Myeloperoxidase serves as a marker of oxidative stress during single haemodialysis session using two different biocompatible dialysis membranes

doi:10.1093/ndt/gfh764

NDT Advance Access originally published online on April 6, 2005
Nephrology Dialysis Transplantation 2005 20(6):1134-1139; doi:10.1093/ndt/gfh764

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Original Article

Myeloperoxidase serves as a marker of oxidative stress during single haemodialysis session using two different biocompatible dialysis membranes

Chia-Chao Wu¹^,2, Jin-Shuen Chen², Wen-Mein Wu³, Tung-Nan Liao⁴, Pauling Chu², Shih-Hua Lin², Chien-Huei Chuang² and Yuh-Feng Lin²

¹ Graduate Institute of Medical Sciences, National Defense Medical Center, Taipei, ² Division of Nephrology, Department of Internal Medicine, Tri-Service General Hospital, Taipei, ³ Department of Nutrition and Food Sciences, Fu Jen Catholic University, Taipei and ⁴ Department of Medical Technology, Chung-Hwa College of Medical Technology, Tainan, Taiwan

Correspondence and offprint requests to: Yuh-Feng Lin, MD, Division of Nephrology, Department of Medicine, Tri-Service General Hospital, No. 325, Sec. 2, Cheng-Kung Road, Neihu 114, Taipei, Taiwan. Email: linyf{at}ndmctsgh.edu.tw

Background. There is increased oxidative stress in patientsundergoing haemodialysis (HD); however, little is known of howdifferent dialysis membranes contribute to the oxidative stressinduced by the dialysis procedure per se. We therefore studiedthe influence of two different dialysis membranes on oxidativestress during HD.

Methods. Eight patients undergoing HD three times per week wereenrolled in this cross-controlled study. Patients sequentiallyreceived HD using polysulphone (PS) and regenerated cellulose(RC) dialysis membranes for 1 week each. Blood samples werecollected in the last section of each hollow fibre 0, 15, 120and 240 min after starting HD. We determined superoxide anionproduction derived from neutrophils, superoxide dismutase (SOD)and glutathione peroxidase (GPx) derived from washed red cells,plasma myeloperoxidase (MPO), plasma thiobarbituric acid-reactivesubstances (TBARS), plasma advanced oxidation protein products(AOPP) and serum 8-hydroxy-2'-deoxyguanosine (8-OHdG).

Results. Leukocyte numbers, including neutrophils, lymphocytesand monocytes, decreased significantly after 15 min of dialysis,more so with RC than with PS membrane. For both membranes, superoxideanion production transiently increased during the first 15 minwhereas the post-dialysis production was decreased. Plasma MPOlevels persistently increased during dialysis with the two membranes.Moreover, the increase was more marked with RC than with PSmembrane. AOPP and 8-OHdG levels increased progressively whenusing RC membranes. There were no significant differences inSOD, GPx, TBARS, AOPP and 8-OHdG levels between the two membranes.

Conclusions. The biocompatibility of the dialyser affects oxidativestress production during a single dialysis session. The measurementof MPO may serve as a reliable marker of the degree of oxidativestress induced using dialysis membranes of different biocompatibilities.

Keywords: antioxidants; biocompatibility; haemodialysis; myeloperoxidase; oxidative stress

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