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Category: Volume 08 Issue 01 January 2020
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Title: Reference Interval of Plasma Urea in a Port Harcourt Population: A Retrospective Study

Authors: Dr Frederick Igila Allison, Dr Aaron C Ojule

 DOI: https://dx.doi.org/10.18535/jmscr/v8i1.107

Abstract

Introduction: A reference interval is very important in the practice of laboratory medicine as medical personnel depend on this to make diagnosis, treat and monitor patients. An accurately determined reference interval of a population can be said to be the first step to patient care. More so, reference intervals need to be periodically reviewed due to population dynamics.

Aim: To determine the current reference interval of urea and to compare same with the previously determined interval here and that presently in use in our laboratory.

Methods: Urea results of patients who were non diabetic, non-hypertensive and had no cardiac or renal disorders were obtained for a period of three months. These results were ranked and the mean determined. The nonparametric method was used to determine the reference interval from the data.

Result: The mean urea result was 2.6mmol/l and the reference interval was 1.2- 3.6mmol/l

Conclusion: The reference interval so generated (1.2-3.6mmol/l) is clinically about the same with that generated about twenty years ago (1.2- 3.9mmol/l) and both are significantly different from that in use in our laboratory (2.4-6.2mmol/l). The use of this current reference interval will therefore improve interpretation of urea results in our area.

Keywords: Non Parametric, Reference Interval, Diacetyl monoxine.

References

  1. Weiner ID, Mitch WE, Sands JM.Z Urea and ammonia metabolism and the control of renal nitrogen excretion. CJASN 2015; 10, 8: 1444-1458.
  2. McWilliam A, Macnab R. Laboratory tests of renal function. Anaesthesia & Intensive Care Medicine 2009; 10, 6: 296-99.
  3. Frankenfield DL, McClellan WM, Helgerson SD, Lowrie EG, Rocco MV, Owen WF. Relationship between urea reduction ratio, demographic characteristics, and body weight for patients in the 1996 National ESRD Core Indicators Project’. American Journal of Kidney Disease 199933(3):584-91.
  4. Hoang K, Tan JC, Derby G, Blouch KL, Masek M, Ma I. Determinants of glomerular hypo filtration in aging humans, Kidney International2003; 64(4):1417– 1424.
  5. Horn, P.S., Feng, L., Li, Y. & Pesce, A.J. (2001), ‘Effect of outliers and nonhealthy individuals on reference interval estimation,’ Clinical Chemistry 2001;47(12): 2137-2145.
  6. Huang, X., Li, S., Yang, X., Peng, Q., Wang, J. & Mo, C. (2014), Establishing reference values for blood urea and serum creatinine in Chinese Han ethnic adult men. Clin Lab, 60(7):1123-1128.
  7. Marsh WH, Fingerhut B, Miller H. Automated and manual direct methods for the determination of blood urea. Clinical Chemistry 1965;11: 624-627
  8. Traynor J, Mactier R, Fox GJ. How to measure renal function in clinical practice. BMJ 2006; 333(7571): 733-737.
  9. Ojule AC, Onah AI, Rukari AI. Plsmas Urea in a Reference Population in Port Harcourt. Postgrad Med J 1999; 6(4):167-170.
  10. Schneider F, Maurer C, Friedberg RC. International Organization for Standardization (ISO) 15189, Annals of Laboratory Medicine2017; 37(5): 365–370.
  11. Sullivan, L.P., & Granthan, J.J. (1982), ‘Physiology of the kidney 2nd Lea and febiger. Philadelphia, P68.
  12. Traynor J, Mactier R. Fox GJ. ‘How to measure renal function in clinical practice’, British Medical Journal2006; 333(7571): 733-73.
  13. Weiner ID, Mitch WE, Sands JMZ. ‘Urea and ammonia metabolism and the control of renal nitrogen excretion’, Clinical Journal of American Society Nephrology 2015; 10 (8): 1444-1458.

Corresponding Author

Dr Frederick Igila Allison

Department of Chemical Pathology, University of Port Harcourt

Port Harcourt, River state, Nigeria