by Keyword: capture

Sierra-Agudelo J, Rodriguez-Trujillo R, Samitier J, (2022). Microfluidics for the Isolation and Detection of Circulating Tumor Cells Microfluidics And Biosensors In Cancer Research 1379, 389-412

Nowadays, liquid biopsy represents one of the most promising techniques for early diagnosis, monitoring, and therapy screening of cancer. This novel methodology includes, among other techniques, the isolation, capture, and analysis of circulating tumor cells (CTCs). Nonetheless, the identification of CTC from whole blood is challenging due to their extremely low concentration (1-100 per ml of whole blood), and traditional methods result insufficient in terms of purity, recovery, throughput and/or viability of the processed sample. In this context, the development of microfluidic devices for detecting and isolating CTCs offers a wide range of new opportunities due to their excellent properties for cell manipulation and the advantages to integrate and bring different laboratory processes into the microscale improving the sensitivity, portability, reducing cost and time. This chapter explores current and recent microfluidic approaches that have been developed for the analysis and detection of CTCs, which involve cell capture methods based on affinity binding and label-free methods and detection based on electrical, chemical, and optical sensors. All the exposed technologies seek to overcome the limitations of commercial systems for the analysis and isolation of CTCs, as well as to provide extended analysis that will allow the development of novel and more efficient diagnostic tools.© 2022. The Author(s), under exclusive license to Springer Nature Switzerland AG.

JTD Keywords: cancer detection, cancer diagnosis, cancer-cells, capture, chip, circulating tumor cells, enrichment, liquid biopsy, microchannel, separation, ultra-fast, Cancer detection, Cancer diagnosis, Circulating tumor cells, Label-free isolation, Liquid biopsy, Microfluidics