values in terms of both per percentage and mmol/mol units.

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“…[ 6 12 13 14 ] In addition, calibration based on HPLC has been proven to enhance comparability among the various methods. [ 11 15 ] Many specialists are not well satisfied due to the inconsistency of HbA 1C , reported through various methods, with patients’ values attained by a reference method (HPLC). On the one hand, the HPLC device is very expensive, difficult and time consuming to work with; therefore, it needs professional personnel to work with, consequently making it impossible and not cost-effective for all laboratories.…”

Section: Introductionmentioning

confidence: 99%

Comparative evaluation of three different methods for HbA _1c measurement with High-performance liquid chromatography in diabetic patients

Karami

Baradaran

2014

Adv Biomed Res

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Background:The global prevalence of diabetes mellitus is increasing rapidly. Measurement of glycated hemoglobin, predominantly HbA1c, is fundamental to the management of patients with diabetes. HbA1c is used to monitor long-term glycemic control, adjust therapy, assess the quality of diabetes care and predict the risk for the development of complications. While HbA1c is the standard method for long-term glycemic control in diabetic patients, there are different methods for measurement of HbA1c and all laboratories do not use the reference method (high-performance liquid chromatography [HPLC]). The objective of this study is comparison of three different methods with HPLC to find out which method has an acceptable concordance and correlation with the reference method.Materials and Methods:Fifty-eight diabetic patients were assessed in this study. The blood sample of each patient was checked with Diazyme (enzymatic assay), Nycocard (boronate-affinity binding) and Biosystem (micro column chromatography). The values of HbA1c of each method were compared with the Knauer-HPLC results.Results:The means of the differential values between each method and HPLC in the ANOVA test are as follows: M = 1.8, SD = 1.09 for Nycocard-HPLC; M = 1.5, SD = 1.08 for biosystem-HPLC; M = 1.3, SD = 1.2 for Diazyme-HPLC. Pearson's correlation coefficient between HPLC and Nycocard; 0.76, HPLC and Diazyme; 0.75 and between HPLC and Biosystem was 0.68. Linear regression parameters for each method with HPLC were also determined.Conclusion:Diazyme had a better performance and showed a greater concordance with HPLC among others, although it was not an ideal alternative for HPLC.

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Effect of calibration on dispersion of glycohemoglobin values determined by 111 laboratories using 21 methods

Cited by 47 publications

References 0 publications

Detection and characterization of variant and modified structures of proteins in blood and tissues by mass spectrometry

Detection and characterization of variant and modified structures of proteins in blood and tissues by mass spectrometry

Hemoglobin A(1c) Reporting Units and Diagnostic Cut-Offs in Relation to International Recommendations

Comparative evaluation of three different methods for HbA _1c measurement with High-performance liquid chromatography in diabetic patients

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Effect of calibration on dispersion of glycohemoglobin values determined by 111 laboratories using 21 methods

Cited by 47 publications

References 0 publications

Detection and characterization of variant and modified structures of proteins in blood and tissues by mass spectrometry

Detection and characterization of variant and modified structures of proteins in blood and tissues by mass spectrometry

Hemoglobin A(1c) Reporting Units and Diagnostic Cut-Offs in Relation to International Recommendations

Comparative evaluation of three different methods for HbA 1c measurement with High-performance liquid chromatography in diabetic patients

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Comparative evaluation of three different methods for HbA _1c measurement with High-performance liquid chromatography in diabetic patients