Cancer management can be better served by suitable biomarkers ranging from diagnosis and monitoring of therapeutic progress. Over the past few years, clinical relevance of exosomes as a marker during tumor progression and early disease detection has been validated. However, the enrichment of exosomes remains technically challenging, where purity, reproducibility and automation are highly desirable. In this thesis, a centrifugal microfluidic platform was presented to enrich exosomes directly from blood. The platform contains a microfluidic disk and a mechanism to collect plasma into an Eppendorf tube. A range of parameters of immunomagnetic beads to plasma ratio and system performance could be obtained from 100 to 600 μl of human whole blood. Western blotting was used for protein quantification. Besides, the performance of exosome enrichment was compared with that from ultracentrifugation and a commercial exosome isolation kit. Results showed that the microfluidic device successfully enriches exosomes from three breast cancer patients directly from whole blood. Averaged 98.3% red blood cells from whole blood was depleted in the plasma separation process. Taken together, our microfluidic platform provides a simple-to-use and robust approach to enrich specific exosomes by recognizing the exosomal surface markers. Moreover, the automated system reduces variation in operator biases and may serve as a standard device for clinical uses.