Objective To investigate an improved large vascular reconstruction method in the canine liver transplantation and see whether it can shorten the anheptic time and thus reduce the harmful effects during the anhepatic phase. Methods Thirty-two mongrel dogs were enrolled and divided into two groups randomly:the donor group (n=16) and the acceptorgroup(n=16). The dogs in the acceptor group were divided into two groups, according to the different reconstruction methods: Group A using the magnetic rings for a large vein reconstruction in the canine liver transplantation (n=10), and Group B using a handsewing large vein reconstruction in the canine liver transplantation (n=6). The operation time, hemodymics change, anastomosis site, and survival were observed. Results The operation time was as follows: In Group A, the total operation time, the inferior vena cava anastomosistime, and the anheptic phase time were significantly shorter than those in Group B (3.24±0.49 h vs 4.12±0.51 h,5.89±2.27 min vs 28.33±6.04 min,3.89±0.73 min vs 12.16±3.72 min),with a significant difference between the two groups (Plt;0.01). The haemodymics changes were as follows: In Group A, MAP dropped during the anhepatic phase, but it soon recovered after reperfusion,and there was only 730.56±150.56 ml of fluid including the donor blood that needed to be transfused, with no pressor agent required. In Group B, blood pressure dropped during the anhepatic phase,but it slowly recovered,and there was 2241.67±390.78 ml of fluid. In Group A, all the stomas had no errhysis, twistor thrombus. The twisted stomas could be corrected by the revolving of the magnetic rings. The endangium at the site of anastomosis was smooth. In Group B, most of the stomas had errthysis. In Group A, 3 dogs survived for more than 7 days, 6dogs survived for 3-6 days, and 1 dog survived for only 12 hours. In Group B, 2 dogs survived for 3-6 days, 3 dogs survived for 1-2 days, and 1 dog survivedfor only 12 hours. Conclusion Using the magnetic rings for a large vascular reconstruction in the canine liver transplantation is an improvedmethod, which can simplify the anastomosis procedures and significantly shortenthe anheptic phase time. However, the magnetic rings have to be placed in the abdomen, so this method remains to be further improved.
To find the relation between the damage of gastric remnant mucosal barrier and the precancerous lesion of gastric remnant mucosa, in the process of the canine gastric remnant precarcinogenesis induced by N-methyN’-nitro-N-nitrosoguanidine (MNNG), we performed regularly the esophagogastroscopy and the mucosal biopsy.At the same time, we also measured gastric transmucosal potential difference and intracellular DNA content of remnant mucosa.We found that the more severe the damage of gastric remnant mucosal barrier was , the greater the malignant capacity of gastric remnant mucosal was.Our study suggests that the damage of gastric remnant mucosal barrier plays an important role in the gastric remnant mucosal precarcinogenesis.
Objective o study the feasibility of homologous vascularized nerve transplantation after ultra deep cryopreservation. Methods Vascularized sciatic nerve from 12 female dogs was transplanted after ultra deep cryopreservation. Fortyeight male dogs were divided into 4 groups: ultra deep cryopreservation homologous vascularized nerve (group A), ultra deep cryopreservation homologous nerve (group B), fresh homologous vascularized nerve (group C), and fresh autologous vascularized nerve (group D). The gross appearance, patency rate of arteryand morphological transplanted nerve were observed 1, 4 and 12 weeks after transplantation respectively. Immunological analysis was performed using IL 2 assay and T lymphocyte subpopulations assay after 4 weeks. Image pattern analysis andelectromyogram were observed after 12 weeks. Results In groups A and D, no toe ulcer occurred, the atrophy of later limb and the sense of pain from skin of calf were restore significantly in the postoperative 12th week. In groups B and C, toe ulcer occurred, the atrophy of later limb and the sense of pain from skin of calf were not restored significantly in the postoperative 12thweek. The vessel patency rate of groups A and D was 83.3%, which was significantly higher than that of group C (50%,Plt;0.05). The changes of IL2 and Th, Ts in group C were significantly higher than that in groups A,B,D(Plt;0.01). There were increased vessel and regenerated nerve in transplanted nerve under optical microscope and image pattern analysis in groups A and D. There were shorter latent period of motor evoked potential, greater amplitude of action potenlial and faster motor nerve conducting velocity in groups A and D after 12 weeks. Conclusion The antigenicity of the homologous never and vessel may be reduced significantly by being frozen, and cryopreserved vascularized nerve can transferred successfully without the use of immunosuppressive agents. Vascularized nerve may restore good significantly for the thick nerve.
