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Hunan University of Chinese Medicine has improved the implementation of animal ethics education from the aspects of carrying out elective courses, emphasizing the implementation of pre-class learning, integrating ethics education into experimental teaching, cultivating students' good medical literacy in a subtle way, and further deepening their learning by offering elective courses of animal ethics. The results show that the opening of elective courses and the enforcement of experimental animal ethics education in experimental classes have greatly strengthened the students' experimental animal ethics, which is conducive to the formation of students' medical literacy.
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Objective:To explore the effects of Huatan Tongluo Decoction (HTTLD) on the morphology and function of brain tissues and intestine in rats with cerebral ischemia/reperfusion based on the gut-brain axis. Method:Sixty SPF male rats were randomly divided into a sham operation group, a model group, high- (28.66 g·kg<sup>-1</sup>), medium- (14.33 g·kg<sup>-1</sup>), and low-dose (7.16 g·kg<sup>-1</sup>) HTTLD groups, and an edaravone (4 g·kg<sup>-1</sup>)+<italic>Clostridium butyricum</italic> (5.0×10<sup>8</sup> cfu·mL<sup>-1</sup>) group. The model was established by focal cerebral ischemia/reperfusion in rats. The drugs were administered by gavage. The brain tissue injury was determined by neurological deficit score and 2,3,5-triphenyl tetrazolium chloride (TTC) staining. The effect of cerebral ischemia/reperfusion on intestinal motility was assessed by the propulsion rate of small intestine. The intestinal mucosal cell damage was evaluated by the pathomorphological examination of the duodenal mucosa. Enzyme-linked immunosorbent assay (ELISA) was used to determine the content of <italic>D</italic>-lactate (<italic>D</italic>-LAC), diamine oxidase (DAO), and bacterial endotoxin (lipopolysaccharide, LPS) in serum. Western blot was used to detect the expression of Occludin, Claudin-5, and zonula occludens 1 (ZO-1) in the duodenum. Result:After cerebral ischemia/reperfusion, rats developed neurological deficit symptoms. The neurological deficit score in the model group was higher than that in the sham operation group (<italic>P<</italic>0.01). Compared with the model group, the high- and medium-dose HTTLD groups could relieve the symptoms of neurological deficits and lower neurological deficit scores (<italic>P<</italic>0.01). The results of TTC staining showed that the model group presented obvious infarcts in brain tissues compared with the sham operation group (<italic>P<</italic>0.01). The cerebral infarction volumes of HTTLD groups were reduced compared with that in the model group (<italic>P<</italic>0.01), especially the high-dose HTTLD group, and the effect was dose-dependent. Furthermore, the propulsion rate of small intestine in the model group was significantly reduced compared with that in the sham operation group (<italic>P<</italic>0.01). Compared with the model group, HTTLD groups could increase propulsion rates of small intestine (<italic>P<</italic>0.01), especially the high-dose HTTLD group, and the effect was dose-dependent. After cerebral ischemia/reperfusion, obvious duodenal mucosal damage could be observed, which was relieved after the administration of HTTLD. Western blot results showed that the protein expression of ZO-1, Occludin, and Claudin-5 in the model group was reduced compared with that in the sham operation group (<italic>P<</italic>0.01). Compared with the model group, the HTTLD groups could up-regulate the expression of ZO-1, Occludin, and Claudin-5 to varying degrees (<italic>P<</italic>0.05, <italic>P<</italic>0.01), especially the high-dose HTTLD group. ELISA showed that the serum <italic>D</italic>-LAC, DAO, and LPS of the model group were elevated compared with those in the sham operation group (<italic>P<</italic>0.01). Compared with the model group, the HTTLD groups showed reduced <italic>D</italic>-LAC and DAO (<italic>P<</italic>0.05, <italic>P<</italic>0.01), and the medium- and high-dose HTTLD groups showed reduced LPS (<italic>P<</italic>0.05, <italic>P<</italic>0.01), especially the high-dose HTTLD group. Conclusion:After cerebral ischemia/reperfusion, the rats showed damaged brain tissues, neurological dysfunction, intestinal mucosal injury, weakened intestinal motility, and destroyed the intestinal mucosal barrier. HTTLD can protect against brain-gut axis injury after cerebral ischemia/reperfusion by reducing the damage on brain tissues and gastrointestinal mucosa, relieving the symptoms of neurological deficits, promoting gastrointestinal motility, improving intestinal barrier function, and reducing the release of intestinal bacterial metabolites or poisons.
