Complement C3 and C5 Degradation Products during Hemodialysis Treatment: Study of an Index of Membrane Bioincompatibility

International audienceIn 10 hemodialyses (HD) with cuprophan (CU) and 10 with polyacrylonitrile (PAN), signs of complement activation were investigated by following arterial and venous levels of C3a, C3d and C5a, in order to propose a marker of bioincompatibility. Despite large individual variabilities, significant increases of these molecules were detected at t 20 min, particularly with CU device in the artery and more marked in the vein except for C3d with PAN. During the later stage of HD, while C3a and C5a levels gradually declined, but remained significantly higher than t 0 in all the patients treated with CU, the C3d concentration reached a plateau suggesting a continuous complement activation throughout HD. HD using PAN membranes were associated with a lower C3a, C3d and C5a generation and fewer dialyses generating these products. In some dialyses the higher arterial level of these molecules suggests an extra-dialyzer complement activation especially with PAN membrane. Although C5a venous levels appeared to be the more significant index of complement activation, for clinical purposes we propose the C3d arterial measurement as a reliable, non-expensive and technically simple indicator of membrane intolerance.In 10 hemodialyses (HD) with cuprophan (CU) and 10 with polyacrylonitrile (PAN), signs of complement activation were investigated by following arterial and venous levels of C3a, C3d and C5a, in order to propose a marker of bioincompatibility. Despite large individual variabilities, significant increases of these molecules were detected at t 20 min, particularly with CU device in the artery and more marked in the vein except for C3d with PAN. During the later stage of HD, while C3a and C5a levels gradually declined, but remained significantly higher than t 0 in all the patients treated with CU, the C3d concentration reached a plateau suggesting a continuous complement activation throughout HD. HD using PAN membranes were associated with a lower C3a, C3d and C5a generation and fewer dialyses generating these products. In some dialyses the higher arterial level of these molecules suggests an extra-dialyzer complement activation especially with PAN membrane. Although C5a venous levels appeared to be the more significant index of complement activation, for clinical purposes we propose the C3d arterial measurement as a reliable, non-expensive and technically simple indicator of membrane intolerance