Curcumin Nutrition for the Prevention of Mesenteric Ischemia-Reperfusion Injury: An Experimental Rodent Model

Background

Curcumin is an anti-oxidant molecule known to be a potent inhibitor of nuclear factor-κB (NF-κB). It has been shown to attenuate ischemia/reperfusion (I/R) injury in several organ systems. In this study, we sought to investigate the effects of curcumin on the prevention of superior mesenteric artery I/R injury in rats.

Methods

Wistar albino rats were randomly allocated to 3 groups: group I, sham operated (n = 10); group II, I/R injury only (n = 10); group III, curcumin-treated I/R cohort (n = 10). Group I animals underwent laparotomy without I/R injury. After group II animals underwent laparotomy, 60 minutes of superior mesenteric artery ligation were followed by 3 hours of reperfusion. In the curcumin group, 15 days before I/R, curcumin (40 mg/kg) was administered by gastric gavage. All animals were sacrificed at the end of reperfusion. Intestinal tissue samples were obtained to investigate intestinal mucosal injury; in addition we estimated levels of myeloperoxidase (MPO) activity, malondialdehyde (MDA), nitric oxide (NO), glutathione (GSH), interleukin (IL)-6, and tumor necrosis factor (TNF)-α.

Results

There were statistically significant decreases in GSH levels, along with an increase in intestinal mucosal injury scores, MPO activity, MDA levels, NO, IL-6, and TNF-α in group I when compared with groups II and III (P = .01). Curcumin treatment in group III produced a significant increase in GSH levels, as well as a decrease in intestinal mucosal injury scores, MPO activity, MDA, and NO levels when compared with group II (P < .05).

Conclusion

This study showed that curcumin treatment significantly attenuated reperfusion injury in a superior mesenteric artery I/R model in rats.     

EUK-134 reduces renal dysfunction and injury caused by oxidative and nitrosative stress of the kidney

BACKGROUND/AIMS: Oxidative and nitrosative stress plays important roles in the pathogenesis of renal ischemia/reperfusion (I/R) injury. Here we investigate the effect of EUK-134, a synthetic superoxide dismutase and catalase mimetic, (i) on renal dysfunction and injury caused by I/R in vivo and (ii) on proximal tubular cell (PTC) injury and death caused by oxidative and nitrosative stress. METHODS: Rats, subjected to bilateral renal ischemia (45 min) followed by reperfusion (6 h), were administered EUK-134 (0.3 and 3 mg/kg, i.v.) prior to and during reperfusion, after which biochemical and histological indicators of renal dysfunction and injury were measured. The expression of poly(ADP-ribose) (PAR) and inducible nitric oxide (NO) synthase (iNOS) and nitrotyrosine formation were determined immunohistochemically and used as indicators of oxidative and nitrosative stress. Primary cultures of rat PTCs, isolated and cultured from the kidney cortex, were incubated with hydrogen peroxide (H2O2; 1 mM for 2 h) in the presence of increasing concentrations of EUK-134 (1-100 microM) after which PTC injury and death were measured. The effects of EUK-134 on serum levels of NO in rats subjected to renal I/R or on NO production by PTCs incubated with interferon-gamma (IFN-gamma, 100 IU/ml) and bacterial lipopolysaccharide (LPS, 10 microg/ml) in combination for 24 h were also measured. RESULTS: EUK-134 produced a significant reduction in renal dysfunction and injury caused by I/R. Specifically, serum creatinine levels, an indicator of renal dysfunction, were reduced from 227 +/- 11 (n = 12, I/R only) to 146 +/- 9 microM (n = 12, I/R +3 mg/kg EUK-134). Urinary N-acetyl-beta-D-glucosaminidase activity, an indicator of tubular damage, was reduced from 42 +/- 5 (n = 12, I/R only) to 22 +/- 3 IU/l (n = 12, I/R +3 mg/kg EUK-134). EUK-134 significantly reduced renal injury caused by oxidative stress in vivo (reduction in PAR formation), and in vitro EUK-134 reduced PTC injury and death caused by H2O2. However, EUK-134 also reduced nitrosative stress caused by I/R in vivo (reduction of iNOS expression and nitrotyrosine formation), which was reflected by a significant reduction in serum NO levels in rats subjected to renal I/R. Specifically, serum NO levels were reduced from 57 +/- 12 (n = 12, I/R only) to 23 +/- 3 mM (n = 12, I/R +3 mg/kg EUK-134). In vitro, EUK-134 significantly reduced NO production by PTCs incubated with IFN-gamma/LPS. CONCLUSION: We propose that EUK-134 reduces renal I/R injury not only via reduction of oxidative stress, but also by reducing nitrosative stress caused by renal I/R.     

