Objective To decrease the operative difficulty, with the purpose of looking for an orthotopic liver autotransplantation model which not only materializes the liver transplantation but also possesses higher survival rate. Methods This model was established via portal vein perfusion in thirty rats, and from which the result of the liver after perfusion, the operative time and the survival rate were observed. Liver tissues were researched at 24 h after operation under the light microscope. Results This model was easy to be perfused, the operative time was (48±3.0) min and the survival rate was 96.7% (29/30). The structure of hepatic tissue was basically normal with a little hydropic degeneration under the light microscope. Few erythrocytes residual occurred in the interlobular arteries under the light microscope. Conclusion The orthotopic liver autotransplantation model via portal vein perfusion has an exclusively blockage pattern which possesses a higher survival rate. It prevents the injury of immunological rejection and purely reflects the hepatic ischemia-reperfusion. But it is better to be applied in the non-hepatic artery anastomosis or the research nothing to do with the hepatic artery because the hepatic artery does not have sufficient perfusion.
Objective To investigate the rule of the morphological changes of the detrusor muscle and its neuromuscular junction after the medullary cone injury in rats. Methods Forty-eight SDadult rats were divided into 6 groups randomly, each of which was 8. There werenormal control group(group A), 4 weeks group(group B), 6 weeks group(group C), 8 weeks group(group D), 10 weeks group(group E) and 12 weeks group(group F) after the medullary cone injury respectively. The medullary cone injury was completed in the level of L4,5 with a sharp and transsectional way. The HE dyeing of the detrusor muscle was performed firstly to observe the changes of the section areas of muscle fibers. And the electron microscopic samples of the detrusor muscle were made to investigate the rules of the ultrastructructral changes in the detrusor muscle and its neuromuscular junction. Finally, the Masson trichromatic dyeing of the detrusor muscles was performed to calculate the percentages of the smooth muscle and the connective tissue.Results The HE dyeing of the detrusor muscle indicated the section areas of muscle fibers in groups E, F was significantly less than that in group A (P<0.05). The gradually aggravated ultrastructructral changes of detrusor cells in groups B-F were observed in atonic bladders,such as various shape and size,malalignment, wide separation between musclecells, abundant collagen fibrils and irregular dense structures between individual cells, obvious rough endoplasmic reticulum widen and mitochondrial edema were noted.And the ultrastructructral changes of the neuromuscular junctions manifested that the similar structures in group A and the reduction of the mitochondria and synaptic vesicles was seen in groups B, C and D, the conspicuous degenerative neuromuscular junction and the obvious reduction of the synaptic vesiclesand the mitochondria was observed in group E,and the deteriorative degenerativeneuromuscular junction and the obvious reduction or disappearance of the synaptic vesicles and the mitochondria even to the degenerative corpuscle was noted in group F. The Masson trichromatic dyeing in the detrusor muscles indicated that there were significant differences in the percentage of the connective tissue in the detrusor muscles between groups E,F and group A, and between group E and group F respectively (P<0.05). Conclusion The irreversible changes of the detrusor muscle and its neuromuscular junction canbe seen in the 10th week after medullary cone injury in rat. And the nerverepairing procedures should be performed before this.
Objective To investigate the maximum tolerance limit of rats to hepatic inflow occlusion with portal vein blood bypss (PBB) in normothermia. Methods First. A new animal model was established, the animal survival rate were calculated following 7 days of reperfusion after hepatic inflow occlusion of 30, 60, 90, 100, 110, 120 min or portal triad clamping (PTC) of 30 min. And then, the hepatic energy metabolism (RCR, P/O, ATP, AKBR) was studied following 30, 90, 120 min of ischemia or 1, 6, and 24 hours of reperfusion after the ischemia. According to the reversibility of the hepatic motochondrial function injury and maximum as long as a period of liver warm ischemia of all animal postoperative 7 days survial, the safe limit of rat to hepatic inflow occlusion was evaluated. Results The survival rate on postoperative 7 days was one hundred percent subjected to 30, 60 and 90 min of hepatic inflow occlusion, and 50, 30, 20 percent in 100, 110, 120 min, respectively, the survival rate in rats with 30 min of portal triad champing was about 40 percent. The parameters of hepatic motochondrial function reflecting the degree of liver damage to ischemia showed significantly different as compared to sham group. The functional lesion was exacerbated during inital reperfusion, then was restored progressively in PBB-30 min and PBB-90 min groups, but was maintained low level in PBB-120 min and PTC-30 min groups.Conclusion The 90 minutes is the maximum limit of rats to hepatic inflow occlusion in normothermia.
【Abstract】ObjectiveTo establish an efficient, effective hepatocyte isolation technique in order to increase cell production and decrease the prime cost. Methods The inferior vena cava below diaphragm was dissected and ligatured, and the inferior vena cava below liver was separated. Subsequently, the liver was perfused with EGTA through the portal vein while the inferior vena cava below liver was opened, and then the liver was harvested. The liver tissue was cut into 1 mm×1 mm×1 mm and digested at 37 ℃ water bath with Ⅳ collagenase for 30-40 minutes, then the hepatocytes were purified and cultured in CO2 incubator. The production and function of hepatocytes were assessed. ResultsThe isolated hepatocytes using this technique were more than 95% among the all isolated cells. No statistic difference was found in cell production and cell function comparing with traditional technique. But this technique was simplified and more economically. ConclusionThis modified hepatocyte isolation technique is efficient and effective. It can ensure the amount of production and purity of hepatocytes.