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Objective:To investigate the effect of astragaloside Ⅳ(AST Ⅳ)and Notoginseng total saponins (NTS) combined with bone marrow mesenchymal stem cell (BMSC) transplantation on neural repair and angiogenesis in rats with cerebral ischemia. Method:The rats were randomly divided into a sham operation group, a model group, low- and high-dose AST Ⅳ + NTS groups, a BMSC infusion group, and low- and high-dose BMSC infusion+AST Ⅳ (10 and 20 mg·kg<sup>-1</sup>) + NTS group (25, 50 mg·kg<sup>-1</sup>). BMSCs were isolated and purified by whole bone marrow adherent culture. The positive expression of surface markers of BMSCs (CD29, CD90, CD34, and CD45) was detected by flow cytometry. The focal cerebral ischemia model was established by middle cerebral artery occlusion (MCAO). The PKH26-labeled BMSCs were injected into the tail vein of rats in the BMSC infusion group, once a day. The rats in the combination groups received BMSC injection once a day and intragastric administration of drugs twice a day. Other groups were administered twice a day by gavage. The sham operation group and the model group received the same amount of normal saline. Symptoms and signs of neurological deficits were assessed by the Longa method and the cerebral infarction rate was determined by TTC staining. The survival and vascularization [double positive expression of PKH26/vascular endothelial growth factor (VEGF)] after transplantation of BMSCs were observed by the immunofluorescence method. The protein expression of Ang1 and TGF-<italic>β</italic><sub>1</sub> was measured by Western blot. Result:BMSCs were properly isolated and cultured. The identification of surface markers CD29, CD90, CD34, and CD45 was consistent with the characteristics of BMSCs. The neurological deficit score and cerebral infarction rate of the model group were significantly increased (<italic>P</italic><0.01). All drugs and cell transplantation could alleviate the above pathological changes in varying degrees. The strongest effect was observed in high-dose BMSC infusion+AST Ⅳ+NTS group (<italic>P</italic><0.01), which was superior to those in the AST Ⅳ+NTS groups or the BMSC infusion group. BMSC injection helped cells survive in the ischemic brain tissues and promoted angiogenesis, and this effect could be enhanced by the combination with drugs. After cerebral ischemia, the expression of Ang1 and TGF-<italic>β</italic><sub>1</sub> was increased, and the effect in the BMSC infusion+AST Ⅳ+NTS groups was the strongest (<italic>P</italic><0.01). Conclusion:AST Ⅳ combined with NTS can promote the survival of transplanted BMSCs and facilitate angiogenesis after target repair of damaged blood vessels after cerebral ischemia. The mechanism may be related to the improvement of the local microenvironment in the brain after cerebral ischemia and the promotion of the survival and differentiation of transplanted stem cells.
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Aim To probe the effect of borneol combined with astragalosides IV (AST I V) and Panax notoginseng saponins (PNS) on blood-brain barrier (BBB) after cerebral ischemia-reperfusion. Methods Rats with cerebral ischemia-reperfusion were administered by gavage, the symptom of nerve function defect was observed, the water content of brain tissues, the permeability of BBB, and the expression of zonula cccludens 1 (ZO-1), ZO-2, Occludin and Claudin-5 were detected. Results After cerebral ischemia-reperfusion, the neurological deficit symptom appeared, the neurological function score and brain water content increased, and BBB was destroyed. Each drug could relieve the above pathological changes to various degrees, and the effect of borneol + AST IV + PNS was the best, which was stronger than that of single drug and AST IV + PNS. The expressions of ZO-1, ZO-2, Occludin, Claudin-5 proteins decreased after cerebral ischemia-reperfusion. All drugs inhibited the decrease of ZO-1, except AST I V, and increased Occludin expression; Borneol + AST IV + PNS also up-regulated ZO-2, and the increase in ZO-1, ZO-2, Occludin was greater than that of each drug alone and AST IV + PNS. Conclusions Borneol, AST IV and PNS can relieve the increase of BBB permeability, reduce brain edema and antagonize brain injury to various degrees after cerebral ischemia-reperfusion, which are enhanced by the combination of three drugs. The mechanism may be related to the synergistic inhibition of the down-regulation of ZO-1, ZO-2 and Occludin and the protection of BBB after cerebral ischemia.
