Efficient Capture and Simple Quantification of Circulating Tumor Cells Using Quantum Dots and Magnetic Beads

Circulating tumor cells (CTCs) are valuable biomarkers for monitoring the status of cancer patients and drug efficacy. However, the number of CTCs in the blood is extremely low, and the isolation and detection of CTCs with high efficiency and sensitivity remain a challenge. Here, we present an approach to the efficient capturing and simple quantification of CTCs using quantum dots and magnetic beads. Anti‐EpCAM antibody‐conjugated quantum dots are used for the targeting and quantification of CTCs, and quantum‐dot‐attached CTCs are isolated using anti‐IgG‐modified magnetic beads. Our approach is shown to result in a capture efficiency of about 70%–80%, enabling the simple quantification of captured CTCs based on the fluorescence intensity of the quantum dots. The present method can be used effectively in the capturing and simple quantification of CTCs with high efficiency for cancer diagnosis and monitoring. The use of anti‐EpCAM‐QDs and anti‐IgG‐MBs enables efficient capture and simple quantification of circulating tumor cells (CTCs). Anti‐EpCAM‐QDs target the CTCs, followed by their isolation using anti‐IgG‐MBs. The number of captured CTCs can be readily quantified by measuring the fluorescence intensity.