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.
To evaluatae the role of cathepsin B in the pathogenesis of acute pancreatitis. The experimental dogs were divided into three groups based on the severity. An acute edematous pancreatitis group (n=11), an acute hemorrhagic necrotizing pancreatitis group (n=12), and a control group (n=7). Distribution of cathepsin B in pancreatic aciner cell was studied. Results: there was a redistribution of cathepsin B from the lysosomal fraction to the zymogen fraction. The results indicated that cathepsin B play a important role in the pathoagenesis of acute pancreatitis.
The purpose of the study was to observe effect of chinese medicine “Qing Yi Tang” on the repair of injury of intestinal mucosa in acute necrotizing pancreatitis (ANP). Dogs ANP model were induced by injection of 5% sodium taurocholate (0.5 ml/kg) with 3 000 u/kg trypsin into the pancreatic duct. Diamine oxidase and anylase activity in blood, protein and MDA levels of ileal mucosa were to be determined in ANP and after treatment of “Qing Yi Tang”. Intestinal permeability was also to be studied, LPS and bacteria translocation (BT) were obseved. All animals were sacrificed on day 7, the tissue of ileal mocosa was collected for histological and ultrastructural studies. The results showed that after treatment with Chinese medicine “Qing Yi Tang”, the injury of intestinal mucosa in ANP reduced. The length, height, area and protein of ileal mucosa increased significantly, intestinal permenbility decreased, the levels of LPS reduced in 1-2 times, and organ BT rate also reduce in 50%. The results indicated that chinese medicine “Qing Yi Tang” had good effect on improving repair of intestinal mucosa injury, protecting gut barrier function, reducing the incidence of LPS and bacteria translocation.
The model of acute hemorrhagic necrotizing pancreatitis (AHNP) was produced by retrograde forced injection of autogenous bile into the main pancreatic duct. The result showed that urgent surgical (transduodenal) intra-pancreatic duct drainage reduced the mortality rate of the experimental animals. Keeping the drainage patent and clear can both abate the pathological changes and promote the renovation of the dogs pancreas. So it can guide the clinical treatment in some way.
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.
Six dogs underwent high selective vagotomy and mucosal antrectomy (HSV+MA). The gross and histological change of dog’s stomach were observed at 4-6 months after operation. It was found that the reconstructed antrum healed well and there was no stasis and distension in the stomach .The appearance of the nerves in muscular layer of the antrum was normal. No serious gastritis and mucosal atrophy was observed. These results indicat that HSV+MA is a reasonable procedure for the treatment of duodenal ulcer.
In order to study the influence of biliary tract obstruction on enteromicroflora,we ligate the canine biliary tract to observe the acrobic and anerobic bacteria in the duodenum and ileum at intervals of post-ligation(the 10th,20th,30th days),and to study the pathogenesis and ultramicroscopic of the ileal mucosa at the same intervals.The results showed that:the population and species of enteroflora in small intestine gradually increased after biliary obstruction.Bacteria(especialy E.coli) ascended to the upper part of small intestine,from their normal habitant of lower part of small intestine.Therefore the radio of general aerobia and E.coli risen obviously in duodenum.The longer the obstruction,the more pathologic changes were observed in ileal mucosa.such as edema,leukocytes infiltration and destruction of epithelial villi.All of those changed may be the causative factor of biliary tract infection.So that,in the programs of preventing enterogenic infection at the state of biliary tract obstruction,the protection and adjusting of normal enteroflora should be adventently considered.
