Objective To study the efect of IH764-3 on ischemia-reperfusion (I/R) injury in rat liver. Methods Rats were divided into 3 groups, the control group was not subjected to ischemia and no treatment was given. I/R injury group was subjected to 40 minutes ischemia followed by reperfusion for 120 minutes. The IH7643 group (40mg/kg) was administred at ischemia and reperfusion. Results In the IH764-3 group, sereum levels of ALT, AST, AKP and γ-GT were significantly lower than those in the I/R group. Energy charge level recovery was significantly higher with IH7643 (P<0.05), hepatic ultrastructure was better preserved with IH764-3. Conclusion IH764-3 may be useful in the treatment of hepatic ischemia reperfusion injury
Objective To observe the protective role of the ectogenesis zinc on the cells in rat flap with ischemia reperfusion injury and study the mechanisms. Methods A right low abdominal island flap was created in Wistar rats. Fortyeight rats were randomly divded into 3 groups (n=16):the control group, the ischemia reperfusion group and adding zinc ischemia reperfusion group.The content of malondialdehyde(MDA) and the activity of myeloperoxidase(MPO) were measured by thiobarbituric acid methods and colorimetry. The location of expression of MT was observed,and the image analysis was performed. The quantity of MT was represented by the integratial optical density. The ultrastructure changes of skin flap with ischemia reperfusion injury and the flap viability were observed. Results In the ischemia reperfusion injury flaps, the content of MDA and MPO show no statistically significant difference among the control group,IR group and the adding-zinc-IR group (P>0.05). Compared with the control group at 1 h and 24 h of reperfusion, the level of MDA increased 62.2% and 136.4%(P<0.01) in the IR group, which increased 11.3% and 33.2%(P<0.01) in the adding-zinc-IR group. The activity of MPO increased 238.4% and 503.4%(P<0.01)in the IR group when compared with the control group, and increased 17.9%and 24.1%(P<0.05) when compared with the adding-zinc-IR group. In the ischemia reperfusion injury falps, the content of MT in the control group and the IR group is too minimal to measure. While the content ofMT in the adding-zinc-IR group is 45.30±7.60. At 1 h and 24 h of reperfusiion, the content of MT in the adding-zinc-IR group increased 41.5% and 44.9% (P<0.01) compared with the IR group, and increased 119.9% and 234.6% (P<0.01) compared with the control group. The flap viability is 100% in the control group, 19.65%±4.38% in the IR group, and 24.99%±5.12% in the adding-zinc-IR group, which increased 27.2% (P<0.05) compared with IR group. Conclusion Many kinds of cells in skin flap with ischemiareperfusion injury can be protected by ectogenesis zinc and the flap viability increases significantly.
Objective To investigate the pathological changes in the neuromuscular junction during ischemiareperfusion(IR) in the skeletal muscle. Methods Forty-eight healthy adult Wistar rats (24 male, 24 female) were equally randomised into the following 6 groups: Group A (control group): no ischemiareperfusion; Group B: ischemia by clamping the blood vessels of the right hindlimb for 3 hours; Group C: ischemia by clamping for 4.5 hours;Group D: ischemia by the clamping for 4.5 hours followed by reperfusion for 1.5hours; Group E: ischemia for 4.5 hours followed by reperfusion for 24 hours; and Group F: ischemia for 4.5 hours followed by reperfusion for 2 weeks. Then, the medial head of the gastrocnemius muscle flap model was applied to the right hindlimb of each rat. The medial head of the gastrocnemius muscle was isolated completely,leaving only the major vascular pedicle, nerve and tendons intact.The proximal and distal ends (tendons) were ligated while the vessel pedicle was clamped. And then, Parameters of the muscle (performance,contraction index,colour,edema,bleeding) were observed. The muscle harvested was stained with gold chloride(AuCl3) and the enzymhistochemistry assay (succinate dehydrogenase combined with acetylcholine esterase) was performed. Morphology and configuration of the neuromuscular junction were observed during the ischemiareperfusion injury by means of the AuCl-3 staining. The result of the enzymhistochemical reactions was quantitatively analyzed with the computer imageanalysis system. And then, additional 5 rats were prepared for 3 different models identical with those in Groups A, C and E separately. The specimens were harvested from each rat and were stained with HE and AuCl-3, and they were examined under the light microscope. Results During the period of ischemia, the skeletal muscle of Group B showed the colour of purple and edema.The colour and edema became worse in Group ,while dysfunction of elasticity and contraction appeared obviously with plenty of dark red hemorrhagic effusion at the same time.After reperfusion,the color and edema of muscle in Group D became improved while the elasticity and function of contraction was not improved. Hemorrhagic effusion of Group D turned clearer and less than Group C.Group E was similar to Group D in these aspects of muscle except for much less hemorrhagic effusion. Skeletal muscle in Group F showed colour of red alternating with white, adhesion,contracture of muscle, exposure of necrotic yellow tissue and almost lost all its functions. The AuCl3 staining showed that during IR, necrosis of the myocytes was followed by degeneration of their neuromuscular junctions, and finally the nerve fibers attached to these neuromuscular junctions were disrupted like the withering of leaves. The enzymhistochemistry assay showed thatthere was no significant difference in the level of acetylcholine esterase between the ischemic group (Groups B and C) and the control group (Group A) (Pgt;0.05). However, the level of acetylcholine esterase in all the reperfused groups (Groups D, E and F) decreased significantly when compared with the control group(Group A)and the ischemic groups (Groups B and C) (Plt;0.01). Conclusion The distribution of the nerve fibers and the neuromuscular junctions in the mass of the muscles is almost like the shape of a tree. The neuromuscular junction seems to be more tolerant for ischemia than the myocyte. Survival ofthe neuromuscular junction depends on its myocytes alive. Therefore, an ischemiareperfusion injury will not be controlled unless an extensive debridement of the necrotic muscle is performed.
