ObjectiveTo investigate the changes of peritoneal macrophages function of mice with gastric cancer in the CO2 pneumoperitoneum environment, as well as its effect on the peritoneal metastasis of gastric cancer. MethodsAn orthotopic implantation model of mouse forestomach cancer was established using the 615 mouse. The mice bearing tumors were randomly divided into five groups (n=30): anesthesia alone, laparotomy, and 2, 4, and 6 mm Hg CO2 insufflation groups. Peritoneal macrophages were collected from six mice in each group and cultured. The macrophage phagocytic function on neutral red and the levels of NO and TNF-α produced by macrophages were measured after 12, 24, 48, and 72 h of culture. The remaining mice were observed after two weeks for the rate of peritoneal metastasis of forestomach cancer cells and the total weight of implanted nodules. ResultsNo death and ascites were found and the difference of weight body was not significant in all mice (Pgt;0.05). The uptake of neutral red by peritoneal macrophages and the levels of NO and TNF-α secreted by peritoneal macrophages in the laparotomy group after 12 h of culture were all significantly higher than those in other four groups (Plt;0.05). The corresponding values in the 2, 4, and 6 mm Hg CO2 insufflation groups after 12 h were all significantly lower than those in the anesthesia alone group (Plt;0.05). Among three insufflation groups, the corresponding values in the 2 mm Hg after 12 h were significantly higher than those in the 4 and 6 mm Hg CO2 insufflation group, though the difference in the two latter was not significant (Pgt;0.05). The uptake of neutral red by peritoneal macrophages and the levels of NO and TNF-α secreted by peritoneal macrophages in the 6 mm Hg CO2 insufflation group after 24 h of culture were all significantly lower than those in other four groups (Plt;0.05), while the difference in the four groups was not significant (Pgt;0.05). The uptake of neutral red by peritoneal macrophages and the levels of NO and TNF-α secreted by peritoneal macrophages after 48 h and 72 h were not significantly different in the five groups (Pgt;0.05). The rate of peritoneal metastasis of mice was significantly lower in the 6 mm Hg insufflation CO2 group (75.0%, 15/20) than that in the anesthesia alone group (100%, 24/24), Plt;0.05, but higher than other three groups(Plt;0.05), which was not different in 2 mm Hg (47.8%, 11/23), 4 mm Hg insufflation group (45.45%, 10/22) and laparotomy group (50.0%, 10/20), Pgt;0.05. The total weight of implanted nodules of mouse forestomach cancer was (1.24±0.48) g, (1.02±0.38) g, (0.96±0.33) g, (0.93±0.45) g, and (1.18±0.37) g in the anesthesia alone group, the laparotomy group, and 2, 4, and 6 mm Hg CO2 insufflation group, and the difference was not significant (Pgt;0.05). ConclusionHigh pressure (6 mm Hg) CO2 pneumoperitoneum can constantly inhibit the phagocytosis and cytokine secretion functions of peritoneal macrophages in gastric cancer-bearing mice and promote peritoneal implantation of gastric cancer.
Objective To investigate the value of laparoscopy in resetting and repairing of inguinal incarcerated hernia. Methods Clinical data of 11 patients with acute inguinal incarcerated hernia treated with laparoscopy from March 2007 to February 2008 were reviewed, including 3 cases of direct inguinal hernia and 8 cases of oblique inguinal hernia. Results There were 7 patients with incarcerated hernia who were reset automatically after general anaesthesia, and 4 patients who were reset with laparoscopy. All the hernias were repaired with the transabdominal preperitoneal (TAPP) method after observed or improved the blood cycle of the incarcerated intestinal tract under laparoscopy. Average follow-up time was 6.6 months (2-12 months) after operation. Good recover and no recurrence were showed in all patients. Conclusion Laparoscopy is a safe technology in resetting and repairing of inguinal incarcerated hernia
ObjectiveTo explore the efficacy of da Vinci robotic surgical system-assisted radical resection of rectal cancer. MethodsThe clinical data of 456 patients who received radical resection of rectal cancer by the da Vinci robotic surgical system at the Southwest Hospital from March 2010 to March 2016 were retrospectively analyzed. Operative time, operative blood loss, number of harvested lymph nodes, hospital stay, and morbidity were evaluated. Resultsda Vinci robotic surgical system-assisted radical resection of rectal cancer were successfully carried out in 445 patients, and other 11 patients were converted to open surgery (2.4%). Of 456 patients, 322 patients underwent anterior resection of rectum procedure (70.6%), 126 patients underwent abdominoperineal excision procedure (27.6%), 8 patients underwent Hartmann procedure (1.8%). The mean operative time was (192±60) min, the mean operative blood loss was (110±93) mL, the mean number of harvested lymph nodes were 19±6, the mean length between distal resection margin and tumor were (3.5±1.8) cm, the mean time for patients taking normal activity was (2.9±1.5) d, the mean time of passage of the first flatus was (2.7±1.7) d, the mean hospital stay was (7.1±1.6) d. Surgical complications occurred in 40 patients (8.8%), and all the patients were recovery before leaving hospital. The mean follow-up time was 29.1-month (3-75 months). There were 70 patients suffered from occurrence or metastasis (16.2%), and 60 patients died (13.9%). Conclusionda Vinci robotic surgical system-assisted radical resection for rectal cancer is a feasible and safe surgical procedure with the minimal trauma, fast recovery, and satisfactory clinical efficacy.