Minimizing Ethanol Carry-Over in Centrifugal Microfluidic Nucleic Acid Extraction by Advanced Bead Handling and Management of Diffusive Mass Transfer

机译：通过先进的微珠处理和扩散传质管理，将乙醇在离心微流控核酸萃取中的残留降至最低

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We present three concepts for centrifugal microfluidics reducing ethanol carry-over in magnetic bead-based nucleic acid (NA) extraction. Ethanol carry-over is critical regarding inhibition of downstream NA amplification. We identified two possible carry-over pathways: Liquid co-transport within bead-clusters and vapor diffusion. For the first time, we integrated magnetic bead handling in centrifugal microfluidics at continuous rotation aiming to avoid liquid co-transport within bead-clusters. Consequently, no significant contribution to ethanol carry-over could be assigned anymore to liquid co-transport. Major carry-over was attributed to diffusive transport of ethanol vapor. Countermeasures reduced this from 9.7 % (v/v) to 0.4 % (v/v), below the critical level for inhibition of downstream amplification reactions.

机译：我们提出了三种离心微流控技术的概念，这些技术可减少基于磁珠的核酸（NA）提取中的乙醇残留。乙醇残留对于抑制下游NA扩增至关重要。我们确定了两种可能的残留途径：在珠团簇中的液体共运输和蒸汽扩散。我们首次将磁珠处理技术集成在连续旋转的离心微流控系统中，目的是避免在磁珠团簇内进行液体共运输。因此，对于乙醇残留的重大贡献不能再分配给液体共运输。大量残留物归因于乙醇蒸气的扩散传输。对策将其从9.7％（v / v）降低到0.4％（v / v），低于抑制下游扩增反应的临界水平。

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《International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII》|2019年|130-133|共4页
会议地点 Berlin(DE)
作者
Sebastian Hin; Nils Paust; Markus Rombach; Jan Lueddecke; Mara Specht; Roland Zengerle; Konstantinos Mitsakakis;
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Hahn-Schickard Freiburg GERMANY;

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关键词
Ethanol; Force; Magnetic liquids; Microfluidics; Temperature measurement; Atmospheric modeling; Pollution measurement;

机译：乙醇；力;磁性液体；微流体；温度测量；大气模拟；污染测量;

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1. Extraction of nucleic acids from blood: unveiling the potential of active pneumatic pumping in centrifugal microfluidics for integration and automation of sample preparation processes [J] . Brassard Daniel, Geissler Matthias, Descarreaux Marianne, Lab on a chip . 2019,第11期

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2. Automation of Silica Bead-based Nucleic Acid Extraction on a Centrifugal Lab-on-a-Disc Platform [J] . David J Kinahan, Faith Mangwanya, Robert Garvey, Journal of Physics: Conference Series . 2016,第1期

机译：离心圆盘实验室平台上基于硅珠的核酸提取自动化
3. Automated nucleic acid extraction from whole blood, B. subtilis, E. coli, and Rift Valley fever virus on a centrifugal microfluidic LabDisk [J] . Strohmeier O., Keil S., Kanat B., RSC Advances . 2015,第41期

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4. Minimizing Ethanol Carry-Over in Centrifugal Microfluidic Nucleic Acid Extraction by Advanced Bead Handling and Management of Diffusive Mass Transfer [C] . Sebastian Hin, Nils Paust, Markus Rombach, International Conference on Solid-State Sensors, Actuators and Microsystems amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp; Eurosensors . 2019

机译：通过先进的珠子处理和扩散传单管理，使离心微流体核酸萃取中的乙醇随身携带和扩散传单
5. Characterization, Implementation and Control of Paramagnetic Beads for the Extraction of Nucleic Acids from Patient Bio-Fluids in Point of Need Microfluidics Systems [D] . Biswas, Shilpita. 2021

机译：在需要微流体系统中患者生物液中核酸萃取核酸的表征，实施和控制
6. Adsorption and isolation of nucleic acids on cellulose magnetic beads using a three-dimensional printed microfluidic chip [O] . Lei Zhang, Rachel N. Deraney, Anubhav Tripathi 2015

机译：使用三维印刷微流控芯片在纤维素磁珠上吸附和分离核酸
7. Adsorption and isolation of nucleic acids on cellulose magnetic beads using a three-dimensional printed microfluidic chip [O] . Lei Zhang, Rachel N. Deraney, Anubhav Tripathi 2015

机译：三维印刷微流体芯片吸附和分离纤维素磁珠上的核酸

Minimizing Ethanol Carry-Over in Centrifugal Microfluidic Nucleic Acid Extraction by Advanced Bead Handling and Management of Diffusive Mass Transfer

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