Whole blood analysis is one of the most standard methods to understand or monitor one’s health conditions. To achieve a precise whole blood analysis results, it requires well-trained medical examiners, bulky instruments, and multiple sample pretreatment processes to extract blood plasma for blood analysis. To address these problems, we propose a vacuum-driven power-free microfluidic device integrated colorimetric test strip integrated for whole blood processing and analysis. The system consists of three regions: (1) the plasma separation region, (2) the detection region, and (3) the suction chamber. For plasma separation, we design a triangular trench for red blood cells (RBCs) sedimentation. Also, RBCs agglutination reagent was deposited on the trench to accelerate the erythrocyte sedimentation rate (ESR). For most clinical samples, our device can extract about 10 µL plasma from 50 μL whole blood without any sample pretreatment in 7 minutes. The RBCs removal rate is about 99.99% and no hemolysis effect is observed during the process. As for colorimetric detection, the extracted blood plasma automatically flows toward the detection region where a colorimetric-based test strip is located. In this thesis, we use two colorimetric test strips for demonstration, which are glucose colorimetric test strips for blood glucose measurement and gold nanoparticles integrated lateral flow immunoassay (LFIA) test strips for C-reactive protein (CRP) detection. All tests can be done within 20 minutes. Based on the above features, our device shows great potential to be applied in point-of-care (POC) applications.