Protective effects of glucagon-like peptide 2 on intestinal ischemia-reperfusion rats

Our objective was to evaluate the protective effects of glucagon-like peptide 2 (GLP-2) on intestinal ischemia/reperfusion (I/R) rats. Thirty-two rats were randomly assigned to four experimental groups, each of 8: Group A, sham rats underwent laparotomy only, without superior mesenteric artery (SMA) occlusion; Group B, I/R animals underwent laparotomy and occlusion of the SMA for 60 minutes followed by 120 minutes of reperfusion; Group C, I/R animals underwent intestinal I/R, and received pretreatment with GLP-2 for 3 days preoperatively; and Group D, I/R animals underwent intestinal I/R, received pretreatment with GLP-2 as above, and during the reperfusion phase were injected intravenously with GLP-2. After the reperfusion of intestinal ischemia, samples of intestinal mucosa, mesenteric lymph nodes (MLN) and blood were prepared for determination. In the pretreatment rats with GLP-2 (group C), Chiu's scores, bacterial colony counts, serum D-lactate, intestinal mucosal MDA and ET-1, and serum endotoxin, TNF-alpha and IL-6 were significantly reduced compared with intestinal I/R rats (group B). Administration of GLP-2 during the reperfusion phase following pretreatment (group D) showed further protective effects in comparison with the pretreatment rats (group C). We conclude that treatment with GLP-2 attenuates intestinal I/R injury, reduces bacterial translocation, inhibits the release of oxygen free radicals and ET-1, and may well inhibit the production of proinflammatory cytokines.     

The Evaluation of Protective Effects of FK-506 on Neural Ischemic-Reperfusion Injury: an Experimental Study

Abstract Objective: In this study, we aimed to delineate the mode of neuroprotective action of FK-506, and demonstrated that FK-506 could decrease oxidative stress and apoptotic cell death in an in vivo rat model of neural ischemia-reperfusion after hemorrhagic shock. Methods: Thirty rats were used as experimental subjects and divided into five equal groups. Group A rats (sham group, n = 6) were anesthetized and craniotomies were performed for collecting brain tissue samples. In group B ischemia-reperfusion (I/R + 1 h, n = 6), group C (I/R + 24 h, n = 6), group D (I/ R + 1 h FK-506, n = 6) and group E (I/R + 24 h FK-506, n = 6), systolic blood pressure of the rats decreased to 40–50% of the normal level via bleeding from the femoral vein. Thus, a hemorrhagic shock and ischemic neural tissue model was formed. The bloodwas retained and given to the remaining animals in groups B, C,Dand E via femoral vein for reperfusion 20 min after the procedure. In group D and E, 1 mg/kg FK-506 in 0.5 ml isotonic solution was administered to the rats 5 min before reperfusion. Group B and D rats were sacrificed after 1 h and group Cand E rats were sacrificed 24 h after reperfusion; the rats were sacrificed via bleeding associated with intracardiac puncture. Craniotomy was also performed in groups B, C, D and E and brain tissue samples were fixed using neutral buffered 10% formaldehyde solution for immunohistopathological examination as in group A. Brain tissue superoxide dismutase (SOD) activities, malondialdehyde (MDA) levels, tissue myeloperoxydase (MPO) activities and apoptotic cell analyses with Apo 2.7 immunohistochemically were also performed in all groups. Results: The result of the study revealed that the SOD activities were lower for groups B (I/R + 1 h) and C (I/ R + 24 h) than for group A (sham group) (p < 0.05). In addition, SOD activities were higher in groups D (I/ R + 1 h FK-506) and E (I/R + 24 h FK-506) than in groups B (I/R + 1 h) and C (I/R + 24 h) (p < 0.05). MDA levels, MPO activities and the number of apoptotic cells were lower in group A (sham group) than in groups B (I/R + 1 h) and C (I/R + 24 h) (p < 0.05). In addition to these MDA levels, MPO activities and the number of apoptotic cells were higher in groups B (I/R + 1 h) and C (I/R + 24 h) as compared to groups D (I/R + 1 h FK-506) and E (I/R + 24 h FK-506) (p < 0.05). Conclusion: The results suggest that the prophylactic use of FK-506 in an in situ ischemic neural tissue may prevent reperfusion injury.     

