Sulfonation of polyethersulfone sheets effects on adsorbability of beta 2-microglobulin: Whether the adsorbability changes with increased sulfonation degree? / 中国组织工程研究

BACKGROUND: Dialysis-related amyloid may occur during long-term dialysis for patients with uraemia, of which the main evocator is β_2-microglobulin (β_22M); therefore, how to eliminate 132M from blood is always the focus of research. OBJECTIVE: To observe ability of removal of β_2-microglobulin (β_2M) from serum using two kinds of polyethersulfone (PES) membrane materials with various degrees of sulfonation.METHODS: These materials were incubated in radio-labeled β_2M (~(125)Ⅰ-β_2M) solution and human serum respectively at appointed time at 37 ℃, and then the amounts of ~(125)Ⅰ-β_2M and serumβ_2M adsorbed by materials were measured by radio immunoassay. RESULTS AND CONCLUSION: In the ~(125)Ⅰ-β_2M system, amounts of ~(125)Ⅰ-β_2M adsorbed by the materials decreased in the following sequence PES with high degree of sulfonation > PES with low degree of sulfonation > PES, whatever the source of PES was. In the serum system, amounts of β_2M adsorbed reached maximums at 30 minutes and the final adsorptions decreased in sequence of PES with high degree of sulfonation > PES with low degree of sulfonaUon > PES. Sulfonated PES removed β_2M more than PES did and the adsorption of β_2M increases with the increase in the degree of sulfonation. Its ability to remove significant amount of β_2M may result in less β_2M available for incorporation into amyloid. The use of sulfonated PES membranes may lessen the likelihood of development of dialysis-related amyloidosis, which remains a major source of morbidity for patients treated with long-term hemodialysis.

Effect of sulfonation of polyethersulfone sheets on the adsorption of beta2-microglobulin / 生物医学工程学杂志

This study was performed to evaluate the adsorption of beta2-microglobulin(beta2 M) by blood dialysis membrane materials which are polyethersulfone (PES), sulfonated polyethersulfones, (PES-SO3Na-I and PES-SO3Na-I ) in vitro incubated in human serum and radiolabeled beta2M (125I-beta2 M) solution respectively. In these experiments, the materials were incubated in 125I-beta2 M solution and human serum at the appointed time ranging from 15 minutes to four hours at 37 degrees C, and then the amounts of 125I-beta2M and serum beta2M adsorbed by materials were measured by radioimmunoassay (RIA). In the 125I-beta2 M system, amounts of 125I-beta2M adsorbed by the materials decreased in sequence of PES-SO3 Na-II > PES-SO3Na-I > PES. In the serum system, amounts of beta2M adsorbed reached maximums at 30 minutes and the final adsorptions decreased in sequence of PES-SO3Na-II > PES-SO3Na-I > PES. Sulfonated PES removes beta2M more than PES does and the adsorption of beta2M increases with the increase in the degree of sulfonation. Its ability to remove significant amount of beta2M may result in less beta2M available for incorporation into amyloid. The use of PES-SO3Na membranes lessens the likelihood of dialysis-related amyloidosis (DRA) development, which remains a major source of morbidity for patients treated with long-term hemodialysis.