Objective-To apply self-pulmonary tissue flap to reconstruct esophagus directly or with alloy stent in this research. Methods Twenty-four dogs were divided into two groups, middle bronchus was ligated to prepare pulmonaryflap and incised, a 4 to 6 cm long and 1/2 to 2/3 perimeter defect was made in esophageal wall. Esophagus defect was repaired only with pulmonary flap (experimental group) and with pulmonary flap having self-expanded stent inside (control group). The gross appearance, histological apearance and barium X-ray films were observed at 2,4,6,8,10 and 12 weeks after operation. Results Two dogs died of anatomotic leak in experimental group, three dogs died of anatomotic leak and two dogs died of perforation of ulcer in control group. The growth of esophagus epithelium was observed from periphery area to central area after 8 to 10 weeks of operation. In pulmonary flap mass fibrous tissue proliferated and fibroblasts were active, but no necrosis occurred. Barium X-ray ofregenerated esophagus showed that mild stenosis and weakened peristalisis were observed in the middle of resophagus replacement, and that no obstruction, leakage, and dilation above anastomotic stoma occurred. Conclusion Pulmonary tissue flap can well support the mucosa crawl in the defect of esophagus. It is necessary to find a more suitable and satisfied stent for repairing segmental defect.
To evaluate the implantation effect of artificial vascular grafts with recombinant fibrinolytic enzyme factor II (rF II)-immobil ized lumina in animal test. Methods Four mm internal diameter (ID) polyurethane (PU) artificial vascular grafts were prepared by di pping and leaching method. The micro-pore size and morphology of the graft walls were observed by SEM. The graft lumina were immobil ized with rF II. Twenty hybrid male dogs [weighing (20 ± 1) kg] were used for animal model of carotid artery defect and were randomly divided into 3 groups: rF II -immobil ized PU group, no rF II -immobil ized PU group and expanded polytetrafluoroethylene (ePTFE) group. The vascular grafts were implanted for repairing injured segments of carotid artery in dogs. The general health state of animals was recorded. At 30 days and 60 days,the patency rate of every group was calculated. At 60 days IDs were measured, cell prol iferation in neointima was inspected by l ight microscope, morphology on neointima was observed by SEM. Results The ID of the PU vascular grafts was (3.74 ± 0.06) mm, wall thickness was 0.4-0.6 mm, the wall density was 0.25 g/cm3, the porosity was 79.8%, racical compl iance was 8.57%/100 mmHg. In the wall, micropores were well distributed and opened-pores structure was observed. Pore size was (140 ± 41) μm in the outside layer, pore size was (100 ± 3) μm in the inside layer, thickness ratio of outside / inside layers was 2 ∶ 1, the pore size was (40 ± 16) μm on the lumina surface. After operation the wounds on neck healed, all the animals survived and had no compl ication. At 30 days and 60 days after implantation, the patency rate for rF II -immobil ized PU group were 100% and 66.7%, for no rF II -immobil ized PU group were 66.7% and 33.3%, and for ePTFE group were 67.7% and 0 respectively, but at 60 days there were thrombosis at anastamotic sites of some grafts occluded. Before operation the IDs for rF II-immobil ized PU group, no rF II -immobil ized PU group and ePTFE group were (3.74 ± 0.06), (3.74 ± 0.06) and (4.00 ± 0.03) mm, at 60 days after operation the IDs were (4.51 ± 0.05), (4.31 ± 0.24) and (4.43 ± 0.12) mm respectively, showing no statistically significant differences between 3 groups (P gt; 0.05). Histological inspection indicated that at 15 days a layer of plasma protein deposited on the lumina, at 30 days some cells adhered to the lumina, at 60 days neointima could be observed on the lumina. Thickness of the neointima became larger with implantation time. At 60 days neointima thickness at proximal end, middle site and distal end ofgraft were (560 ± 22), (78 ± 5) and (323 ± 31) μm respectively for rF II -immobil ized PU group. The results of SEM showed that neointima surface consisted of flat and long cells which long axes ranged with blood flow direction and was similar to lumina morphology of carotid artery of dog. Conclusion Immobil ization of rF II to lumina of grafts could enhance fibrinolytic activity and inhibited formation of thrombo-embol ia which led to an increase in patency rate after implantation.
