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Aptamer selection <i>via</i> versatile microfluidic platforms and their diverse applications

Yi-Da Chung, Yi-Cheng Tsai, Chi-Hung Wang, Gwo‐Bin Lee

2025Lab on a Chip16 citationsDOI

Abstract

-like SELEX. These advancements provide potential solutions to existing challenges in aptamer selection using conventional SELEX, especially concerning biological samples. A trend toward non-SELEX methods was also reviewed and discussed, wherein nucleic acid amplification was eliminated to improve aptamer selection. Microfluidic platforms have demonstrated versatility not only in aptamer selection but also in various detection applications; they allow for precise control of liquid flow and have been essential in the advancement of therapeutic aptamers, facilitating accurate screening, enhancing drug delivery systems, and enabling targeted therapeutic interventions. Although advances in microfluidic technology are expected to enhance aptamer-based diagnostics, therapeutics, and biosensing, challenges still persist, especially in up-scaling microfluidic systems for various clinical applications. The advantages and limitations of integrating microfluidic platforms with aptamer development are further addressed, emphasizing areas for future research. We also present a perspective on the future of microfluidic systems and aptamer technologies, highlighting their increasing significance in healthcare and diagnostics.

Topics & Concepts

Systematic evolution of ligands by exponential enrichmentAptamerSelection (genetic algorithm)NanotechnologyMicrofluidicsIdentification (biology)Computer scienceBiologyMaterials scienceArtificial intelligenceMolecular biologyGeneticsRNAGeneBotanyAdvanced biosensing and bioanalysis techniquesBiosensors and Analytical DetectionAdvanced Biosensing Techniques and Applications
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