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An adsorbent monolith device to augment the removal of uraemic toxins during haemodialysis

机译:一种吸附剂整体装置,可增加血液透析过程中尿毒症毒素的去除

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摘要

Adsorbents designed with porosity which allows the removal of protein bound and high molecular weight uraemic toxins may improve the effectiveness of haemodialysis treatment of chronic kidney disease (CKD). A nanoporous activated carbon monolith prototype designed for direct blood contact was first assessed for its capacity to remove albumin bound marker toxins indoxyl sulphate (IS), p-cresyl sulphate (p-CS) and high molecular weight cytokine interleukin-6 in spiked healthy donor studies. Haemodialysis patient blood samples were then used to measure the presence of these markers in pre- and post-dialysis blood and their removal by adsorbent recir-culation of post-dialysis blood samples. Nanopores (20-100 nm) were necessary for marker uraemic toxin removal during in vitro studies. Limited removal of IS and p-CS occurred during haemodialysis, whereas almost complete removal occurred following perfusion through the carbon monoliths suggesting a key role for such adsorbent therapies in CKD patient care.
机译:设计有孔隙度的吸附剂可以去除与蛋白质结合的蛋白和高分子量尿毒症毒素,可以提高血液透析治疗慢性肾脏病(CKD)的有效性。首先评估了设计用于直接血液接触的纳米多孔活性炭整料原型,其在加标的健康供体中清除白蛋白结合的标记毒素吲哚酚硫酸盐(IS),对甲酚硫酸盐(p-CS)和高分子量细胞因子白介素6的能力。学习。然后,对血液透析患者的血液样本进行测量,以测量透析前和透析后血液中这些标志物的存在以及通过透析后血液样本的吸附剂循环去除这些标记物。在体外研究期间,纳米孔(20-100 nm)对于去除标记尿毒症毒素是必需的。在血液透析过程中,IS和p-CS的去除率有限,而通过碳单块灌注后几乎完全去除,这表明此类吸附剂疗法在CKD患者护理中具有关键作用。

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  • 来源
    《Journal of materials science》 |2014年第6期|1589-1597|共9页
  • 作者

    Susan R. Sandeman; Carol A. Howell; Gary J. Phillips; Yishan Zheng; Guy Standen; Robert Pletzenauer; Andrew Davenport; Kolitha Basnayake; Owen Boyd; Stephen Holt; Sergey V. Mikhalovsky;

  • 作者单位

    Biomaterials and Medical Devices Research Group, School of Pharmacy and Biomolecular Sciences, University of Brighton, Huxley Building, Lewes Road, Brighton, East Sussex BN2 4GJ, UK;

    Biomaterials and Medical Devices Research Group, School of Pharmacy and Biomolecular Sciences, University of Brighton, Huxley Building, Lewes Road, Brighton, East Sussex BN2 4GJ, UK;

    Biomaterials and Medical Devices Research Group, School of Pharmacy and Biomolecular Sciences, University of Brighton, Huxley Building, Lewes Road, Brighton, East Sussex BN2 4GJ, UK;

    Biomaterials and Medical Devices Research Group, School of Pharmacy and Biomolecular Sciences, University of Brighton, Huxley Building, Lewes Road, Brighton, East Sussex BN2 4GJ, UK;

    Biomaterials and Medical Devices Research Group, School of Pharmacy and Biomolecular Sciences, University of Brighton, Huxley Building, Lewes Road, Brighton, East Sussex BN2 4GJ, UK;

    Biomaterials and Medical Devices Research Group, School of Pharmacy and Biomolecular Sciences, University of Brighton, Huxley Building, Lewes Road, Brighton, East Sussex BN2 4GJ, UK;

    UCL Centre for Nephrology, Royal Free Hospital, London NW3 2PF, UK;

    Brighton and Sussex University Hospitals NHS Trust, The Royal Sussex County Hospital, Eastern Road, Brighton BN2 5BE, UK;

    Brighton and Sussex University Hospitals NHS Trust, The Royal Sussex County Hospital, Eastern Road, Brighton BN2 5BE, UK;

    Brighton and Sussex University Hospitals NHS Trust, The Royal Sussex County Hospital, Eastern Road, Brighton BN2 5BE, UK;

    Biomaterials and Medical Devices Research Group, School of Pharmacy and Biomolecular Sciences, University of Brighton, Huxley Building, Lewes Road, Brighton, East Sussex BN2 4GJ, UK,School of Engineering, Nazarbayev University, 53 Kabanbay batyr Avenue, Astana 010000, Kazakhstan;

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