Journal
IET NANOBIOTECHNOLOGY
Volume 10, Issue 5, Pages 263-275Publisher
INST ENGINEERING TECHNOLOGY-IET
DOI: 10.1049/iet-nbt.2015.0060
Keywords
microfluidics; bioMEMS; cancer; cellular biophysics; biomedical equipment; patient diagnosis; tumours; proteins; molecular biophysics; electrophoresis; surface plasmon resonance; quantum dots; quantum-dot-based sensors; surface-plasmon-resonance microfluidic sensors; dielectrophoresis-based devices; immunomagnetic-affinity-based devices; cancer biomarker-proteins; CTC detection; blood samples; microfluidic technology; platelets; leukocytes; leukocytes; erythrocytes; cancer deaths; metastasis process; circulating tumour cells; cancer cell-biomarker detection; cancer cell-biomarker manipulation; microfluidic devices
Funding
- Sensors and Devices Research Group at Tecnologico de Monterrey [0822C01007]
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Circulating tumour cells (CTCs) are active participants in the metastasis process and account for approximate to 90% of all cancer deaths. As CTCs are admixed with a very large amount of erythrocytes, leukocytes, and platelets in blood, CTCs are very rare, making their isolation, capture, and detection a major technological challenge. Microfluidic technologies have opened-up new opportunities for the screening of blood samples and the detection of CTCs or other important cancer biomarker-proteins. In this study, the authors have reviewed the most recent developments in microfluidic devices for cells/biomarkers manipulation and detection, focusing their attention on immunomagnetic-affinity-based devices, dielectrophoresis-based devices, surface-plasmon-resonance microfluidic sensors, and quantum-dots-based sensors.
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