Pulmonary expression of inducible heme-oxygenase after ischemia/reperfusion of the lower extremities in rats

BACKGROUND: Expression of inducible heme-oxygenase (HO-1) has been shown to be increased in various inflammatory disorders, which may confer a protective role. The aim of our study was to assess pulmonary expression of HO-1 after ischemia/reperfusion (I/R) of the lower limbs in rats. MATERIALS AND METHODS: We compared three groups of rats (n = 5/group): one Sham group, and two I/R groups (aorta cross-clamped for 2 h followed by 2 h of reperfusion), one of which pre-treated with Zn-protoporphyrin (Zn-PP), a competitive inhibitor of HO (50 micromol/kg, i.p.). At the end of experiment, lungs were harvested for determination of HO activity and HO-1 expression by Western blot and immunohistochemistry. Lung injury was assessed by bronchoalveolar lavage, histological study, and determination of the lung Evans Blue dye content, an index of microvascular permeability. RESULTS: I/R of the lower limbs was responsible for acute lung injury (ALI), characterized by neutrophilic infiltration (87 +/- 20 x 10(3) neutrophils/mm(3), Sham group versus 191 +/- 38 x 10(3) neutrophils/mm(3), I/R group; P < 0.002) and an increase in lung Evans blue dye content: (74 +/- 6 microg/g, Sham group versus 122 +/- 48 microg/g, I/R group; P < 0.05). Pre-treatment with Zn-PP further increases the Evans Blue content (122 +/- 48 microg/g, I/R group versus 179 +/- 23 microg/g Zn-PP group P < 0.05) and the neutrophilic infiltration. Pulmonary heme-oxygenase activity, and HO-1 content were increased after I/R. (10.5 +/- 12 pmol bilirubin/mg protein/h, Sham group versus 101.2 +/- 66 pmol bilirubin/mg protein/h, I/R group; P < 0.02). Immunohistochemistry revealed that the expression of HO-1 was mainly localized to inflammatory cells. CONCLUSIONS: ALI following I/R of the lower limbs in rats is associated with an increase of pulmonary expression of HO-1, inhibition of this expression increase the severity of ALI.     

