光盘微流控芯片上的血液分离和血浆制备

Xuan-Fu Chen, Ju-Nan Kuo
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引用次数: 3

摘要

本文介绍了一种在CD微流控平台上进行快速血液分离和血浆制备的离心工艺。新的实验室- cd微结构能够直接将血浆从全血中分离到不同的储存库中,并进行等量的血浆流动划分和滗析。我们提出了一个CD微流控平台,包括一个由等离子体分离微通道网络和一个分离器/滗析微通道网络组成的微通道网络。通过一系列的计算流体动力学(CFD)模拟,确定了分流网络的最佳几何参数和等离子体沉降体积。实验结果表明,当血液比容为6%时,分离效率可达96%。优化后的分流网络对左右支血浆样品的影响不超过0.5 nL。通过控制CD旋转速度,可以将等体积的等离子体倒入检测室。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Blood separation and plasma preparation on a compact disk microfluidic chip
This paper present an available centrifugal process for rapid blood separation and plasma preparation steps on CD microfluidic platform. The new lab-on-CD microstructure capable of directly separating plasma from the whole blood into different reservoirs, and performing equal plasma flow division and decanting plasma are demonstrated and characterized. We propose a CD microfluidic platform, including a microchannel network consisting of a plasma separation microchannel network and a splitter/decantation microchannel network. A series of computational fluid dynamics (CFD) simulations are performed to determine the optimal geometry parameters of the flow division network and the plasma decanted volumes. The experimental results show that 96% separation efficiency is achieved for diluted blood of 6% hematocrit. The optimized flow division networks cause a variation of no more than 0.5 nL in the plasma samples collected from the left and right branches. By manipulating the CD rotation speed, the constant volume of plasma can be decanted into the detection chamber.
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