4.7 Article

Thermal analysis of loop mediated isothermal DNA amplification (LAMP) based point-of-care diagnostic device

Journal

APPLIED THERMAL ENGINEERING
Volume 183, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.applthermaleng.2020.116179

Keywords

Point-of-care diagnostics; Energy consumption; Thermal design and analysis; Porous membrane; CFD simulation; Device operational time

Funding

  1. Department of Science and Technology, Government of India [DST/INSPIRE/04/2018/001536]

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The study conducted thermal design and energy consumption analysis of a paper-based LAMP point-of-care device using CFD analysis for the first time. It was found that two discrete heating configurations with high horizontal clearance were effective in reducing energy consumption, and two portable AA batteries were sufficient for device operation. Overall, the research successfully demonstrated energy optimization and operational speed of the POC medical device through detailed thermal analysis.
Loop-Mediated Isothermal Amplification reaction or LAMP has been identified as a feasible DNA amplification process. Paper-based LAMP diagnostic devices offer several advantages for point-of-care (POC) applications. LAMP occurs at a constant temperature of higher limits, which remains a major challenge on-site. This calls for an efficient thermal design which is beneficial in maintaining a constant high temperature at POC locations. The present study reports thermal design and energy consumption analysis of a paper-based LAMP POC device for the first time using CFD analysis. The POC design consists of a rectangular porous membrane embedded on a rectangular solid material, heated from the side walls. Isothermal and discrete heating with different horizontal and vertical clearance configurations are used as a design parameter. CFD analysis of different thermal configurations is carried out in COMSOL Multiphysics platform to solve the energy and convection-diffusion-reaction equation in porous media. The thermal analysis demonstrated that two discrete heating configurations with high horizontal clearance are effective in reducing energy consumption. It was inferred that two portable AA batteries are sufficient for the POC device operation. Overall, the current work successfully demonstrates the energy optimization and speed of operation of the POC medical device by detailed thermal analysis.

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