Microfluidic thermocyclers for genetic analysis

ITherm 2002. Eighth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (Cat. No.02CH37258) Pub Date : 2002-08-07 DOI:10.1109/ITHERM.2002.1012571

S. Stern, C. Brooks, M. Strachan, A. Kopf‐Sill, J. W. Parce

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引用次数: 4

Abstract

Improved thermocycler design can increase the efficiency of genetic analysis based on the polymerase chain reaction. In this report, strategies for chip-based microfluidic thermocyclers are discussed, and the design and performance of devices employing buffer joule heating for thermocycling are presented. Novel joule heating methods involving transfer of electric current directly into the PCR buffer within microchannels are introduced. These methods utilize in-channel platinum electrodes to transfer AC heating current into the buffer under conditions of minimal oxidation-reduction and water electrolysis. Key features of the approach include, (i) very small, nanoliter-level reaction volumes for decreased reagent consumption, (ii) an integrated reagent accession microcapillary for continuous-flow processing and on-chip, run-time reaction assembly options, (iii) rapid thermocycling for better PCR performance, and (iv) simple and fully integrated reaction buffer heating and temperature sensing provided by buffer joule heating technology.

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改进的热循环器设计可以提高基于聚合酶链反应的遗传分析效率。本文讨论了基于芯片的微流控热循环器的策略，并介绍了采用缓冲焦耳加热进行热循环的器件的设计和性能。介绍了一种新的焦耳加热方法，将电流直接转移到微通道内的PCR缓冲液中。这些方法利用通道内铂电极在最小氧化还原和水电解条件下将交流加热电流转移到缓冲液中。该方法的主要特点包括:(i)非常小的纳升级反应体积，以减少试剂消耗;(ii)集成的试剂加入微毛细管，用于连续流处理和芯片上的运行时反应组装选项;(iii)快速热循环，以提高PCR性能;(iv)通过缓冲焦耳加热技术提供简单且完全集成的反应缓冲加热和温度传感。

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ITherm 2002. Eighth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (Cat. No.02CH37258)

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