Objective: To improve the chemo therapeutic effect through bronchial artery perfusion. Method: The angiographies of the bronchial arteries in 54 cases and pulmonary arteries in 10 cases of patients with advanced lung cancers were analized. Results showed: The bronchial arteries were divided into four subtype blood supply from intercostal artery, 30 cases; from bronchial artery 20 cases; from left and right bronchial arteries, 2 cases; from single intercostal artelry 2 cases. The blood vessels of pulmonary carcinomas were divided into three types: rich blood suppety 50. 2% (28 cases), poor blood supply 49.8% (26 cases) and from pulmonary artery else. Conclusion: The dual chemotherapeution pesfusion method by bronchial and pulmonary arterial approach should be considered as the proper procedure in treating advanced lung cancer of various kinds of different tissues.

Renal arterial infusion chemotherapy aided through NT-CRE has been performed in six patients with renal neoplasm. Embolization was followed by nephrectomy within 3-5 days in four cases. The rumor kindeys were easy to be resected and separated from perinephic tissue. Furthermore, the operative this procedure reduced bleeding and increased the killing of cancer cells so as to diminish the spreading, planting and treatment on renal neoplasm to the double treatment of ischemia and chemotherapy, thus improving the life quality and prolonging the patients' life. The embolization principle and its clinical significance were discussed in the essay.

Membrane creates the functions of protection, supporting, dispersion and separation. More functions can be designed by modifying membrane surface and grafting/loading selective ligands or catalysts on the membrane, thus membrane technology has been widely applied in biological detection, and its application approaches becomes diverse. Rational design of functional membranes can meet the demands in different steps of biological detection process, including sample pretreatment, preparation, response and sensing. This review summarized the functionalization methods of filtration membranes, applications of membrane technology in sample preparation and detection process, as well as the research on the integration of functional membranes. By revisiting the research progress on functional membrane design, preparation and applications for biological detection, it is expected to take better advantage of membrane materials structure and performance for constructing efficient and stable detection platform, which is more "adapted" to the detection environment.
Membranes, Artificial