To investigate the protective effect of propofol on ischemia/reperfusion induced spinal cord injury in rabbits and its influence on excitatory amino acid (EAA). Methods Sixty New Zealand white rabbits weighing 2.0-2.5 kg, half males and half females, were selected. The infrarenal circumaortic clamping model was used. And 6 mL/kg different fluids were continuously infused through a catheter into the aorta distal to the clamping site at a speed of 12 mL/(kg•h) during the 30 minutes ischemia period. According to the different infusing l iquids, the rabbits were randomized into 6 groups(n=10 per group): group A, normal sal ine; group B, 10% intral ipid; group C, propofol 30 mg/kg; group D, propofol 40 mg/kg; group E, propofol 50 mg/kg; group F, propofol 60 mg/kg. At 0, 6, 24, and 48 hours after reperfusion, neurologic outcomes were scored on a Tarlov scale system. At 48 hours after reperfusion, the number of normal neurons in the anterior spinal cord was counted, and concentration of EAA in the lumbar spinal cord was measured by high performance l iquid chromatography. Results The neuroethological score was better in groups C, D, E and F than that of groups A and B (P lt; 0.05), the score of group E was the highest (P lt; 0.05), and there was no significant difference between group A and group B (P gt; 0.05). The number of normal neurons in the anterior spinal cord of groups C, D, E and F was greater than that of groups A and B (P lt; 0.05), and group E was greater than groups C, D and F (P lt; 0.05). The concentration of EAA in groups A, B, C, D, E and F was greater than that of normal tissue, the group E was the lowest (P lt; 0.05), the groups A and B were the highest (P lt; 0.05), and there was no significant difference between group A and group B (P gt; 0.05). Concentrations of glutamate and aspartic acid were negatively correlated to normal neuron numbers in the anterior spinal cord and neuroethological scores 48 hours after reperfusion, and the corresponding correlation coefficient was — 0.613, — 0.536, — 0.874 and — 0.813, respectively (P lt; 0.01). Conclusion Propofol can significantly inhibit the accumulation of EAA in spinal cord and provide a protective effect against the ischemia/reperfusion injury induced spinal cord in rabbits.
Objective To investigate the effect of S-adenosylmethionine (SAM) on mitochondrial injury that was induced by ischemia-reperfusion in rat liver. Methods Fifty-four rats were randomly divided equally into 3 groups: control group, ischemia-reperfusion group (I/R group), and SAM-treated group (SAM group). Hepatic ischemia had been only lasted for 30 min by obstructing the blood stream of hepatic portal vena (the portal vena was only separated but not obstructed in control group). The rats of SAM group received SAM intraperitoneally 2 h prior to ischemia. Blood samples of each group were collected from the inferior cava vena at 0, 1 and 6 h after reperfusion and the serum levels of AST and ALT were detected. Mitochondrial super oxidedismutase (SOD), malondialdehyde (MDA), adenosine triphosphate (ATP) and energy charge (EC) in samples of liver tissue were detected, and the mitochondrial ultrastructure was observed with electronmicroscope. Results The serum levels of AST, ALT and mitochondrial MDA at 0, 1 and 6 h after reperfusion in the I/R group were significantly higher than those in the control group, whereas the levels of mitochondrial SOD, ATP and EC were significantly lower than those in the control group (P<0.01). Except the value of 0 h, when it comes to SAM group, the levels of AST, ALT and mitochondrial MDA were significantly lower (P<0.05) and the levels of mitochondrial SOD, ATP and EC were significantly higher (P<0.05, P<0.01) than those in the I/R group, respectively. The mitochondrial ultrastructure was injured obviously in I/R group when compared with that in control group. The number of mitochondria decreased and the mitochondria swelled, making the crista became obscure and the density of matrix became lower. The above changes in SAM group were less obvious when compared with those in I/R group. Conclusion SAM may protect mitochondrion against hepatic ischemia injury, since it may prevent mitochondrial lipid peroxidation, increase ATP, and eventually improve energy metabolism after ischemia-reperfusion.
