This review aims to enable a rapid diagnosis of early-stage cancer by examining the developments and methods used to collectspecific cancer biomarkers, namely, exosomes and circulating tumor cells (CTCs), using microfluidic devices. High throughput,low response time, and accurate control of liquid flow are advantages of microfluidic devices compared to traditional technologies,which often suffer from disadvantages of high cost, time-consuming procedures, and labor-intensive processes. Microfluidic-basedapproaches have the potential to improve early cancer detection and personalized treatment strategies by efficiently collectingand isolating CTCs and extracellular vesicles (EVs), which provide critical information about cancer progression and the responseto treatment. An important step toward leveraging these advances and bringing them to clinical use is ensuring portability tothe patient’s bedside, that is, integrating point-of-care (POC) diagnostics with microfluidic technologies. In this article, we firstprovide a background on cancer and its markers, cancer biology, and liquid biopsies and their benefits in microfluidic systemsin diagnosis. Next, we discuss the importance of the basics of microfluidics, techniques based on it in the detection of EVs andCTCs in advancing cancer research and their benefits, as well as integrating systems POC with microfluidic platforms for bedsideapplications.
