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Journal of Artificial Organs
Published in: Journal of Artificial Organs 3/2021

Open Access 01-09-2021 | Brief Communication

In vitro blood compatibility evaluation method: incubating while rotating hemodialyzers filled with fresh human blood

Authors: Kinue Kamata, Yoshihiro Hatanaka, Hiromi Tanaka, Satoru Inoue, Yusuke Tokimizu, Sayuri Tanba, Yuki Kishikawa, Toshinori Koizumi

Published in: Journal of Artificial Organs | Issue 3/2021

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Abstract

One of the often-used methods for in vitro evaluation of the blood compatibility of hemodialysis membranes is the circulation of human blood through a miniaturized hemodialyzer. The use of a rather small amount of human blood in its evaluation is one advantage of this method. However, because it is manufactured by a different process than actual ones, a miniaturized hemodialyzer membrane cannot always preserve the properties of actual hemodialyzers. To address this problem, we established a new experimental method that uses a relatively small amount of human blood and actual dialyzers. In this method, a test hemodialyzer and a control hemodialyzer filled with human blood obtained from the same donor is slowly rotated to prevent spontaneous blood cell sedimentation for 4 h at 37 °C. By use of this method, we were able to compare blood compatibility between a polysulfone (PS) membrane and a vitamin E (VE)-bonded PS membrane in terms of their relative antithrombotic, antioxidative, and anti-inflammatory properties. Consistent with many previous reports, the results clearly showed that compared with the PS membrane, VE-bonded PS membrane is more blood compatible. These findings suggest that our method is applicable, at least to in vitro blood compatibility evaluation of PS type dialysis membranes.
Literature
1.
Daugirdas JT, Bernardo AA. Hemodialysis effect on platelet count and function and hemodialysis-associated thrombocytopenia. Kidney Int. 2012;82:147–57. CrossRef
2.
Koga Y, Fujieda H, Meguro H, Ueno Y, Aoki T, Miwa K, et al. Biocompatibility of polysulfone hemodialysis membranes and its mechanisms: involvement of fibrinogen and its integrin receptors in activation of platelets and neutrophils. Artif Organs. 2018;42:E246–58. CrossRef
3.
Kohlova M, Amorim CG, Araujo A, Santos-Silva A, Solich P, Montenegro MSBSM. The biocompatibility and bioactivity of hemodialysis membranes: their impact in end-stage renal disease. J Artif Organs. 2019;22:14–28. CrossRef
4.
Koga Y, Meguro H, Fujieda H, Ueno Y, Miwa K, Kainoh M. A new hydrophilic polysulfone hemodialysis membrane can prevent platelet-neutrophil interactions and successive neutrophil activation. Int J Artif Organs. 2019;42:175–81. CrossRef
5.
Tsukao H, Kokubo K, Takahashi H, Nagasato M, Endo T, Iizuka N, et al. Activation of platelets upon contact with a vitamin E-coated/non-coated surface. J Artif Organs. 2013;16:193–205. CrossRef
6.
Sasaki M. Development of vitamin E-modified polysulfone membrane dialyzers. J Artif Organs. 2006;9:50–60. CrossRef
7.
Kiaii M, Aritomi M, Nagase M, Farah M, Jung B. Clinical evaluation of performance, biocompatibility, and safety of vitamin E-bonded polysulfone membrane hemodialyzer compared to non-vitamin E-bonded hemodialyzer. J Artif Organs. 2019;22:307–15. CrossRef
8.
Kuroda M, Koizumi T, Hiyoshi T. In vitro evaluation of vitamin E-coated polysulfone membrane. (Article written in Japanese.) Tokyo Igakusha, Kidney and Dialysis High Performance Membrane extra issue 2005;59:120–2.
9.
Morimoto H, Nakao K, Fukuoka K, Sarai A, Yano A, Kihara T, et al. Long-term use of vitamin E-coated polysulfone membrane reduces oxidative stress markers in haemodialysis patients. Nephrol Dial Transplant. 2005;20:2775–82. CrossRef
10.
Panichi V, Rosati A, Paoletti S, Ferrandello P, Migliori M, Beati S, et al. A vitamin E-coated polysulfone membrane reduces serum levels of inflammatory markers and resistance to erythropoietin-stimulating agents in hemodialysis patients: results of a randomized cross-over multicenter trial. Blood Purif. 2011;32:7–14. CrossRef
Metadata
Title
In vitro blood compatibility evaluation method: incubating while rotating hemodialyzers filled with fresh human blood
Authors
Kinue Kamata
Yoshihiro Hatanaka
Hiromi Tanaka
Satoru Inoue
Yusuke Tokimizu
Sayuri Tanba
Yuki Kishikawa
Toshinori Koizumi
Publication date
01-09-2021
Publisher
Springer Japan
Published in
Journal of Artificial Organs / Issue 3/2021
Print ISSN: 1434-7229
Electronic ISSN: 1619-0904
DOI
https://doi.org/10.1007/s10047-020-01224-6

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