EVALUATION OF HEPATIC ENZYMES IN LIBYAN CHRONIC KIDNEY DISEASE PATIENTS: NEED FOR LOWER STANDARD "NORMAL" RANGE.

Authors

  • Omar B. Abdallah Higher Institute Of Medical Professions- Benghazi, **Department Of Biochemistry, Faculty Of Medicine, Benghazi University, Benghazi, Libya, Higher Institute for Comprehensive Vocations- Gamins.
  • Younis MYG Higher Institute Of Medical Professions- Benghazi, **Department Of Biochemistry, Faculty Of Medicine, Benghazi University, Benghazi, Libya, Higher Institute for Comprehensive Vocations- Gamins.
  • Jamal A. Alammari Higher Institute Of Medical Professions- Benghazi, **Department Of Biochemistry, Faculty Of Medicine, Benghazi University, Benghazi, Libya, Higher Institute for Comprehensive Vocations- Gamins.
  • Fatima Abdelmalek Higher Institute Of Medical Professions- Benghazi, **Department Of Biochemistry, Faculty Of Medicine, Benghazi University, Benghazi, Libya, Higher Institute for Comprehensive Vocations- Gamins.

DOI:

https://doi.org/10.53555/eijas.v2i4.137

Keywords:

Chronic kidney disease, Hemodialysis, Hepatitis c, Aminotransferases, Mortality

Abstract

Chronic Kidney disease (CKD) patients on hemodialysis treatment are at higher risk of hepatitis C infection and they showed lower serum levels of aminotransferases than general population. These hepatic enzymes aid in the diagnosis, monitoring, and treatment of hepatic diseases. The present study aimed to estimate the changes in serum ALT, AST and ALP levels in both predialysis (PreHD-CKD) and hemodialysis (HD-CKD) patients in comparison to normal controls and to find out the association between hepatic enzyme changes and estimated Glomerular Filtration Rate (eGFR). The present study included 53 HD-CKD patients, 61 PreHD-CKD patients, and 50 healthy controls. A questionnaire that included variables was answered by all the participants, and Blood samples were collected and estimated for blood urea, creatinine, AST, ALT, and ALP using standard methods afterward, the data was statistically analyzed using SPSS software. Our results revealed lower AST and ALT levels in HD-CKD patients than both PreHD-CKD patients and healthy controls. On the contrary, ALP was significantly higher in both groups of CKD patients when compared to healthy controls. In addition, no significant correlation has been found between eGFR and hepatic enzymes. Serum ALT and AST levels tend to be reduced in CKD patients on hemodialysis treatment, a finding that enforces the urgent need for the establishment of separate reference ranges of hepatic enzymes for CKD patients in order to facilitate the diagnosis, monitoring, and treatment of liver diseases, especially hepatitis C infection, an establishment that may play a role in decreasing the mortality in CKD patients. 

References

. Levey, A., et al., Chronic kidney disease as a global public health problem: approaches and initiatives–a position statement from Kidney Disease Improving Global Outcomes. Kidney international, 2007. 72(3): p. 247-259.

. Farag, Y.M., J.A. Kari, and A.K. Singh, Chronic kidney disease in the Arab world: a call for action. Nephron clinical practice, 2012. 121(3-4): p. c120-c123.

. Levey, A.S., et al., Chronic kidney disease: common, harmful and treatable–World Kidney Day 2007. American journal of nephrology, 2007. 27(1): p. 108-112.

. Ofsthun, N., et al. The association of mortality and hospitalization with hemoglobin (Hb) and missed dialysis treatments in stage 5 chronic kidney disease (CKD) patients with and without cardiac comorbidities. in NEPHROLOGY DIALYSIS TRANSPLANTATION. 2005. OXFORD UNIV PRESS GREAT CLARENDON ST, OXFORD OX2 6DP, ENGLAND.

. Alashek, W.A., Epidemiology of dialysis-treated end-stage kidney disease in adults in Libya. 2013, University of Nottingham.

. Kratz, A., M. Pesce, and D. Fink, Appendix: laboratory values of clinical importance. Harrison's principles of internal medicine, 17e: http://www. accessmedicine. com/content. aspx, 2012.

. Giannini, E.G., R. Testa, and V. Savarino, Liver enzyme alteration: a guide for clinicians. Canadian medical association journal, 2005. 172(3): p. 367-379.

. Fabrizi, F., F.F. Poordad, and P. Martin, Hepatitis C infection and the patient with end‐stage renal disease. Hepatology, 2002. 36(1): p. 3-10.

. Kalantar-Zadeh, K., C.J. McAllister, and L.G. Miller, Clinical characteristics and mortality in hepatitis C-positive haemodialysis patients: a population based study. Nephrology Dialysis Transplantation, 2005. 20(8): p. 1662-1669.

. Nakayama, E., et al., Prognosis of anti-hepatitis C virus antibody-positive patients on regular hemodialysis therapy. Journal of the American Society of Nephrology, 2000. 11(10): p. 1896-1902.

. Fissell, R.B., et al., Patterns of hepatitis C prevalence and seroconversion in hemodialysis units from three continents: the DOPPS. Kidney international, 2004. 65(6): p. 2335-2342.

