Objective To summarize the relationship between microRNA and the occurrence and progression of colorectal cancer, and to investigate the application value of microRNA in the diagnosis, treatment, and prognosis evaluation of colorectal cancer. Methods Domestic and international publications involving the relationship between microRNA and colorectal cancer were retrieved and reviewed. Results MicroRNA acted as an oncogene or tumor suppressor gene to participate in cell proliferation, differentiation, apoptosis, metabolism, tumor genesis, and tumor progression. The abnormal expression of microRNA was closely related to the occurrence and progression of colorectal cancer. As specific biomarker, microRNA could be applied in early diagnosis, chemotherapy strategy-making, and prognostic evaluation of colorectal cancer. Conclusion MicroRNA is definitely related to the occurrence and progression of colorectal cancer, and it has great prospect in the basic research and clinical applications of colorectal cancer.
ObjectiveTo quantitate expression of miR21 in rectal cancer of different tumor stages and discuss their significances. MethodThe expression of miR21 was detected and quantitated in the rectal cancer tissues and corresponding adjacent normal tissues of 40 patients with rectal cancer in this hospital from August 2012 to October 2012 by Taq Man microRNA assay. ResultsThe significant overexpression of miR21 was observed in the rectal cancer tissues (4.122±1.973 versus 1.825±0.661, P=0.000)as compared with the corresponding adjacent normal tissues. The expressions of miR21 in the rectal cancer tissues of N1-N2 and Dukes C-D stages were significantly higher than those in the rectal cancer tissues of N0(4.852±2.344 versus 3.391±1.171, P=0.019)and Dukes A-B stage(4.787±2.304 versus 3.386±1.203, P=0.021). From N0 to N2 stage, the expression of miR21 increased progressively in the rectal cancer, and the expression in the rectal cancer tissues of N2 stage was significantly higher than that in the N0 stage(5.556±1.500 versus 3.391±1.171, P=0.010). And receiver operating characteristics curve analysis showed that miR21 could discriminate N 0 stage from N1-N2 stage with a 0.698 area under curve(AUC), 50.0% sensitivity and 90.0% specificity, Dukes C-D stage from A-B stage with a 0.689 AUC, 42.9% sensitivity and 94.7% specificity. ConclusionmiR21 appears to have a potential correlation with N and Dukes stages of rectal cancer, which cautiously and optimistically suggests that it could be a potential novel biomarker for predicting tumor stage preoperatively.
Against the backdrop of medical digital transformation, West China Hospital of Sichuan University has conducted a 30-year exploration and practice of colorectal cancer data engineering. This study focuses on the integration of special disease digitization and value-based healthcare, achieving standardized management and in-depth mining of colorectal cancer diagnosis and treatment data through constructing a full-life cycle data governance system, multi-center data platform, and intelligent application scenarios (such as clinical decision support systems). The practical results show that this data engineering has formed a specialized disease database containing more than 9 500 cases of structured data, and promoted the collaborative development of the entire chain of “production–study–research–business–government”, providing a learnable digital paradigm for improving diagnostic and treatment accuracy and optimizing medical resource allocation. The study indicates that special disease digitization is a key path to achieving value-based healthcare, and its experience in data standardization and medical-engineering cross-innovation is of reference significance for other disease fields.