Abstract: Objective To observe the changes in morphology, structure, and ventricular function of infarct heart after bone marrow mononuclear cells (BMMNC) implantation. Methods Twenty-four dogs were divided into four groups with random number table, acute myocardial infarction (AM I) control group , AM I-BMMNC group , old myocardial infarct ion (OMI) control group and OM I-BMMNC group , 6 dogs each group. Autologous BMMNC were injected into infarct and peri-infarct myocardium fo r transplantation in AM I-BMMNC group and OM I-BMMNC group. The same volume of no-cells phosphate buffered solution (PBS) was injected into the myocardium in AM Icontrol group and OM I-control group. Before and at six weeks of cell t ransplantation, ult rasonic cardiography (UCG) were performed to observe the change of heart morphology and function, then the heart was harvested for morphological and histological study. Results U CG showed that left ventricular end diastolic dimension (LV EDD) , left ventricular end diastolic volume (LVEDV ) , the thickness of left ventricular postwall (LVPW ) in AM I-BMMNC group were significantly less than those in AM I-control group (32. 5±5. 1mm vs. 36. 6±3. 4mm , 46. 7±12. 1m l vs. 57. 5±10. 1m l, 6. 2±0. 6mm vs. 6. 9±0. 9mm; P lt; 0. 05). LVEDD, LVEDV , LVPW in OM I-BMMNC group were significantly less than those in OM I-control group (32. 8±4. 2 mm vs. 36. 8±4. 4mm , 48. 2±12. 9m l vs. 60.6±16.5m l, 7. 0±0. 4mm vs. 7. 3±0. 5mm; P lt; 0. 05). The value of eject fraction (EF) in OM I-BMMNC group were significantly higher than that in OM I-control group (53. 3% ±10. 3% vs. 44. 7%±10. 1% ). Compared with their control group in morphological measurement, the increase of infarct region thickness (7. 0 ± 1. 9mm vs. 5. 0 ±2.0mm , 6.0±0. 6mm vs. 4. 0±0. 5mm; P lt; 0. 05) and the reduction of infarct region length (25. 5±5. 2mm vs. 32. 1±612mm , 33. 6±5. 5mm vs. 39. 0±3. 2mm , P lt; 0. 05) were observed after transplantation in AM I-BMMNC group and OM I-BMMNC group, no ventricular aneurysm was found in AM I-BMMNC group, and the ratio between long axis and minor axis circumference of left ventricle increased in OM I-BMMNC group (0. 581±0. 013 vs. 0. 566±0.015; P lt; 0. 05). Both in AM I-BMMNC group and OM I-BMMNC group, fluorescence expressed in transplantation region was observed, the morphology of most nuclei with fluorescencew as irregular, and the differentiated cardiocyte with fluorescence was not found in myocardium after transplantation. The histological examination showed more neovascularization after transp lantation both in AMI and in OM I, and significant lymphocyte infiltration in AM I-BMMNC group. Conclusion BMMNC implantation into infarct myocardium both in AMI and OMI have a beneficial effect, which can attenuate deleterious ventricular remodeling in morphology and st ructure, and improve neovascularization in histology, and improve the heart function.
目的 建立犬开放性气胸海水浸泡的实验模型 ,探讨实验动物早期死亡原因。 方法 2 0条健康成年杂种犬随机分为两组。对照组 :实验动物受伤后直接观察 ;实验组 :动物受伤后置入人工配制的海水中。监测血流动力学、呼吸、血液渗透压、血液电解质、动脉血气变化以及肺部病理改变。 结果 实验组死亡率明显高于对照组 ,平均生存时间为 45分钟。实验组经海水浸泡后有急性呼吸和循环功能衰竭、严重电解质平衡紊乱、高渗血症、重度肺损伤以及严重代谢性和呼吸性酸中毒。 结论 开放性气胸后海水浸泡可引起一系列严重的病理生理变化 ,其结果是导致实验动物早期死亡的重要原因。
Objective To construct a new composite artificial trachea and to investigate the feasibility of trachea repair and reconstruction with the new composite artificial trachea transplantation in dogs. Methods The basic skeleton of the new composite artificial trachea was polytetrafluoroethylene vascular prosthesis linked with titanium rings at both ends. Dualmesh was sutured on titanium rings. Sixteen dogs, weighing (14.9 ± 2.0) kg, female or male, were selected. The 5 cm cervical trachea was resected to prepare the cervical trachea defect model. The trachea repair and reconstruction was performed with the new composite artificial trachea. Then fiberoptic bronchoscope examination, CT scan and three-dimensinal reconstruction were conducted at immediate, 1 month, and 6 months after operation. Gross observation and histological examination were conducted at 14 months to evaluate the repair and reconstruction efficacy. Results No dog died during operation of trachea reconstruction. One dog died of dyspnea at 37, 41, 55, 66, 140, and 274 days respectively because of anastomotic dehiscence and artificial trachea displacement; the other 10 dogs survived until 14 months. The fiberoptic bronchoscope examination, CT scan and three-dimensinal reconstruction showed that artificial tracheas were all in good location without twisting at immediate after operation; mild stenosis occurred and anastomoses had slight granulation in 6 dogs at 1 month; severe stenosis developed and anastomosis had more granulation in 1 dog and the other dogs were well alive without anastomotic stenosis at 6 months. At 14 months, gross observation revealed that outer surface of the artificial trachea were encapsulated by fibrous connective tissue in all of 10 dogs. Histological examination showed inflammatory infiltration and hyperplasia of fibrous tissue and no epithelium growth on the inner wall of the artificial trachea. Conclusion The new composite artificial trachea can be used to repair and reconstruct defect of the trachea for a short-term. Anastomotic infection and dehiscence are major complications and problems affecting long survival.