Pulmonary apoptosis after supraceliac aorta clamping in a rat model

BACKGROUND: Lungs are a major target in several models of systemic inflammation. We investigated the effect of gut ischemia reperfusion on lung injury as apoptotic histological changes and pulmonary dysfunction. MATERIALS AND METHODS: Sixteen Wistar male rats were randomized in two equal groups: a control group and a gut ischemia-reperfusion (IR) group for which gut IR was performed by clamping the supraceliac aorta during 40 min. After 60 min of reperfusion, blood gas, bronchoalveolar liquid (BAL) and pulmonary tissue were sampled for measurements. Acidosis status was used to assess the importance of gut IR. Tumor necrosis factor-alpha in the BAL reflected the inflammatory pulmonary response. A terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick-end labeling method was used to quantify the percentage of apoptotic cells in BAL and to visualize apoptotic cells on tissue samples. Pulmonary dysfunction was assessed by PaO(2) measure. RESULTS: Gut IR caused an important metabolic acidosis (pH = 7.19 +/- 0.05 versus 7.32 +/- 0.02, P = 0.032 and HCO(3-) = 10.8 +/- 2.54 versus 21.1 +/- 1.72 mmol/L, P = 0.027). At the pulmonary level, there was yet no hypoxemia (paO(2) = 18.1 +/- 1.85 versus 12.3 +/- 1.1 kPa, P = 0.005) but a significant inflammatory response (tumor necrosis factor-alpha in BAL = 7.5 +/- 5 versus 0 pg/mL). The number of apoptotic cell in BAL more than doubled in the gut IR group (51.3 +/- 8 versus 23 +/- 4.3%, P = 0.046). Apoptose involved pneumocytes and bronchiolar epithelial cells. CONCLUSIONS: Our rat models of gut IR induced a significant pulmonary injury characterized by a doubling in apoptotic cells but not yet by a functional pulmonary impairment.     

Protective effect of a nuclear factor-kappaB inhibitor on ischemia-reperfusion injury in a rat epigastric flap model

We examined whether nuclear factor-kappa B (NF-kappaB) activation was involved in the ischemia-reperfusion (I/R) injury in a rat skin flap model and whether administration of pyrrolidine dithiocarbamate (PDTC), a NF-kappaB inhibitor, could improve flap viability. Eighty-four Sprague-Dawley rats were divided into control group (n = 28), I/R group (n = 28), and PDTC-treated group (n = 28). An abdominal skin flap (4 x 5 cm) was elevated and subjected to 10 hours of ischemia in both the I/R group and the PDTC-treated group. A bolus of PDTC (300 mg/kg) was infused 5 minutes before reperfusion, followed by a second dose during the first 30 minutes of reperfusion in the PDTC-treated group. Flap tissues were assessed by electrophoretic mobility shift assay at 1, 2, 3, and 6 hours of reperfusion, and myeloperoxidase activity and neutrophil infiltration were assessed at 12 hours of reperfusion. The viability of flaps was assessed 7 days postoperatively. NF-kappaB was activated after reperfusion in the I/R group and displayed peak activity at 1 and 3 hours of reperfusion. In the PDTC-treated group, NF-kappaB activity was significantly reduced at 1, 2, and 6 hours of reperfusion. Myeloperoxidase activity was significantly decreased, and little neutrophil infiltration could be observed. In the PDTC-treated group, the survival of flaps was 86.88 +/- 13.63%, which was significantly greater than the I/R group, in which only 19.20 +/- 7.52% of the flap survived. NF-kappaB is activated during reperfusion in a rat skin flap I/R model. Administration of PDTC can significantly improve flap survival by regulating the early activation of NF-kappaB and suppressing neutrophil infiltration within the flap.     

Acute effects of tumor necrosis factor on hydraulic conductivity of mammalian postcapillary venules.