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Objective To evaluate the role of phosphatidylinositol 3-kinase ( PI3K)∕protein kinase B ( Akt) signaling pathway in propofol-induced reduction of intestinal ischemia-reperfusion ( I∕R) injury in rats. Methods Thirty-two healthy male Sprague-Dawley rats, aged 2-3 months, weighing 225-275 g, were divided into 4 groups ( n=8 each) using a random number table method: sham operation group ( Sham group), intestinal I∕R group ( I∕R group), propofol group ( P group), and PI3K inhibitor wortmannin plus propofol group ( W+P group) . Intestinal ischemia was induced by occluding the superior mesenteric ar-tery for 45 min followed by 2 h of reperfusion to establish the model of intestinal I∕R injury. Propofol was in-travenously infused at a rate of 20 mg·kg-1 ·h-1 starting from the onset of reperfusion until the end of reper-fusion in group P. Wortmannin 15 μg∕kg was intravenously injected at 25 min before reperfusion, and propofol was intravenously infused at a rate of 20 mg·kg-1 ·h-1 starting from the onset of reperfusion until the end of reperfusion in group W+P. Rats were sacrificed at 2 h of reperfusion, and small intestinal tissues were obtained for microscopic examination of pathologic changes of intestinal mucosa and for determination of wet∕dry weight ratio (W∕D ratio), malondialdehyde (MDA) content (by thiobarbituric acid colorimetric method) , superoxide dismutase ( SOD ) activity ( using xanthine oxidase method ) , myeloperoxidase ( MPO) activity ( by MPO assay) , and phosphorylated Akt ( p-Akt) expression ( by Western blot) . Intes-tinal damage was assessed and scored according to Chiu. Results Compared with group Sham, Chiu' s score, W∕D ratio, MDA content and MPO activity were significantly increased, the SOD activity was de-creased, and p-Akt expression was down-regulated in group I∕R (P<0. 05). Compared with group I∕R, Chiu's score, W∕D ratio, MDA content and MPO activity were significantly decreased, the SOD activity was increased, and p-Akt expression was up-regulated in group P (P<0. 05). Compared with group P, Chiu's score, W∕D ratio, MDA content and MPO activity were significantly increased, the SOD activity was decreased, and p-Akt expression was down-regulated in group W+P (P<0. 05). Conclusion The mechanism by which propofol reduces intestrnal I∕R injury is related to activating PI3K∕Akt signaling path-way and inhibiting inflammatory and oxidative stress responses in rats.