This study aimed to assess the therapeutic effect of mannital administration on acute hemorrhagic necrotizing pancreatitis (AHNP), 28 Wistar rats were randomily divided into therapeutic group and control group after induction of AHNP by retrograde intraductal injection of 5 percent sodium taurocholate. The rats of therapeutic group received intravenous 20% mannital (1g/kg) through tail vein, once in 12 hours, until the end of experiment; control group received saline (5.0 ml/kg) with the same way. Blood of all the rats were collected from heart and the rats were killed after 96 hours. Results: lipid peroxide (LPO) in pancreatic tissue, LPO in serum, lactate dehydrogenase (LDH), alpha-1-antitrypsin (α1-AT), glutamicoxalacetic transaminase (GOT), necrotizing square of pancreatic tissue in the therapeutic group were significantly less than those in control group (P<0.05 or P<0.01). The damage to pancrease, heart, liver, kidney in the therapeutic group were lighter than those of the control group and the mortality was lower (P<0.05).Conclusions: Mannital can scavenge the oxygenderived free radicals and play a therapeutic role in AHNP.
Objective To explore the key technique of allogeneic whole pancreaticoduodenal transplantation (WPDT) in rats. MethodsWPDT model was established between Lewis rats as donors and Wistar rats (with type 1 diabetes mellitus) as recipients. End to side anastomosis was performed in abdominal aorta of donors and recipients. The portal vein of the graft was anastomosed with the recipients left renal vein by cuff technique. And side to side anastomosis was made between the graft duodenum and the host jejunum. ResultsForty-four of 50 rats were successfully performed WPDT. Amongthem, 8 rats died in postoperative 3 days, the survival time of residual 36 rats was 6-16 days, with an average of (10.45±3.30) days. The peak of death appeared on day 7-10 after operation. The typical acute rejection in pathological changes were observed on day 7. ConclusionSkilled microsurgical techniques and emphasis on details are important to establish WPDT model.
Objective To investigate the effect ofestrogen on osteoarthritis in female rats.Methods Forty female rats were divided into four groups. In group Ⅰ, the rats were not given any treatment as a control. Ingroups Ⅱ, Ⅲ and Ⅳ, the rats received fixing left knee joint on extension position. Meanwhile, therats received ovariectomy in group Ⅲ; ovariectomy and diethylstilbestrol treatment in group Ⅳ, respectively. After 4 weeks, histological observation and serum BGP examination were done.Results In groups Ⅱ, Ⅲ andⅣ, the levels of serum BGP were 3.50±0.39, 5.72±0.64 and 3.95±0.44, respectively. The pathologic grades of cartilage and synovium were 10.83±4.35 and 4.21±2.03; 15.32±3.42 and 7.62±3.42; and 12.65±2.73 and 5.46±1.23, respectively. Conclusion Estrogen may play an important role in delaying the development of osteoarthritis.
Objective To evaluate an effect of the vascularendothelial growth factor (VEGF) geneactivated matrix (GAM) on repair of the sciatic nerve defect in rats. Methods The peripheral nerve extracellular matrix(ECM) was harvested by the chemical extraction from 30 SD rats. The VEGF-GAM comprised of ECM and the plasmids encoding VEGF. Thirty adult Wistar rats were made as a model of the asciatic nerve defect and were randomly divided into the following 3 groups(n=10): Group A (VEGF-GAM conduits), Group B (ECM conduits),and Group C (autografts). At 12 weeks, the rats from each groupwere subjected to an inspection for the walking tract analysis and electrophysiological and histomorphological studies.Results The VEGF DNA could be retained in GAM, promoting the transgene expressing in the sciatic nerve, and more importantly, in the axotomized neurons in the spinal cord for 12 weeks. The motor neuron recovery rate in Group A (79.13%±2.53%) was similar to that in Group C (75.26%±4.48%, Pgt;0.05), but significantly better than that in Group B (56.09%±1.89%, Plt;0.01). The number of the regenerationaxons in the distal sciatic nerve in Group A (13 463±794/mm2) was significantly lower than that in Group C (16 809±680/mm2, Plt; 0.01), but significantly higher than that in Group B (10 260±1 117/mm2,Plt;0.01). The motor nerve conduction velocity in Group A (16.44±1.65 m/s) was significantly lowerthan that in Group C (23.79±2.75 m/s, Plt;0.01), but significantly higherthan that in Group B (12.8 ±1.42 m/s, Plt;0.01). The recovery rate of thegastrocnemius muscle wet weight in Group A (71.40%±3.05%) was significantlylower than that in Group C (87.00%±1.87%,Plt;0.01), but significantly higher than that in Group B (50.00%±4.90%, Plt;0.01). The sciatic nerve function index in Group A (39.37%±4.81%) was significantly lower 〖KG6〗than that in Group C (26.27%±2.71%, Plt;0.01), but significantly higher than that in Group B (4693%±296%, Plt;0.01). Conclusion The results indicate that VEGF-GAM as a bridge can promote the functional recovery of the defected sciatic nerve in rats, but the effect is not so good as that by autografts.