In order to study rheologic property of bile flow between gallbladder and biliary duct during biliary obstruction,we made a model of complete biliary obstruction(CBO)in dogs.The results showed that:①The behavior of bile flow between gallbladder and biliary duct in noemal dogs belonged to Casson flow;②When the duration of CBO prolonged,the behavior of bile flow between gallbladder and biliary tract in the CBO dogs still belonged to Casson flow.The changes of yield stress and apparent viscosity at high or low shear rate in bile flow of the biliary duct were similar to that in bile flow of the gallbladder.
Objective To discuss the way of animal model building of hepaticocholedochostomy(HC) and hepaticojejunostomy(HJ) and to compare the short-term effect. Metheds Twenty-nine dogs were divided randomly into control group(n=5) and the experimental group (stenosis of left hepatic duct, n=24). After 7 weeksof stenosis of left hepatic duct,24 dogs in the experimental group were divided randomly into HC subgroup (n=12) and HJ subgroup (n=12) .The operation time and the blood loss during operation were recorded and the hepatic function was detected.Results The diameter of left hepatic duct was significantly expended after 7 week’s stenosis. Hepaticocholedochostomy took shorter time and lost less blood than hepaticojejunostomy. The dogs in HC subgroup lost less weight than thosein HJ subgroup. In HC and HJ subgroups, the mortality rates were 1/12 and 3/12;the infectious rates of incision were 3/12and 5/12 respectively. Serum levels of total bilirubin and transaminase increased significantly in the 7th week after stenosis of left hepatic duct compared with before stenosis of left hepatic duct. However, Serum levels of total bilirubin and transaminase restored to normallevels after 1 month of HC or HJ.Conclusion It is feasible to establish animal model of bile duct reconstruction on the basis of stricture of bile duct. The dogs undergoing hepaticocholedochostomy have less trauma, better results than the dogs undergoing hepaticojejunostomy. Both hepaticocholedochostomy and hepaticojejunostomy are able to relieve the obstruction of bile duct.
【Abstract】 Objective To explore an effective method to cultivate esophageal mucosa epithel ial cells (EMECs)of canine in vitro, and to observe the biological characteristics of EMECs growing on SIS in order to provide an experimental basis for esophagus tissue engineering. Methods Esophageal tissues were obtained from five healthy dogs aged 2 to 5 weeks under sterile conditions. The primary EMECs were cultivated with defined keratinocyte serum free medium (DKSFM) containing 6% FBS. The morphological characteristics and the growth curve of EMECs of the 2nd generation were observed for 1 to 5 days. The expressions of the EMECs marker (cytokeratin 19, CK-19) were examined by immunocytochemistry. The 2nd generation of EMECs was seeded on SIS and observed by HE staining, immunohistochemical staining, and SEM for 4 and 8 days. Results The primary culture of canine EMECs arranged l ike slabstone. Immunohistochemical staining of CK-19 of the2nd generation EMECs showed positive broadly. The cells growth reached the peak level at 2 days by MTT method. E MECs werepolygon in shape and arranged l ike slabstone, and formed a single layer on the surface of SIS. The cells were contact ed closely with each other for 4 days. Eight days later, 2 to 3 layers stratified structure was formed. Lots of EMECs were grown on SIS, andshowed laminate arrangement. Conclusion With mixed enzymatic digestion, the culture of EMECs in DKSFM containing 6 %FBS is a simple and feasible method. SIS shows good biocompatibil ity and can be used as a good scaffold material in th e tissue engineered esophagus.
