In 14 dogs, the defect of the abdominal aorta was replaced by 5 to 8.5cm autogen ous peritoneal tube wich was composed of the peritoneum with the posterior sheath of the rectus muscle. The biophysical properties of the peritoneal tube was studied before and after replacement, and it showed that: (1) there was no significant difference between the arterial pressure of grafts and mormal abdominal aorts; (2) the tension strenghth was more than abdominal aorta; (3) the rate of patercy was 100 per cent. Therfore, the autogenous peritoneal tube might serve as a new type of material for replacement of vessels.
Objective To explore improvement of orthotopic liver transplantation model in rhesus monkey. Methods Healthy rhesus monkeys were chosen to perform orthotopic liver transplantation for 10 cases. The model was established by drawing on a variety of animal model methods, and the portal vein cuff method was used to establish stable model of orthotopic liver transplantation in rhesus monkeys. Results Ten orthotopic liver transplantation models in rhesus were performed, and the achievement ratio of operation was 10/10. The time of donor hepatectomy and donor preparation was (20±5) min and (30±7) min, respectively. The operation time of recipient and anhepatic phase were (180±35) min and (17±4) min, respectively. After 24 h of operation 9 cases survived, one case died of intra-abdominal hemorrhage after 9 h of operation. After 72 h of operation 8 cases survived, and one case died of upper gastrointestinal bleeding after 38 h of operation. After one week of operation 5 cases survived, and 3 cases died of rejection after 9, 11, and 11 d of operation, respectively. The longest survival time was 32 d, but all of them also died of rejection. No portal vein thrombosis and biliary complications were found in all recipients.Conclusion The improved rhesus monkey model of orthotopic liver transplantation is easy to perform with high achievement ratio of operation. It is an ideal animal model for pre-clinical studies of liver transplantation.
In order to study the biomechanical effect of cyclic loads on revascularization in bone healing, 20 rabbits were chosen for following experiments. Two 2 mm in diameter holes were made at the middle segment of both right and left tibia. A 2 mm in diameter nail was put in 15 mm proximal to the upper hole, and another was put in 15 mm distal to the lower hole. The wound was covered by direct suture with the ends of the nails kept 15 mm out of skin. The medial ends of the two nails were fixed by an iron plate, while the lateral ends were left for cyclic loads. Three Hz cyclic loads, which was near to the cyclic forces when a rabbit runs, was added to the left tibia for experiment, and no loads was add to the right tibia for control. A group of five rabbits were sacrificed respectively in 5, 10, 20 and 30 days postoperatively. The solution of 2% India ink and gelatin was irrigated from aorta to the bone defects. Then the tibia was removed for histologic study. The changes of cells and microvessel were observed. It was shown that the revascularization in experiment group was about 7 days earlier than that of control. The effect was at its peak from 10 to 30 days. It was concluded that cyclic loads could promote revascularization in the healing process of bone defect.
ObjectiveTo investigate the safety and effectiveness of vascular reconstruction in patients with symptomatic tortuosity common carotid artery (SCAT).
MethodsA retrospective analysis was made on the clinical data of 12 cases of SCAT treated with vascular reconstruction between June 2010 and October 2013. There were 11 females and 1 male with the mean age of 54.8 years (range, 48-62 years). The unilateral common carotid artery was involved in all cases. Imaging examination showed C-shaped tortuosity of 4-8 cm in length (mean, 5.4 cm). The CT, brain CT, ultrasound examinations, or angiography was performed at 1, 3, 6, 9, and 12 months, and annually.
ResultsThe surgery success rate was 100% with no perioperative death and serious complications. The mean operation time was 1.98 hours; the mean blood loss was 50 mL; and the mean clamping time was 14.9 minutes. The systolic pressure gradient across the lesion was significantly decreased from (39.58±9.54) mm Hg (1 mm Hg=0.133 kPa) at pre-operation to (5.50±2.39) mm Hg at immediate after operation (t=15.492, P=0.000). No recurrence or stenosis was found at 9 months to 3 years of follow-up. The systolic and diastolic pressures at last follow-up were significantly improved to (132.17±6.24) mm Hg and (82.67±6.51) mm Hg from (152.83±14.80) mm Hg and (94.17±11.30) mm Hg at pre-operation (t=5.751, P=0.000; t=4.976, P=0.000).