Objective To study the protective effects of ischemic preconditioning(IP) duration against ischemic reperfusion injury of skeletal muscle. Methods Thirty-six Wister rats were made amputation-like models, which underwent temporary amputation at the level of the femur, excluding the femoral vessels. They were divided into 6 groups(n=6) according to different treatments before ischemiareperfusion: group A(4 hours of ischemiareperfusion); groups B, C, D, E(5, 10,15, 20 minutes of ischemia and 5, 10, 15, 20 minutes of reperfusion respectively, for 3 cycles, 4 hours ischemiareperfusion ); group F (no ischemia-reperfusion). The malondialdehyde(MDA), the extent of edema and necrosis of skeletal muscle were measured to observe protective effects of different ischemic preconditioning duration. Results Five minutes of ischemic preconditioning(IP5)could protect skeletal muscle of ischaemia against necrosis and the survival area of the muscle was 82.47%.The effects of IP10 and IP 15 were significantly superior to that of IP5 and the survival areas of the muscle were 89.03% and 89.49%. The effect of IP20(78.27%) was significantly inferior to that IP5. IP5 could reduce edema of skeletal muscle, the effect of IP10 was significantly superior to that of IP5. IP5, IP 10,and IP 15 could decrease the level of MDA, but IP20 did not decrease it. Conclusion The trend of protective effect of IP on ischemia-reperfusion injury of themuscle in rats first rise to the peak and then go down,10minutes ofIPis optimal.
ObjectiveTo investigate the protective effects of glycine on rat sinusoidal endothelial cells (SECs) after hepatic warm ischemiareperfusion and its mechanism.MethodsSeventytwo male SD rats were randomly divided into the normal control,ischemiareperfusion,glycine plus strychnine treated and glycine treated groups. The changes of endothelin (ET),hyaluronic acid (HA),tumor necrosis factorα (TNFα) content and alanine aminotransterase (ALT), superoxide dismutase (SOD) activity as well as morphology of SECs under light microscope were observed at the time point 1,3,24 h after hepatic reperfusion. The effects of glycine on the above parameters were also observed. ResultsThe group using glycine treated, the abnormal changes of all above parameters were improved remarkably (P<0.01 or P<0.05). Strychnine can antagonize these effects partly.ConclusionGlycine can prevent the injury to rat SECs after hepatic warm ischemiareperfusion.It most likely acts through glycine receptor on SECs and Kupffer cells.
OBJECTIVE: To study the hemorheology of island flap after ischemia-reperfusion injury and modulation of dexamethasone. METHODS: Sixty Wister rats were made ischemia-reperfusion injury model, and divided into two groups randomly(Group I: intraperitoneal injection of normal saline 2 ml/kg as control group; Group II: intraperitoneal injection of dexamethasone 5 mg/kg as experimental group). Flap survived areas were measured and neutrophil necrosis numbers in flaps were counted. Erythrocytes and neutrophil hemorheology were observed. RESULTS: Area survived flap in group II was larger than that in group I. Neutrophil necrosis numbers were less in group II than in group I (P lt; 0.05). Whole blood hyposhear viscosity, erythrocyte aggregation, Casson yield stress and nerutrophil adhesion ability were higher in group I than in group II (P lt; 0.05); and the neutrophil deformability was lower in group I than in group II. CONCLUSION: Flap inchemia-reperfusion can increase erythrocyte aggregation index and neutrophil adhesion ability. Dexamethasone can improve these and decrease neutrophil necrosis numbers, so as to prevent flap from ischemia-reperfusion injury.
目的 探讨丙泊酚-瑞芬太尼对肝脏缺血再灌注损伤的保护作用以及作用机制。 方法 2009年6月-2011年12月选择择期需阻断肝门的肝脏手术患者40例,随机分为丙泊酚-瑞芬太尼组(P组)和异氟醚组(I组),每组20例。在术前(T0)和肝门阻断开放后30 min(T1)、60 min(T2)、6 h(T3)、24 h(T4)、72 h(T5)分别抽取动脉血,测定天冬氨酸氨基转移酶(AST)、丙氨酸氨基转移酶(ALT)和肿瘤坏死因子α(TNF-α)的含量。 结果 两组AST、ALT、TNF-α较术前均有增高,差异有统计学意义(P<0.05);P组增高幅度明显低于I组,差异有统计学意义(P<0.05)。 结论 丙泊酚-瑞芬太尼对肝脏缺血再灌注损伤具有保护作用,抑制TNF-α的产生可能为其作用机制之一。