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3D printed hydrophobic barriers in a paper-based biosensor for point-of-care detection of dengue virus serotypes. | LitMetric

3D printed hydrophobic barriers in a paper-based biosensor for point-of-care detection of dengue virus serotypes.

Talanta

Department of Biomedical Engineering, Faculty of Engineering, Mahidol University, Nakhon Pathom, 73170, Thailand. Electronic address:

Published: January 2022

AI Article Synopsis

  • Paper-based biosensors, particularly microfluidic paper-based analytical devices (μPADs), are essential for point-of-care testing due to their adaptable designs that integrate hydrophobic barriers.
  • A new technique utilizing 3D printing with polylactic acid (PLA) and wax filaments enables the creation of these hydrophobic barriers, simplifying the production process for μPADs.
  • The developed prototype, which combines 3D-printed barriers and a fluidic chip, successfully identifies different serotypes of the dengue virus by processing cell-free reactions, showcasing a versatile approach for rapid testing solutions.

Article Abstract

Paper-based biosensor is one of the most commonly used platforms for point-of-care testing (POCT). Among these platforms, microfluidic paper-based analytical devices (μPADs) have the most versatile designs due to the different hydrophobic barrier patterns and layers of the devices. In addition, μPADs can also be used in combination with other biosensor platforms to improve the performance of the device. Simple and convenient methods for fabricating low-cost and design-adjustable hydrophobic barriers on paper are one of the most challenging aspects for creating μPADs. This work demonstrated a simple technique for using the common polylactic acid (PLA) filament and wax filament to create hydrophobic barriers on paper for μPADs using a commercialized 3D printer. As a proof of concept, the papers with 3D printed PLA barrier were used in combination with a fluidic chip in a prototype biosensor, in which the barrier paper housed four cell-free reactions and the fluidic chip achieved sample delivery to the reactions in the device. Our designed prototype was capable of discriminating dengue virus serotypes based on small nucleotide sequence differences. The proposed combination of 3D-printed barrier paper and fluidic chip provides a versatile platform for rapid prototyping of POCT with possible compatibility with various detection systems.

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Source
http://dx.doi.org/10.1016/j.talanta.2021.122962DOI Listing

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