ConclusionVascular reconstruction in SCAT is recommended for good short- and mid-term effectiveness and relatively low complication and mortality after operation. Moreover, the long-term results still need to be investigated.
Objective To review various kinds of therapeutic methods for restenosis after reconstructive vascular operation. Methods The literatures about prevention and treatment for restenosis after reconstructive vascular operation were reviewed. Results Therapeutic methods for vascular restenosis include gene therapy, drug treatment, placing external stent around the vein graft and physical therapy. The methods of gene therapy include transferring genes that inhibit the proliferation of vascular smooth muscle cell (VSMC) and inactivating genes that promote the proliferation of VSMC through technology of antisensenucleic acids or RNA interference. Conclusion Current treatment for restenosis after reconstructive varscular operation have both advantages and disadvantages, some of which are still being disputed. With the development of the technology of molecular biology, gene therapy would be the most effective therapy method for vascular restenosis.
ObjectiveTo investigate the advantage of superior mesenteric artery approach in laparoscopic pancreaticoduodenectomy (LPD) combined with superior mesenteric vein (SMV)-portal vein (PV) resection and reconstruction. MethodThe operation process of a pancreatic head cancer patient with SMV-PV invasion admitted to the Second Affiliated Hospital of Chongqing Medical University in April 2022 was summarized. ResultsThe resection and reconstruction of SMV-PV during the LPD through the right posterior approach and anterior approach of superior mesenteric artery was completed successfully. The operation time was 7.5 h, the intraoperative blood loss was 200 mL, and the SMV-PV resection and reconstruction time was 20 min. The patient was discharged with a better health condition on the 9th day after operation. ConclusionFrom the operation process of this patient, the arterial priority approache is a safe and effective approach in the resection and reconstruction of SMV-PV during the LPD.
Objective To summarize the experience of l iving donor l iver transplantation using cryopreserved il iac vein for middle hepatic vein reconstruction. Methods Between July 2006 and June 2009, right l iver transplantation without middle hepatic vein was performed in 37 cases of 85 patients undergoing l iving donor l iver transplantation; of 37 cases, 30 received middle hepatic vein reconstruction using cryopreserved il iac vein. There were 27 males and 3 females, aged from 10 to 57 years (median, 44 years). Thirty cases included 11 hepatocellular carcinoma, 10 hepatic cirrhosis, 2 Wilson’ sdisease, 1 cholangiocarcinoma, 1 hepatoblastoma, 1 congenital hepatic fibrosis, 1 chronic severe hepatitis, and 1 congenital bil iary atresia. Il iac veins harvested from donors were put into 0-4℃ mixed antibiotics sal ine and transported to the operating room. The il iac veins were trimmed, placed into sterile bags (containing RMPI 1640 + 20% DMSO + 10% calf protein solution) and frozen at —70 . In l iving donor l iver transplantation process, the veins were melt and used for middle hepatic vein reconstruction. After operation, the patency of veins was monitored by regular Doppler ultrasound examination or enhanced CT for 3 months. Results In 30 patients, 30 il iac veins were used. The average cryopreserve time was 14 days (range, 3-44 days). Anastomosis were all successful; after cryopreservation, the blood vessels texture and elasticity were fit for surgery. No easily tearing or severe suture bleeding was observed. In 30 patients, 6 had segment V veins reconstruction; 3 had segment VIII; and 21 had both segments V and VIII. The patency rate of reconstructed vessels was 93% at 1 week, 90% at 2 weeks, 90% at 1 month, and 67% at 3 months. No serious compl ication was observed in donors. The prognosis was good with no small-for-size syndrome. Conclusion Cryopreserved il iac vein is an ideal material for the right hepatic l iving donor l iver transplantation in the reconstruction of middle hepatic vein.
