For metastasis of tumor cell invade into the circulatory system, it have to do with tumor-cell of detachment and attachment. This work presents the first part of a new framework for preventing the tumor-cell of carcinoma in situ transition from one organ to others. Using an ECIS (electric cell-substrate impedance sensing) chip coated with glutaraldehyde (GA)-crosslinked gelatin patterns suitable for cell attachment, the author monitor the cell adhesion situation not only by optical microscope but also by electrical means. This cell-culture experiment with 1-hour time resolution so far demonstrates that the attachment moment for HepG2 on gelatin surface is no longer than 4 hours after the cell dosing and these tumor cells cannot stay on GA-crosslinked gelatin surface for more than 7 hours. The second part of experiment is dynamic. The author design an experiment and a microfluidic chip for investigating the relationship between the metastasis and the surface morphology of blood vessels. Using RIE (reactive ion etch) to change the inner wall morphology of PDMS. To different inner wall of PDMS roughness, the ability of cell adhesion is different. When tumor-cell through the microchannel, it may pass or get stuck. It’s mean that capillary may plugged by tumor-cell, or still smooth. Finally, to explore the adhesion of tumor-cell and blocking when tumor-cell into the liver through the hepatic portal vein. It can assist in the prevention and treatment of cancer, such as diet, drug, gene therapy research.