Biochemia Medica, Vol. 26 No. 1, 2016.
Original scientific paper
https://doi.org/10.11613/BM.2016.004
The effect of extremely high glucose concentrations on 21 routine chemistry and thyroid Abbott assays: interference study
Serap Çuhadar
; Katip Celebi University, Ataturk Training and Research Hospital, Department of Clinical Biochemistry, Izmir, Turkey
Mehmet Köseoglu
; Katip Celebi University, Ataturk Training and Research Hospital, Department of Clinical Biochemistry, Izmir, Turkey
Yasemin Çinpolat
; Abant İzzet Baysal University, Department of Clinical Biochemistry, Bolu, Turkey
Güler Bugdayci
; Abant Izzet Baysal University, Department of Clinical Biochemistry, Bolu, Turkey
Murat Usta
; Giresun University, Department of Clinical Biochemistry, Giresun, Turkey
Tuna Semerci
; Giresun University, Department of Clinical Biochemistry, Giresun, Turkey
Abstract
Abstract
Introduction: Extremely high glucose concentrations have been shown to interfere with creatinine assays especially with Jaffe method in peritoneal dialysate. Because diabetes is the fastest growing chronic disease in the world, laboratories study with varying glucose concentrations. We investigated whether different levels of glucose spiked in serum interfere with 21 routine chemistry and thyroid assays at glucose concentrations between 17-51 mmol/L.
Materials and methods: Baseline (group I) serum pool with glucose concentration of 5.55 (5.44-5.61) mmol/L was prepared from patient sera. Spiking with 20% dextrose solution, sample groups were obtained with glucose concentrations: 17.09, 34.52, and 50.95 mmol/L (group II, III, IV, respectively). Total of 21 biochemistry analytes and thyroid tests were studied on Abbott c8000 and i2000sr with commercial reagents. Bias from baseline value was checked statistically and clinically.
Results: Creatinine increased significantly by 8.74%, 31.66%, 55.31% at groups II, III, IV, respectively with P values of < 0.001. At the median glucose concentration of 50.95 mmol/L, calcium, albumin, chloride and FT4 biased significantly clinically (-0.85%, 1.63%, 0.65%, 7.4% with P values 0.138, 0.214, 0.004, < 0.001, respectively). Remaining assays were free of interference.
Conclusion: Among the numerous biochemical parameters studied, only a few parameters are affected by dramatically increased glucose concentration. The creatinine measurements obtained in human sera with the Jaffe alkaline method at high glucose concentrations should be interpreted with caution. Other tests that were affected with extremely high glucose concentrations were calcium, albumin, chloride and FT4, hence results should be taken into consideration in patients with poor diabetic control.
Keywords
assay interference; glucose interference; preanalytical phase; creatinine; Jaffe kinetic assay; thyroid function tests
Hrčak ID:
153819
URI
Publication date:
15.2.2016.
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