Ⅰ、The role of SCNN1B in stemloid of colorectal cancer Colorectal cancer (CRC), also known as colon cancer, is the third most common cancer in Taiwan. Its prognosis is poor because of high rates of recurrence and metastasis. Cancer stem cells (CSCs) are few percentages of cells in a tumor which have characteristic of stem cell. These cells are related to tumor initiation, metastasis, drug resistance, and relapse. Some biomarkers of CSCs have been found, such as CD133 and CD44. However, these biomarkers are still controversial. To identify more representative genes in regulation of colorectal cancer stem cells (CRCSCs), we performed microarray analysis and identify SCNN1B that expresses higher in tumor spheres than in adherent cancer cells derived from patients’ fresh specimens . We also observed the same phenomenon in CRC cell lines, HCT116 and DLD-1, and the tumorspheres derived from these cells for three passages. By studying the effects of SCNN1B on CRCSCs, we may identify a biomarker that serves as a new target in cancer therapy. Ⅱ、Establishment of Cellular Live-Imaging Model for drug Absorption Oral administration is the most common method in taking clinical medicine. It is also the safest, most convenient, and economical way. By oral administration, drug is absorbed by digestive system and enter circulatory system. In the study of drug absorption, it is important to evaluate the relationship of these oral drug formulations and the efficiency of absorption. The level of drug absorption in the epithelial cells and the ability of penetration through the endothelial cell are two important factors that determine the final effects of a drug. Until now, there are many methods to evaluate the drug absorption levels in vitro and in vivo. However, majority of these assays were established on indirect chemical analysis assays or physical wavelength absorbance assay. Therefore, we established a cellular live-imaging model to observe the process of drug absorption and penetration in live cells using real-time microscopy. By measuring the intensity of bio-fluorescence of the drug or a labeled micelle, we can determine the efficiency of the cellular absorption of a specific drug or a formula. Here we successfully observed the curcumin absorption by colon cancer cells Caco-2 in half hour after treatment. Furthermore, the curcumin with high-speed homogenized-emulsion showed the better cellular absorption compared to the lipid-wrapped one.