OBJECTIVE: We evaluated the accuracy and stability of a capillary HbA1c collection system for use with a high-performance liquid chromatography analyzer. RESEARCH DESIGN AND METHODS: The collection system requires that 5 ul blood is drawn into a calibrated capillary tube, which is then placed into a vial of stabilizing solution and sent for analysis. The study was conducted on simultaneously drawn capillary and venous blood specimens from 47 pediatric diabetes patients. Accuracy was determined by comparing the capillary to the venous HbA1c values. Stability was measured by analyzing 17 capillary specimens over 3 wk. RESULTS: There was excellent agreement between the capillary and venous HbA1c values (capillary 0.959, venous +0.494, R2 = 98.7%). The capillary HbA1c values were 0.2% higher than the venous HbA1c values and decreased gradually over time (0.1% HbA1c/week) when stored at room temperature. CONCLUSIONS: The Bio-Rad (Richmond, CA) collection system is accurate, stable, and simple to use.
OBJECTIVE: We evaluated the accuracy and stability of a capillary HbA1c collection system for use with a high-performance liquid chromatography analyzer. RESEARCH DESIGN AND METHODS: The collection system requires that 5 ul blood is drawn into a calibrated capillary tube, which is then placed into a vial of stabilizing solution and sent for analysis. The study was conducted on simultaneously drawn capillary and venous blood specimens from 47 pediatric diabetespatients. Accuracy was determined by comparing the capillary to the venous HbA1c values. Stability was measured by analyzing 17 capillary specimens over 3 wk. RESULTS: There was excellent agreement between the capillary and venous HbA1c values (capillary 0.959, venous +0.494, R2 = 98.7%). The capillary HbA1c values were 0.2% higher than the venous HbA1c values and decreased gradually over time (0.1% HbA1c/week) when stored at room temperature. CONCLUSIONS: The Bio-Rad (Richmond, CA) collection system is accurate, stable, and simple to use.
Authors: David B Sacks; Mark Arnold; George L Bakris; David E Bruns; Andrea Rita Horvath; M Sue Kirkman; Ake Lernmark; Boyd E Metzger; David M Nathan Journal: Diabetes Care Date: 2011-06 Impact factor: 19.112
Authors: Sara A Quandt; Ronny A Bell; Beverly M Snively; Shannon L Smith; Jeanette M Stafford; Lindsay K Wetmore; Thomas A Arcury Journal: Ethn Dis Date: 2005 Impact factor: 1.847
Authors: David M Nathan; Heidi Krause-Steinrauf; Barbara H Braffett; Valerie L Arends; Naji Younes; Paula McGee; Claire Lund; Mary Johnson; Gayle Lorenzi; Xiaoyu Gao; Michael W Steffes; John M Lachin Journal: PLoS One Date: 2021-11-15 Impact factor: 3.240