BACKGROUND: Tumor necrosis factor (TNF) is a cytokine that has been implicated in the development of capillary leak in sepsis. METHODS: We examined the direct effects of intraluminally applied TNF on microvessel hydraulic permeability (Lp) in the in situ mesentery of pentobarbital anesthetized female rats. Postcapillary venules were cannulated and perfused with Ringer's solution containing 0.5% albumin and washed erythrocytes. Transcapillary volume flow per unit surface area (Jv/S) was measured by using the modified Landis technique and Lp was calculated from the regression of Jv/S on pressures between 35 and 75 cm H2O. RESULTS: Under control conditions the Lp (mean +/- SE) was 1.06+/-0.08 x 10(-7) cm/(s x cm H2O) (n = 16). Lp was 0.87+/-0.12 x 10(-7) cm/(s x cm H2O) after a 20-minute perfusion with murine recombinant TNF at a concentration of 150 pg/mL (n = 5, p vs. control = 0.3). At a concentration of 10 ng/mL Lp was 1.15+/-0.15 x 10(-7) cm/(s x cm H2O) (n = 7,p vs. control = 0.6). In vessels perfused for 2 hours with TNF at 10 ng/mL, Lp was 0.96+/-0.33 x 10(-7) cm/(s x cm H2O) (n = 4, p = 0.66). At 100 ng/mL, Lp was 2.4+/-0.40 x 10(-7) cm/(s x cm H2O) (n = 7,p = 0.046). CONCLUSION: The acute intraluminal exposure to TNF, in the absence of other circulating factors, does not increase venular hydraulic permeability at concentrations of 150 pg/mL and 10 ng/mL. In vessels exposed at high or supraphysiologic concentrations (100 ng/mL), an acute twofold increase in Lp was demonstrated.     

Endotoxin after gut ischemia/reperfusion causes irreversible lung injury.

We have recently reported that 45 min of gut ischemia causes moderate 125I-albumin lung leak at 6 hr of reperfusion which was reversed at 18 hr. Our purpose was to determine the effect of a second insult, low dose endotoxin (LPS, 2.5 mg/kg), given 6 hr after gut ischemia/reperfusion (I/R) on this lung injury as assessed by 125I-albumin leak, neutrophil influx (myeloperoxidase assay, MPO), histopathology, and mortality. Rats were randomized to either sham laparotomy (LAP) or 45 min of superior mesenteric artery occlusion and 6 hr later were treated with LPS or saline. At 18 hr reperfusion the lungs were harvested, assayed for 125I-albumin leak and MPO, and microscopically examined by an unbiased observer after routine H&E staining. We observed that LPS increased lung neutrophil levels both with or without gut I/R. However, only the combined insult (I/R + LPS) increased 125I-albumin leak at 18 hr of reperfusion. Lung histology confirmed that the sequential combination of I/R + LPS caused marked interstitial edema and neutrophil sequestration accompanied by alveolar edema, hemorrhage, and fibrinous exudate, while I/R or LAP + LPS did not. The mortality rate of I/R + LPS was 39% which was significantly higher than LAP alone (0%), gut I/R alone (0%), or LAP + LPS (4%). In conclusion, a delayed exposure to low dose endotoxin converts moderate gut I/R-induced lung dysfunction into advanced organ failure.     

缺血预处理对肝脏缺血再灌注损伤中MPO、TNF-α、ET、NO的影响

目的：探讨缺血预处理（IPC）对肝脏缺血再灌注（I/R）损伤中的中性粒细胞和某些细胞因子的影响。方法：采用大鼠部分肝脏原位缺血再灌注损伤模型,30只Wistar大鼠随机分成：①正常对照组;②缺血再灌注对照组;③预处理组。②、③组均在60min再灌注完成后取血及肝组织标本,检测血清AST、ALT、LDH、NO、ET-1、TNF-α、及肝组织中髓过氧化酶（MPO）活性和肝细胞病理改变。结果：预处理组与再灌注对照组比较,肝功明显改善,NO含量升高,ET-1、TNF-α浓度和MPO活性明显降低,两组比较差异具有显著性。结论：缺血预处理对肝脏缺血再灌注损伤有明显保护作用,可能与提高内源性NO水平、减轻中性粒细胞在肝脏中的渗出和聚集、抑制ET-1、TNF-α的合成有关。     

Pyrrolidine dithiocarbamate prevents 60 minutes of warm mesenteric ischemia/reperfusion injury in rats