. Alashek, W.A., C.W. McIntyre, and M.W. Taal, Hepatitis B and C infection in haemodialysis patients in Libya: prevalence, incidence and risk factors. BMC infectious diseases, 2012. 12(1): p. 265.

. Sesso, R.d.C.C., et al., Chronic dialysis in Brazil-report of the brazilian dialysis census, 2011. Jornal Brasileiro de Nefrologia, 2012. 34(3): p. 272-277.

. Huraib, S., et al., High prevalence of and risk factors for hepatitis C in haemodialysis patients in Saudi Arabia: a need for new dialysis strategies. Nephrology Dialysis Transplantation, 1995. 10(4): p. 470-474.

. Liberato, I.R.d.O., et al., Liver enzymes in patients with chronic kidney disease undergoing peritoneal dialysis and hemodialysis. Clinics, 2012. 67(2): p. 131-134.

. Ono, K., T. Ono, and T. Matsumata, The pathogenesis of decreased aspartate aminotransferase and alanine aminotransferase activity in the plasma of hemodialysis patients: the role of vitamin B6 deficiency. Clinical nephrology, 1995. 43(6): p. 405-408.

. Crawford, D., R. Reyna, and M. Weiner, Effects of in vivo and in vitro dialysis on plasma transaminase activity. Nephron, 1978. 22(4-6): p. 418-422.

. Kovesdy, C.P., et al., Outcome predictability of serum alkaline phosphatase in men with predialysis CKD. Nephrology Dialysis Transplantation, 2010. 25(9): p. 3003-3011.

. Eknoyan, G., et al., KDIGO 2012 clinical practice guideline for the evaluation and management of chronic kidney disease. Kidney Int, 2013. 3: p. 5-14.

. Levey, A.S., et al., National Kidney Foundation practice guidelines for chronic kidney disease: evaluation, classification, and stratification. Annals of internal medicine, 2003. 139(2): p. 137-147.

. HRSTIĆ, I. and R. OSTOJIĆ, Chronic liver diseases in patients with chronic kidney disease. Acta medica Croatica, 2011. 65(4): p. 349-352.

. Yasuda, K., et al., Hypoaminotransferasemia in patients undergoing long-term hemodialysis: clinical and biochemical appraisal. Gastroenterology, 1995. 109(4): p. 1295-1300.

. Mustafa, L.A., S. Al-Abachi, and D.S. Khalaf, Some biochemical changes in serum of hemodialysis patients. Natl J Chem, 2008. 32: p. 695-700.

. Ray, L., et al., A comparative study of serum aminotransferases in chronic kidney disease with and without end-stage renal disease: Need for new reference ranges. International Journal of Applied and Basic Medical Research, 2015. 5(1): p. 31.

. Fabrizi, F., et al., Decreased serum aminotransferase activity in patients with chronic renal failure: impact on the detection of viral hepatitis. American journal of kidney diseases, 2001. 38(5): p. 1009-1015.

. Lopes, E.P., et al., Serum alanine aminotransferase levels, hematocrit rate and body weight correlations before and after hemodialysis session. Clinics, 2009. 64(10): p. 941-945.

. Sette, L.H.B.C. and E.P.d.A. Lopes, The reduction of serum aminotransferase levels is proportional to the decline of the glomerular filtration rate in patients with chronic kidney disease. Clinics, 2015. 70(5): p. 346-349.

. Huang, J.-W., et al., Association between serum aspartate transaminase and homocysteine levels in hemodialysis patients. American journal of kidney diseases, 2002. 40(6): p. 11951201.

. Hung, K., et al., Revised cutoff values of serum aminotransferase in detecting viral hepatitis among CAPD patients: experience from Taiwan, an endemic area for hepatitis B. Nephrology Dialysis Transplantation, 1997. 12(1): p. 180-183.

. Sette, L.H.B.C. and E.P. de Almeida Lopes, Liver enzymes serum levels in patients with chronic kidney disease on hemodialysis: a comprehensive review. Clinics, 2014. 69(4): p. 271-278.

. Magnusson, P., et al., Effect of chronic renal failure on bone turnover and bone alkaline phosphatase isoforms. Kidney international, 2001. 60(1): p. 257-265.

. Torres, P.U., Bone alkaline phosphatase isoforms in chronic renal failure. Kidney international, 2002. 61(3): p. 1178-1179.

. Beddhu, S., et al., Serum alkaline phosphatase and mortality in African Americans with chronic kidney disease. Clinical Journal of the American Society of Nephrology, 2009. 4(11): p. 1805-1810.

. Magnusson, P., et al., Different Responses of Bone Alkaline Phosphatase Isoforms During Recombinant Insulin‐like Growth Factor‐I (IGF‐I) and During Growth Hormone Therapy in Adults with Growth Hormone Deficiency. Journal of Bone and Mineral Research, 1997. 12(2): p. 210-220.

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Published

2016-12-27

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Vol. 2 No. 4 (2016): EPH - International Journal of Applied Science ( ISSN: 2208-2182 )

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