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Objective To investigate the effect of diabetes mellitus (DM) on adenosine postcondi-tioning-induced reduction of myocardial ischemia-reperfusion (I∕R) injury in rats. Methods Adult male Sprague-Dawley rats, weighing 230-260 g, were used in the study. Type 2 DM was induced by high-fat diet and intraperitoneal l% streptozocin 35 mg∕kg and confirmed by fasting blood glucose concentration>16. 7 mmol∕L 72 h later. Eighteen rats with type 2 DM were divided into 3 groups (n= 6 each) using a ran-dom number table: sham operation group (DS group), I∕R group (DI∕R group) and adenosine postcondi-tioning group (DAP group). Eighteen healthy nondiabetic rats were selected and randomly divided into 3 groups (n= 6 each): sham operation group (NS group), I∕R group (NI∕R group) and adenosine postcon-ditioning group (NAP group). Myocardial I∕R was induced by 30 min occlusion of the left anterior descend-ing branch of coronary artery followed by 2 h of reperfusion. Venous blood samples were collected from the femoral vein at 2 h of reperfusion for measurement of plasma cardiac troponin I (cTnI) and creatine kinase-MB (CK-MB) concentrations (by enzyme-linked immunosorbent assay). The rats were then sacrificed im-mediately after blood sampling for determination of the myocardial ischemic area and infarct size. Results The plasma cTnI and CK-MB concentrations were significantly increased, and the percentage of myocardial infarct size was increased after myocardial I∕R in nondiabetic and diabetic rats. Adenosine postconditioning significantly decreased plasma cTnI and CK-MB concentrations and percentage of myocardial infarct size in nondiabetic and diabetic rats (P<0. 05). Compared with group NAP, the plasma concentrations of cTnI and CK-MB were significantly increased, and the percentage of myocardial infarct size was increased in group DAP (P<0. 05). Conclusion DM can weaken cardioprotection induced by adenosine postcondition-ing in rats.
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Objective To evaluate the efficacy of adductor canal block combined with infiltration anesthesia for postoperative analgesia in the patients undergoing total knee arthroplasty. Methods Sixty pa?tients of both sexes, aged 65-80 yr, weighing 40-80 kg, of American Society of Anesthesiologists physi?cal statusⅠ or Ⅱ, scheduled for elective unilateral total knee arthroplasty, were divided into 3 groups ( n=20 each) using a random number table: single?injection adductor canal block + infiltration anesthesia group ( group A) , single?injection femoral nerve block+infiltration anesthesia group ( group F) , and infil?tration anesthesia group ( group I) . Ultrasound?guided adductor canal block and femoral nerve block were performed with 0.5% ropivacaine 20 ml before induction of anesthesia in A and F groups, respectively. Af?ter completion of the block, all the patients were ventilated through the laryngeal mask airway under general anesthesia. After installation of the knee prosthesis, local infiltration anesthesia was conducted with 0.2%ropivacaine 50 ml around the knee joint. Acetaminophen oxycodone capsule was taken orally one pill every 6 h starting from the morning on 1st day after surgery. When visual analogue scale ( VAS) score > 5, tram?adol 100 mg was injected intramuscularly as rescue analgesic. At 4, 8, 24, 48 and 72 h after surgery, VAS scores at rest and during activity were recorded, the quadriceps strength was measured, and the re?quirement for analgesic drugs and development of adverse reactions were recorded. Results Compared with group I, VAS scores at rest and during activity were significantly decreased at 4, 8, and 24 h after surger?y, and the consumption of tramadol was significantly decreased after surgery in A and F groups ( P<0.05) . The quadriceps strength at 4 and 8 h after surgery was significantly higher in A and I groups than in group F ( P<0.05) . No patients developed serious adverse reactions in the three groups. Conclusion Adductor ca?nal block combined with infiltration anesthesia provides reliable efficacy for postoperative analgesia with little influence on the quadriceps strength in the patients undergoing total knee arthroplasty.
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Autophagy is a lysosome-mediated degradation process for non-essential or damaged cellular constituents, playing an important homeostatic role in cell survival, differentiation and development to maintain homeostasis. Autophagy is involved in tumors as well as neurodegenerative, cardiovascular and cerebrovascular diseases. Recently, active compounds from traditional Chinese medicine (TCM) have been found to modulate the levels of autophagy in tumor cells, nerve cells, myocardial cells and endothelial cells. Ischemic stroke is a major cause of neurological disability and places a heavy burden on family and society. Regaining function can significantly reduce dependence and improve the quality of life of stroke survivors. In healthy cells, autophagy plays a key role in adapting to nutritional deprivation and eliminating aggregated proteins, however inappropriate activation of autophagy may lead to cell death in cerebral ischemia. This paper reviews the process and the molecular basis of autophagy, as well as its roles in cerebral ischemia and the roles of TCM in modulating its activity.