BACKGROUND: Pyrrolidine dithiocarbamate (PDTC) is a low-molecular-weight thiol antioxidant and potent inhibitor of nuclear factor-kappaB (NF-kappaB) activation. It has been shown to attenuate harmful effects of ischemia/reperfusion (I/R) injury in many organs. In recent animal studies, destructive effects of reperfusion injury has been demonstrated. In this study, we aimed to investigate whether PDTC prevents harmful effects of superior mesenteric I/R injury in rats. METHODS: Wistar-albino rats were randomly allocated into the following 4 groups: (1) sham-operated group--these animals underwent laparotomy without I/R injury (group I, n = 12); (2) sham+PDTC group--identical to sham-operated rats except for the administration of PDTC (100 mg/kg intravenous bolus) 30 minutes prior to the commencement of the experimental period (group II, n = 12); (3) I/R group--these animals underwent laparotomy and 60 minutes of ischemia followed by 120 minutes of reperfusion (group III, n = 12); (4) PDTC-treated group (100 mg/kg, intravenously, before the I/R, group IV, n = 12). All animals were killed, and intestinal tissue samples were obtained for investigation of intestinal mucosal injury, myeloperoxidase (MPO) activity, malondialdehyde (MDA) levels, glutathione (GSH) levels, and intestinal edema. RESULTS: There was a statistically significant decrease in GSH levels, along with an increase in intestinal mucosal injury scores, MPO activity, MDA levels, and intestinal tissue wet-to-dry weight ratios in group III when compared to groups I, II, and IV (P < .05). However, PDTC treatment led to a statistically significant increase in GSH levels, along with a decrease in intestinal mucosal injury scores, MPO activity, MDA levels, and intestinal tissue wet-to-dry weight ratios in group IV (P < .05). CONCLUSIONS: This study showed that PDTC treatment significantly prevented the reperfusion injury caused by superior mesenteric I/R. Further clinical studies are needed to clarify whether PDTC may be a useful therapeutic agent to use in particular operations where the reperfusion injury occurs.     

肠缺血再灌注损伤后内毒素增敏作用及其机制的初步探讨

目的 探讨肠缺血再灌注损伤（Ｉ／Ｒ）对内毒素的增敏作用及其机制。方法 大鼠肠系膜上动脉阻断４５ｍｉｎ后松夹进行再灌注，静脉注射低剂量内毒素（ＬＰＳ，１．５ｍｇ／ｋｇ）。观察动物多脏器功能指标及体外诱生肿瘤坏死因子（ＴＮＦ）的改变。结果 Ｉ／Ｒ＋ＬＰＳ组显著加重全身血流动力学异常改变和肝、肺、肠等器官功能损害（Ｐ〈０．０１）。而单纯ＬＰＳ组或Ｉ／Ｒ组上述指标改变较轻或无明显异常。体外试验显示，当ＬＰ     

The effects of glucose-insulin-potassium solution and BN 52021 in intestinal ischemia-reperfusion injury

The objective of this study was to investigate effects of glucose-insulin-potassium (GIK) solution and BN 52021, a platelet-activating factor antagonist, on intestinal ischemia-reperfusion injury. Fifty male Sprague-Dawley rats (200-225 g) were divided into 5 groups each containing 10 rats; group SO, sham operation group; group I, mesenteric ischemia group (for 30 minutes); group R, ischemia plus reperfusion (for 60 minutes); group BR, ischemia-reperfusion plus BN 52021; group GR, ischemia-reperfusion plus GIK solution. Samples for malondialdehyde (MDA) and ileum (for mucosal injury score) were obtained. The mucosal injury scores of group R were significantly higher than those of group I (4 +/-0.20 and 3 +/-0.16, respectively, p<0.0001). The scores of groups BR and GR were significantly lower than those of group R (p<0.0001 and p<0.0001, respectively). When it was compared with the injuries in BR and GR groups, similar results were obtained in both groups (p=0.190). Mean MDA levels of group R were significantly higher than those of group I, BR and GR (131.33 +/-3.99 nmol/g, 93.74 +/-3.22 nmol/g, 104.81 +/-2.56 and 100.34 +/-5.30, respectively, p<0.0001). MDA levels of group BR and GR were significantly lower than those of group I (p<0.0001 and p=0.003, respectively). These observations suggest that treatment with GIK solution and BN 52021 before reperfusion and during reperfusion period may be useful in decreasing intestinal reperfusion injury.     

