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首页> 外文期刊>Drug Design, Development and Therapy >Design of a new therapy for patients with chronic kidney disease: use of microarrays for selective hemoadsorption of uremic wastes and toxins to improve homeostasis
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Design of a new therapy for patients with chronic kidney disease: use of microarrays for selective hemoadsorption of uremic wastes and toxins to improve homeostasis

机译:设计一种用于慢性肾脏疾病患者的新疗法:使用微阵列选择性吸附尿毒症废物和毒素以改善体内平衡

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Abstract: The hypothesis proposed here would provide near to optimum homeostasis for patients with chronic kidney disease (CKD) without the need for hemodialysis. This strategy has not been described previously in the scientific literature. It involves a targeted therapy that may prevent progression of the disease and help to improve the well-being of CKD patients. It proposes a nanotechnological device, ie, a microarray-oriented homeostasis provider (MOHP), to improve homeostasis in CKD patients. MOHP would be an auxiliary kidney aid, and would improve the filtration functions that impaired kidneys cannot perform by their own. MOHP is composed of two main computer-oriented components, ie, a quantitative microarray detector (QMD) and a homeostasis-oriented microarray column (HOMC). QMD detects and HOMC selectively removes defined quantities of uremic wastes, toxins and any other metabolites which is programmed for. The QMD and HOMC would accomplish this with the help of a peristaltic blood pump that would circulate blood aseptically in an extracorporeal closed circuit. During the passage of blood through the QMD, this microarray detector would quantitatively monitor all of the blood compounds that accumulate in the blood of a patient with impaired glomerular filtration, including small-sized, middle-sized and large-sized molecules. The electronic information collected by QMD would be electronically transmitted to the HOMC, which would adjust the molecules to the concentrations they are electronically programmed for and/or receive from QMD. This process of monitoring and removal of waste continues until the programmed homeostasis criteria are reached. Like a conventional kidney machine, MOHP can be used in hospitals and homes under the supervision of a trained technician. The main advantages of this treatment would include improved homeostasis, a reduced likelihood of side effects and of the morbidity resulting from CKD, slower progression of kidney impairment, prevention of end-stage renal failure, a decreased need for hemodialysis therapy, avoidance of dialysis-related side effects later on in the patient’s life, improved quality of life and increased life expectancy.
机译:摘要:这里提出的假设将为患有慢性肾脏疾病(CKD)的患者提供几乎最佳的体内平衡,而无需进行血液透析。以前在科学文献中没有描述这种策略。它涉及一种靶向治疗,可以预防疾病的进展并帮助改善CKD患者的健康。它提出了一种纳米技术设备,即面向微阵列的动态平衡提供者(MOHP),以改善CKD患者的动态平衡。 MOHP将作为肾脏的辅助药物,并改善受损肾脏无法自行发挥的滤过功能。 MOHP由两个主要的面向计算机的组件组成,即定量微阵列检测器(QMD)和动态平衡微阵列柱(HOMC)。 QMD检测并HOMC选择性地清除了规定数量的尿毒症废物,毒素和任何其他计划的代谢物。 QMD和HOMC将在蠕动血泵的帮助下实现这一目标,该蠕动血泵将在体外闭合回路中无菌地循环血液。在血液通过QMD的过程中,此微阵列检测器将定量监测在肾小球滤过功能受损的患者血液中积累的所有血液化合物,包括小,中,大分子。由QMD收集的电子信息将被电子传输到HOMC,HOMC会将分子调整为电子编程用于QMD和/或从QMD接收的浓度。监视和清除废物的过程一直持续到达到设定的稳态标准为止。就像传统的肾脏机器一样,MOHP可以在受过训练的技术人员的监督下在医院和家庭中使用。这种治疗的主要优点包括:体内稳态的改善,由CKD引起的副作用和发病率的降低,肾脏损害的进展较慢,终末期肾衰竭的预防,对血液透析疗法的需求减少,避免了透析-相关的副作用会影响患者的生活,改善生活质量并增加预期寿命。

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