The concentration of C-reactive protein (CRP) in serum is the symptom of risk factor for cardiovascular diseases (CVD). In this research, a new bio-sensing technique was applied to detect the concentration of CRP in serum by measuring the Brownian motion of fluorescent particles whose surface has been coated with anti-CRP. When CRP antigens react with anti-CRP coated on the surface of fluorescent particles, the diameter of particles will increase and the Brownian motion velocity of particle gradually slows down. Both Total Internal Reflection Fluorescence Microscopy (TIRFM) and Micro-Particle-Tracking-Velocimetry (μ-PTV) technique are utilized to obtain the characteristics of particles’ Brownian diffusion during the reaction process. In this study, I totally measure twelve different samples with different CRP concentration, and risk region for cardiovascular disease are successfully divided into twelve regions by different Brownian velocity profiles in different concentrations of CRP. The experiment results show that the degree of variation in beads’ diameters relates to the concentration of CRP antigen in serum during the binding process. Because there are larger amount of antigen in serum with higher concentration of CRP antigen, it leads to Brownian velocity of the particles in higher antigen concentration change more rapidly than Brownian velocity of the particles in lower antigen concentration. In the future, this simple sensing technique can be used to collect a large of Brownian velocity profile data, and every profile can represent each situation of specific antigen concentration and be applied to the clinical assay of cardiovascular diseases risk factors.