再灌注期间给予富氢液对大鼠全脑缺血再灌注损伤的影响

目的 评价再灌注期间给予富氢液对大鼠全脑缺血再灌注损伤的影响.方法 成年雄性SD大鼠72只,月龄2.0～2.5个月,体重260～300 g,采用随机数字表法,将其随机分为3组(n＝24):假手术组(S组)、脑缺血再灌注组(I/R组)和富氢液组(H组).I/R组和H组采用四血管阻塞法(缺血15 min)制备全脑缺血再灌注损伤模型.H组于再灌注6h时腹腔注射0.6 mmol/L富氢液5ml/kg,I/R组给予等容量生理盐水.再灌注24h时,每组处死18只大鼠,取海马组织,测定丙二醛(MDA)、肿瘤坏死因子-α(TNF-α)、白细胞介素-6(IL-6)含量、NF-κB活性、活化的caspase-3表达;再灌注72 h时,处死6只大鼠,取脑组织,HE染色,光镜下观察海马CA1区病理学结果,进行海马CA1区正常锥体细胞计数.结果 与S组比较,I/R组海马组织MDA、TNF-α、IL-6含量和NF-κB活性升高,活化caspase-3表达上调,正常锥体细胞计数减少(P<0.05);与I/R组比较,H组海马组织MDA、TNF-α、IL-6含量和NF-κB活性降低,活化caspase-3表达下调,正常锥体细胞计数增多(P<0.05).H组脑组织海马CA1区病理学损伤程度轻于I/R组.结论 再灌注期间给予富氢液可减轻大鼠全脑缺血再灌注损伤,其机制与抑制脂质过氧化反应、炎性反应和细胞凋亡有关.     

瑞芬太尼对肝硬化大鼠肝脏缺血再灌注损伤的影响

目的 探讨瑞芬太尼对肝硬化大鼠肝脏缺血再灌注损伤的影响.方法 成年健康雄性SD大鼠30只,体重260～300 g,采用随机数字表法,将其随机分为3组(n=10):肝硬化组(C组)、肝硬化+肝缺血再灌注组(I/R组)和瑞芬太尼组(R组).C组、I/R组和R组采用四因素综合法制备大鼠肝硬化模型,I/R组和R组在肝硬化模型制备成功后1周制备大鼠70％肝脏缺血再灌注模型,R组于缺血前10 min开始静脉输注瑞芬太尼1μg·kg-1·min-至再灌注结束.于再灌注4h时取静脉血样和肝组织,测定血清ALT和AST活性、肝细胞Bcl-2和Bax表达及肝细胞凋亡情况,计算细胞凋亡指数,光镜下观察肝组织病理学结果.结果 与C组比较,I/R组血清ALT和AST的活性升高,肝细胞Bcl-2表达下调,Bax表达上调,细胞凋亡指数升高(P＜0.05);与I/R组比较,R组血清ALT和AST的活性降低,肝细胞Bcl-2表达上调,Bax表达下调,细胞凋亡指数降低(P＜0.05).R组肝组织病理学损伤轻于I/R组.结论 瑞芬太尼可减轻肝硬化大鼠肝脏缺血再灌注损伤,其机制与平衡肝细胞Bcl-2与Bax表达而抑制肝细胞凋亡有关.     

