Evaluation of a Reference Material for Glycated Haemoglobin

Weykamp, C.W.; Tj, Penders; Muskiet, Frits A. J.; Vanderslik, W

doi:10.1515/cclm.1996.34.1.67

Cited by 15 publications

(16 citation statements)

References 21 publications

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“…Em paralelo, o uso prolongado de vitamina C e E também tem sido estudado como possível fonte de interferência negativa nas dosagens de GHb (84)(85)(86). O estresse oxidativo é apontado como uma provável causa do aparecimento das complicações do DM.…”

Section: Fatores Que Afetam Os Resultadosunclassified

Glico-hemoglobina (HbA1c): aspectos clínicos e analíticos

Camargo

Gross

2004

Arq Bras Endocrinol Metab

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RESUMOA glico-hemoglobina (GHb) é um parâmetro importante no controle glicêmico de pacientes com DM. Vários estudos clínicos mostraram claramente que a melhora no controle glicêmico está fortemente associada com a diminuição no desenvolvimento e/ou progressão das complicações em diabetes melito tipos 1 e 2. A medida exata e precisa da GHb é uma questão importante para os laboratórios clínicos. Vários fatores afetam os resultados e podem levar a resultados errôneos. Nesta revisão, discutimos os problemas da padronização da determinação da GHb para monitorar a terapia diabética e também os principais fatores interferentes. Os métodos para GHb podem ser diferentemente afetados pelas interferências. O efeito da interferência pode ser clinicamente mais relevante com o pior controle glicêmico. O laboratório deve estar atento para estes fatores para evitar confusão na interpretação clínica dos resultados, e os clínicos devem contatar o laboratório sempre que houver discrepância entre a impressão clínica e o resultado laboratorial. Glycohemoglobin (GHb) has a key role in the assessment of glycemic control in diabetic patients. Several studies have clearly shown that improved glycemic control is strongly associated with decreased development and/or progression of diabetic complications in both type 1 and 2 diabetes mellitus. Therefore, accurate determination of GHb concentration is an important issue for clinical laboratories. Several factors may affect and lead to erroneous results. We discuss the problems of standardization of GHb measurements for monitoring glycemic control and also consider the potential interfering factors on GHb measurements. Moreover, GHb assays may be affected by interference in different ways. The effect of interference may be more clinically relevant with poor metabolic control. Laboratory staff must be aware of all pitfalls to avoid adding more confusion to the clinical interpretation of HbA 1c values and physicians should contact laboratories if discrepancies between clinical impressions and laboratory data are observed.

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Section: Fatores Que Afetam Os Resultadosunclassified

Glico-hemoglobina (HbA1c): aspectos clínicos e analíticos

Camargo

Gross

2004

Arq Bras Endocrinol Metab

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“…The ultimate mission of this IFCC-WG was to design a reference method and to produce adapted reference materials. Taking advantage of previous publications reporting the preparation and evaluation of various control [81,82] or reference materials [83] for HbA 1c , this WG proposed in 1998 a candidate primary reference material, made of purified β -N-terminal glycated (HbA 1c ) and non-glycated (HbA o ) HbA [84] , which was used for establishing the internationally approved IFCC reference method for HbA 1c . This method relied on the separation and quantification by HPLC coupled to mass spectrometry (LC/MS) or capillary electrophoresis (LC/CE) of HbA o and HbA 1c N-terminal hexapeptides obtained by enzymatic digestion, and was published in 2002 in CCLM [85] .…”

Section: The Times Of Standardizationmentioning

confidence: 99%

A history of HbA_1c through Clinical Chemistry and Laboratory Medicine

Gillery¹

2012

Clinical Chemistry and Laboratory Medicine (CCLM)

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HbA 1c was discovered in the late 1960s and its use as marker of glycemic control has gradually increased over the course of the last four decades. Recognized as the gold standard of diabetic survey, this parameter was successfully implemented in clinical practice in the 1970s and 1980s and internationally standardized in the 1990s and 2000s. The use of standardized and well-controlled methods, with well-defined performance criteria, has recently opened new directions for HbA 1c use in patient care, e.g., for diabetes diagnosis. Many reports devoted to HbA 1c have been published in Clinical Chemistry and Laboratory Medicine (CCLM) journal. This review reminds the major steps of HbA 1c history, with a special emphasis on the contribution of CCLM in this field.