ObjectiveTo explore the effect and mechanisms of bone marrow mesenchymal stem cells (BMSCs) on healing quality of acetic acid-induced gastric ulcer. MethodsForty-eight clean grade male Wistar rats were used to establish the model of gastric ulcer with acetic acid and were randomly divided into 3 groups after 3 days of modeling, 16 rats each group. After the abdominal cavity was open and stomach was pulled out, no treatment was given in group A, 150 μL phosphate buffered saline (PBS) and 150 μL BMSCs at passage 4+PBS (1×108 cells/100 μL) were injected into the gastric wall surrounding the ulcer at 5 different points in groups B and C respectively. After 10 days, the ulcer area was measured, the mucosal thickness and the number of dilated glands were tested in the regenerative mucosa by histological method. And the expression of vascular endothelial growth factor (VEGF) was detected at ulcerative margin by immunohistochemical method. ResultsThe ulcer area in group C was significantly smaller than that of groups A and B (P<0.01), but no significant difference was found between groups A and B (P>0.05). HE staining showed that group C had thicker regenerative gastric mucosa, less dilated glands, and more regular mucosal structure than groups A and B, showing significant differences in regenerative gastric mucosa thickness and dilated glands number (P<0.01), but no significant difference between groups A and B (P>0.05). Immunohistochemical staining showed that the positive expression of VEGF in the ulcer margin mucosa of group C was significantly higher than that of groups A and B. The integral absorbance (IA) value of VEGF expression in group C was significantly higher than that in groups A and B (P<0.01), but no significant difference between groups A and B (P>0.05). ConclusionBMSCs can accelerate ulcer healing by the secretion of VEGF, and improve the quality of ulcer healing.
Objective To investigate tissue engineered spinal cord which was constructed of bone marrow mesenchymal stem cells (BMSCs) seeded on the chitosan-alginate scaffolds bridging the both stumps of hemi-transection spinal cord injury (SCI) in rats to repair the acute SCI. Methods BMSCs were separated and cultured from adult male SD rat. Chitosan-alginate scaffold was produced via freeze drying, of which the structure was observed by scanning electron microscope (SEM) and the toxicity was determined through leaching l iquor test. Tissue engineered spinal cord was constructed by seeding second passage BMSCs on the chitosan-alginate scaffolds (1 × 106/mL) in vitro and its biocompatibil ity was observed under SEM at 1, 3, and 5 days. Moreover, 40 adult female SD rats were made SCI models by hemi-transecting at T9 level, and were randomly divided into 4 groups (each group, n=10). Tissue engineered spinal cord or chitosan-alginate scaffolds or BMSCs were implanted in groups A, B, and C, respectively. Group D was blank control whose spinal dura mater was sutured directly. After 1, 2, 4, and 6 weeks of surgery, the functional recovery of the hindl imbs was evaluated by the Basso-Beattie-Bresnahan (BBB) locomotor rating score. Other indexes were tested by wheat germ agglutinin-horseradish peroxidase (WGA-HRP) retrograde tracing, HE staining and immunofluorescence staining after 6 weeks of surgery. Results Chitosan-alginate scaffold showed three-dimensional porous sponge structure under SEM. The cells adhered to and grew on the surface of scaffold, arranging in a directional manner after 3 days of co-culture. The cytotoxicity of chitosan-alginate scaffold was in grade 0-1. At 2, 4, and 6 weeks after operation, the BBB score was higher in group A than in other groups and was lower in group D than in other groups; showing significant differences (P lt; 0.05). At 4 and 6 weeks, the BBB score was higher in group B than in group C (P lt; 0.05). After 6 weeks of operation, WGA-HRP retrograde tracing indicated that there was no regenerated nerve fiber through the both stumps of SCI in each group. HE and immunofluorescence staining revealed that host spinal cord and tissue engineering spinal cord l inked much compactly, no scar tissue grew, and a large number of neurofilament 200 (NF-200) positive fibers and neuron specitic enolase (NSE) positive cells were detected in the lesioned area in group A. In group B, a small quantity of scar tissue intruded into non-degradative chitosan-alginate scaffold at the lesion area edge, and a few of NSE flourescence or NF-200 flourescence was observed at the junctional zone. The both stumps of SCI in group C or group D were filled with a large number of scar tissue, and NSE positive cells or NF-200 positive cells were not detected. Otherwise, there were obviously porosis at the SCI of group D. Conclusion The tissue engineered spinal cord constructed by multi-channel chitosan-alginate bioscaffolds and BMSCs would repair the acute SCI of rat. It would be widely appl ied as the matrix material in the future.