【Abstract】 Objective To investigate the possibil ity of BMSCs seeded into collagen Ⅰ -glycosaminoglycan (CG)matrices to form the tissue engineered cartilage through chondrocyte inducing culture. Methods Bone marrow aspirate of dogs was cultured and expanded to the 3rd passage. BMSCs were harvested and seeded into the dehydrothemal treatment (DHT)cross-l inked CG matrices at 1×106 cells per 9 mm diameter sample. The samples were divided into experimental group and control group. In the experimental group, chondrogenic differentiation was achieved by the induction media for 2 weeks. Medium was changed every other day in both experimental group and control group. The formation of cartilage was assessed by HE staining and collagen Ⅱ immunohistochemical staining. Results The examinations under the inverted phase contrast microscopeindicated the 2nd and 3nd passage BMSCs had the similar morphology. HE staining showed the BMSCs in the experimental group appeared polygon or irregular morphology in the CG matrices, while BMSCs in the control group appeared fibroblast-l ike spindle or round morphology in the CG matrices. Extracellular matrix could be found around cells in the experimental group. Two weeks after seeded, the cells grew in the CG matrices, and positive collagen Ⅱ staining appeared around the cells in the experimentalgroup. There was no positive collagen Ⅱ staining appeared in the control group. Conclusion It is demonstrated that BMSCs seeded CG matrices can be induced toward cartilage by induction media.
Objective It is a thorny problem to reconstruct long ureteral defect in urinary surgery. To investigate the feasibil ity of intestinal sero-muscular segment with autograft of bladder mucosa as a replacement material for reconstructionof long ureteral defect. Methods Twelve adult Beagle dogs (weighing 6.5-9.3 kg and being male or female) were randomlydivided into 3 groups, each group including 4 dogs. In group A, lower segment of ureter was reconstructed by autograft of bladder mucosa to the intestinal sero-muscular segment; furthermore, the proximal and distal reconstructed ureter were anastomosed to the bladder and the upper ureter, respectively. In group B, upper segment of ureter was reconstructed by the same method as that of group A, the proximal and distal reconstructed ureter anastomosised with pelvic and lower ureter, respectively. In group C, whole ureter was reconstructed by the same method as that of group A, the proximal and distal reconstructed ureter were anastomosised with pelvic and bladder, respectively. Blood urea nitrogen, Cr2+, K+, Na+, Cl-, Ca2+ and carbon dioxide combining power were detected before operation, the general state, drainage volume, heal ing of wound, and compl ications were observed after operation. At 6 weeks, the blood biochemical indexes and intravenous urography (IVU) were detected, and the gross and histological observations of ureter were done. Results In group B, urine leakeage and infection occurred in 1 dog 2 days after operation because ureter stent prolapsed; other dogs had no complications. There was no significant difference in the biochemical indexes between before operation and 6 weeks after operation. IVU showed: in group A, hydronepherosis and ureterectasia occurred on the operation side of 1 dog; in group B, anastomotic stricture between the reconstructed ureter and lower ureter and hydronepherosis occurred in 1 dog; and in other dogs of all groups, renal function was good and the reconstructed ureter had peristalsis function. The histopathological observation showed that the reconstructed ureter had similar structure to normal ureterat 6 weeks in 3 groups; the inflammatory cells infiltrating of the reconstructed ureter was observed in 1 dog of groups A and C, respectively. Conclusion Reconstruction of ureter by intestinal sero-muscular segment with autograft of bladder mucosa has similar structure and function to the normal ureter. The results might provide an experimental basis for cl inical use.