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“…Most of the methods routinely applied by clinical laboratories to the determination of HbA 1c can be classified in two groups, as can be seen in the various intercomparison studies [87,89,90,91,92] 1) methods based on differences in charge between glycated and non-glycated haemoglobin (cation exchange chromatography and electrophoresis), and 2) methods based on structural characteristics of the glycated groups (affinity chromatography).…”

Section: Determination Of Glycosylated Isoforms Of Transferrinmentioning

confidence: 99%

“…So far, some discrepancies among the results obtained with the different systems used in clinical laboratories have been reported [85,86,87,88,89,90,91,92]. For this reason and to achieve a uniform international standardization, the International Federation of Clinical Chemistry (IFCC) Working Group on HbA 1c Standardization, is developing a reference system for the international standardization of HbA 1c .…”

Section: Determination Of Glycosylated Isoforms Of Transferrinmentioning

confidence: 99%

“…Despite all the advantages previously mentioned, some drawbacks of this technique have also been reported in some interlaboratory comparisons. Weykamp et al [91] indicate that, during one intercomparison study, it became apparent that lyophilized samples gave erroneous results with some of the instruments based on the use of affinity chromatography: Lyophilization raised the measured glycated haemoglobin by 1-1.5% over the original whole-blood samples. Such an effect was not observed by Mosca et al [92], but they also reported that the intra-laboratory variation was higher for those laboratories applying affinity chromatography than for those using other methods, however not providing any scientific justification.…”

Section: Some Examples Of Applicationsmentioning

confidence: 99%

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Identification, characterization and determination of metal-binding proteins by liquid chromatography. A review

Guntiñas

Bordin

Rodríguez

2002

Analytical and Bioanalytical Chemistry

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The use of liquid chromatography in the separation and determination of metal-binding proteins is reviewed. Advantages and drawbacks of different chromatographic techniques based on various principles: size exclusion, ion exchange (cationic and ionic), reversed phase and affinity, are presented and discussed. The topic "metal-binding proteins" is considered and presented from two different points of view. The first one regards metal speciation in biological samples (serum and blood). In metal speciation studies, the exact identity of the protein to which the metal is bound often remains unknown. The second point of view is that, frequently, the interest of analyzing metal-binding proteins is not related anymore to the metallic fraction of the protein, but to other chemical structures attached to the protein, such as carbohydrates, which indirectly determine how good the function of the protein is. In this review, special attention is paid to studies dealing with the glycosylation of transferrin, and with the glycated isoform of haemoglobin.

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Evaluation of a Reference Material for Glycated Haemoglobin

Cited by 15 publications

References 21 publications

Glico-hemoglobina (HbA1c): aspectos clínicos e analíticos

Glico-hemoglobina (HbA1c): aspectos clínicos e analíticos

A history of HbA_1c through Clinical Chemistry and Laboratory Medicine

Identification, characterization and determination of metal-binding proteins by liquid chromatography. A review

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Evaluation of a Reference Material for Glycated Haemoglobin

Cited by 15 publications

References 21 publications

Glico-hemoglobina (HbA1c): aspectos clínicos e analíticos

Glico-hemoglobina (HbA1c): aspectos clínicos e analíticos

A history of HbA1c through Clinical Chemistry and Laboratory Medicine

Identification, characterization and determination of metal-binding proteins by liquid chromatography. A review

Contact Info

Product

Resources

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A history of HbA_1c through Clinical Chemistry and Laboratory Medicine