Comparison of paper-based nucleic acid extraction materials for point-of-care testing applications

Cheap, rapid, simple and equipment-free nucleic acid extraction (NAE) is highly preferred for implementing nucleic acid detection at point-of-care (POC). Paper-based NAE materials have been extensively utilized due to their low cost, abundance, portability, biocompatibility and ease of chemical modification. However, it is challenging for users to choose the proper one from existing paper-based NAE materials for specific POC applications, which is determined by their physical and chemical properties. Additionally, building the relationship between the physical and chemical properties and the NAE efficiency of paper-based materials is instructive for development of new paper-based NAE materials. In this study, we first systematically compared the physical and chemical properties of six widely used paper-based NAE materials (namely Whatman filter paper #1, FTA card, FTA elute card, Fusion 5, silica membrane and polyethersulfone (PES) membrane), and then evaluated their NAE efficiency. The obtained results indicated that pore uniformity, wet strength, porosity and functional groups are key parameters to affect the efficiency of NAE. The NAE performance of FTA card is the best with high concentration and purity. Finally, we envision that more cost-effective paper-based NAE materials will be developed for POCT application in the future. [GRAPHICS] .

Automated summary

This study compared the physical and chemical properties of six widely used paper-based nucleic acid extraction (NAE) materials and evaluated their NAE efficiency. The results showed that pore uniformity, wet strength, porosity, and functional groups are key parameters affecting the extraction efficiency. FTA card demonstrated the best NAE performance with high concentration and purity. This study provides important insights for the development of cost-effective paper-based NAE materials for point-of-care testing applications in the future.