This study aimed to evaluate the feasibility and effectiveness of closing the small bowel in an ex vivo porcine model with high-frequency welding device. A total of 100 porcine small bowels were divided into two groups, and then were closed with two different methods. The fifty small bowels in experimental group were closed by the high-frequency welding device, and the other fifty small bowels in comparison group were hand-sutured. All the small bowels were subjected to leak pressure testing later on. The speed of closure and bursting pressure were compared. The 50 porcine small bowels closed by the high-frequency welding device showed a success rate of 100%. Compared with the hand-sutured group, the bursting pressures of the former were significantly lower (P<0.01) and the closing process was significantly shorter (P<0.01). The pathological changes of the closed ends mainly presented as acute thermal and pressure induced injury. Experimental results show that the high-frequency welding device has higher feasibility in closing the small bowel.
This study aimed to verify whether the open-ended coaxial line tumor sensor with radio frequency was effective or not in detecting the differences in permittivity and conductivity between the breast malignant tissues and adjacent tissues. Sixteen breast infiltrating ductal carcinoma samples were freshly obtained from the department of general surgery in Zhujiang Hospital. The permittivity and conductivity of cancerous nidus points of breast samples, 3 cm adjacent tissue points and 5 cm adjacent tissue points were detected respectively by the open-ended coaxial line tumor sensor with radio frequency noninvasively in conjunction with vector network analyzer at the frequency ranging from 42.85~500 MHz. All the detected points were marked. After finishing the detection, we conducted postoperative pathological examinations on all the marked points. According to the statistics, there were statistically significant differences between the breast cancerous tissues and the 3 cm adjacent tissues for the dielectric properties (P < 0.01). There were statistically significant differences between the breast cancerous tissues and the 5 cm adjacent tissues for the dielectric properties (P < 0.01). There was no statistically significant difference in the dielectric properties between the 3 cm adjacent tissues and 5 cm adjacent tissues (P > 0.05). Both the 3 cm adjacent tissues and 5 cm adjacent tissues were found no breast cancer cell infiltration. The results indicated that the open-ended coaxial line tumor sensor at radio frequency could be effective in detecting the differences in permittivity and conductivity between breast cancerous tissues and adjacent tissues and, therefore, it may have a potential prospect in making a final diagnosis to confirm whether the detected breast tissue is malignant or not.