Improved Reference Measurement Method for Hemoglobin A1c by Use of Liquid Chromatography–Isotope Dilution–Tandem Mass Spectrometry

Determination of purity values of amino acid reference materials by mass balance method: an approach to the quantification of related structure impurities

A systematic procedure for the determination of purity values of amino acid reference materials was developed by use of mass balance method where four categories of impurities (related structure impurities (RSIs), water, organic solvent residue (OSR), and non-volatile residue (NVR)) were quantified separately. The amount of RSIs was determined using a combination of three quantification methods. To ensure metrological traceability in the determination of RSIs, at least one such impurity in each candidate amino acid reference material was quantified using liquid chromatography-isotope dilution tandem mass spectrometry (LC-IDMS/MS). Other RSIs were determined using external calibration liquid chromatography-tandem mass spectrometry (LC-MS/MS) or o-phthaldialdehyde (OPA) derivatization, followed by liquid chromatography-ultraviolet (LC-UV) measurement. As the UV absorption of most RSIs came basically from the same chromophore after OPA derivatization, a relative peak area approach was used in the LC-UV method to quantify the amount of RSIs by comparing their peak areas with that of a reference RSI. The reference RSI was pre-selected and the amount determined by LC-IDMS/MS separately. The absence of D-amino acids was confirmed using Marfey's reagent derivatization, followed by LC-UV analysis. The amounts of water, OSR, and NVR were measured using Karl Fischer coulometry, gas chromatography-mass spectrometry (GC-MS) and thermogravimetry, respectively. By using this procedure, four amino acid (L-valine, L-leucine, L-isoleucine, and L-phenylalanine) certified reference materials (CRMs) were developed from the candidate materials. The homogeneity and stability of the CRMs were demonstrated by use of LC-IDMS/MS or OPA-LC-UV method, following the principles in ISO 17034 and ISO Guide 35.Graphical abstract.

Quantification of hemoglobin A1c by off-line HPLC separation and liquid chromatography-tandem mass spectrometry: a modification of the IFCC reference measurement procedure

BACKGROUND

The quality of hemoglobin A1c measurement is very important in the management of diabetes. A reference system has been established by the IFCC Working Group on HbA1c Standardization. We did some modification of the IFCC Reference Measurement Procedure with MS detection which significantly decreased the analysis time and improved the precision of the analytes by off-line HPLC separation and liquid chromatography-tandem mass spectrometry (LC/MS/MS) analysis.

METHODS

The samples were prepared and enzymatically cleaved according to the IFCC HbA1c reference measurement procedure. Then the digest solution was injected to a reversed phase HPLC for purification and a clean fraction was collected. The fraction was analyzed by liquid chromatography-tandem mass spectrometry with an isocratic elution on a C18 column. Liner regression was used to determine the concentration of HbA1c.

RESULTS

The total analysis time which includes the off-line HPLC separation and the LC/MS/MS analysis was reduced by at least 65% compared to the existing IFCC method. The transitions of m/z 348.4→237.2 and m/z 429.4→245.2 were selected for quantification of non-glycated and glycated hexapeptide. Fifty seven hemolysate samples used in recent 3-years' IFCC HbA1c inter-laboratory studies (2012-2014) were analyzed by the LC/MS/MS procedure for method validation. The CVS were between 0.16% and 1.87% for 4 measurements per sample in the concentration range for HbA1c between 30.4 and 145.8 mmol/mol. The relative bias of the LC/MS/MS method was varied from -3.21% to 2.47% compared to the IFCC network assigned values.

CONCLUSIONS

This method is an efficient and reliable procedure for the determination of HbA1c. After thorough evaluation within the IFCC Network this modification may be implemented in the IFCC RMP for HbA1c with MS detection.