Diabetes mellitus is a chronic disorder characterized by insulin deficiency, hyperglycemia and high risk for development of complications of the eyes, kidneys, peripheral nerves, heart and blood vessels. The disease is highly prevalent, affecting approximately 30 million people in the U.S. Monitoring of glycemic control has traditionally been considered a cornerstone of diabetes care. The importance of monitoring glycemia has been established by studies proving a direct relationship between mean blood glucose and the development and progression of the chronic complications of diabetes. The landmark Diabetes Control and Complications Trial (DCCT), completed in 1993, showed that risks for development and/or progression of the chronic complications of type 1 diabetes is closely related to the degree of glycemic control, as assessed by HbA1c determinations. The importance of HbA1c as a marker of glycemic control in diabetes mellitus, and more recently as a diagnostic tool, is now well established. This proposed project will improve the measurement of HbA1c for optimal clinical and diagnostic use. This will be done through an established standardization program by continuously tightening criteria for method and laboratory certification, monitoring performance of laboratory methods and laboratories, and testing and publishing data on HbA1c analytical and biological interferences. Preservation of beta cell function in type 1 diabetes has been identified as an important goal in delaying progression of the disease at onset and also for therapeutic intervention. Accurate, standardized measurement of C-peptide will aid in this goal and is also the subject of this proposal. Standardization will be accomplished by implementation of a traceability scheme with re-calibration of C-peptide methods by each manufacturer and monitoring the effects of re-calibration by evaluation of proficiency testing data. In addition, criteria will be formulated for acceptable accuracy, precision and specificity of C-peptide assays.

Public Health Relevance

The importance of HbA1c as a marker of glycemic control in diabetes mellitus, and more recently as a diagnostic tool, has been established. This proposed project will improve the measurement of HbA1c for optimal clinical and diagnostic use. Preservation of beta cell function in type 1 diabetes has been identified as an important goal in delaying progression of the disease at onset and also for therapeutic intervention. Accurate, standardized measurement of C-peptide will aid in this goal and is also the subject of this proposal.

Project Start
2012-07-01
Project End
2022-06-30
Budget Start
2017-07-15
Budget End
2022-06-30
Support Year
2
Fiscal Year
2017
Total Cost
Indirect Cost
Name
University of Missouri-Columbia
Department
Pathology
Type
Schools of Medicine
DUNS #
153890272
City
Columbia
State
MO
Country
United States
Zip Code
65211
Little, Randie R; Kinumi, Tomoya; Connolly, Shawn et al. (2017) Implementing a Reference Measurement System for C-Peptide: An Addendum. Clin Chem 63:1904-1905
Little, Randie R; Wielgosz, Robert I; Josephs, Ralf et al. (2017) Implementing a Reference Measurement System for C-Peptide: Successes and Lessons Learned. Clin Chem 63:1447-1456
Little, Randie R; Rohlfing, Curt L (2016) Assessing quality from an accuracy-based HbA1c proficiency survey. Clin Chem Lab Med 54:e75-6
Kabytaev, Kuanysh; Connolly, Shawn; Rohlfing, Curt L et al. (2016) Higher degree of glycation of hemoglobin S compared to hemoglobin A measured by mass spectrometry: Potential impact on HbA1c testing. Clin Chim Acta 458:40-3
Kabytaev, Kuanysh; Durairaj, Anita; Shin, Dmitriy et al. (2016) Two-step ion-exchange chromatographic purification combined with reversed-phase chromatography to isolate C-peptide for mass spectrometric analysis. J Sep Sci 39:676-81
Rohlfing, Curt; Hanson, Steven; Weykamp, Cas et al. (2016) Effects of hemoglobin C, D, E and S traits on measurements of hemoglobin A1c by twelve methods. Clin Chim Acta 455:80-3
Little, Randie R; La'ulu, Sonia L; Hanson, Steven E et al. (2015) Effects of 49 Different Rare Hb Variants on HbA1c Measurement in Eight Methods. J Diabetes Sci Technol 9:849-56
Weykamp, Cas; John, Garry; Gillery, Philippe et al. (2015) Investigation of 2 models to set and evaluate quality targets for hb a1c: biological variation and sigma-metrics. Clin Chem 61:752-9
Rohlfing, Curt L; Parvin, Curtis A; Sacks, David B et al. (2014) Comparing analytic performance criteria: evaluation of HbA1c certification criteria as an example. Clin Chim Acta 433:259-63
Little, Randie R (2014) Performance of hemoglobin A1c assay methods: good enough? Clin Chem 60:1031-3

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