Biochemical and morphological evaluation of ischemia-reperfusion injury in rat small bowel modulated by ischemic preconditioning

The objective of this study was to evaluate the effect of ischemic preconditioning upon lesions produced by ischemia-reperfusion of the small intestine. Thirty EPM-1 Wistar rats were randomly distributed into three groups: ischemic preconditioning (IPC; n = 12), ischemia-reperfusion (I/R; n = 12), and control (C; n = 6). Laparotomy permitted isolation of the mesenteric artery for clamping. The animals were heparinized and hydrated. IPC was induced by: 10 minutes of ischemia followed by 10 minutes of reperfusion and then 50 minutes ischemia followed by another 30 minutes reperfusion. Group I/R was submitted to the same protocol except for the 20 minutes of preconditioning. Group C animals underwent only laparotomy for 100 minutes. After reperfusion small intestine fragments were examined histologically. Blood samples were obtained to measure LDH and lactate prior to euthanasia. Lactate values were significantly lower in the IPC as compared to I/R group, 39 versus 67 mg/dL, respectively (P < or =.05). However, neither IPC (grade 3) lesions of the mucosa versus I/R (grade 4) nor LDH values (PCI = 680, I/R = 873 U/L) were statistically different. Thus No morphological evidence of protection was observed following ischemic preconditioning.     

Protective effect of preconditioning and adenosine pretreatment in experimental skeletal muscle reperfusion injury.

BACKGROUND: Prolonged ischaemia followed by reperfusion (I/R) of skeletal muscle results in significant tissue injury. Ischaemic preconditioning (IPC), achieved by repeated brief periods of I/R before prolonged ischaemia or adenosine pretreatment, can prevent I/R injury in cardiac muscle. The aim of this study was to ascertain in a rodent model if damage to skeletal muscle due to global hindlimb tourniquet-induced I/R could be similarly attenuated. METHODS: Anaesthetized rats were randomized (n = 6-10 per group) to five groups: sham-operated controls; I/R (4 h of ischaemia, 2 h of reperfusion); IPC (three cycles of 10 min of ischaemia/10 min of reperfusion) alone; IPC immediately preceding I/R; or adenosine 1000 microg/kg immediately before I/R. At the end of reperfusion, biopsies were taken from the left gastrocnemius muscle for measurement of myeloperoxidase (MPO) and reduced glutathione (GSH). Before ischaemia and at the end of reperfusion, blood samples were taken for measurement of nitric oxide metabolites, tumour necrosis factor (TNF) alpha and macrophage inflammatory protein (MIP) 2. RESULTS: IPC before I/R resulted in lower levels of MPO (P < 0.001) and TNF-alpha (P = 0.004), and higher levels of GSH (P < 0.001) and nitric oxide metabolites (P = 0.002) than I/R alone. Adenosine had effects comparable to IPC pretreatment (P < 0.001 for MPO, P = 0.002 for GSH, P = 0.02 for nitric oxide metabolites and P = 0.001 for TNF-alpha). There was no difference in the blood pressure or the MIP-2 concentration among the groups. CONCLUSION: IPC or pretreatment with adenosine ameliorates the I/R injury of skeletal muscle.     

Limitations of ischemic tolerance in oxidative skeletal muscle: perfusion vs tissue protection

OBJECTIVES: This study determined if ischemic tolerance occurs in oxidative skeletal muscle following a severe ischemia/reperfusion (I/R) insult and if such protection involves the induction of nitric oxide synthase (NOS). METHODS: The soleus muscle of male Wistar rats (250-350 g) was preconditioned (PC + I/R) using five cycles of ischemia (10 min) and reperfusion (10 min) or had no PC (I/R) and 24 h later 2 h no-flow ischemia was induced. Calcium dependent (cNOS) and independent (iNOS) NOS activities were determined from PC (n = 5), or sham (n = 5) and the role of iNOS was tested by application of aminoguanidine (AMG) (100 microM; n = 4) to the muscle bath. Direct measures of the number of perfused capillaries (Npc; #/mm) during 90-min reperfusion were obtained using intravital microscopy. Tissue injury was estimated using the fluorescent vital dyes ethidium bromide (E; labels injured cells) and bisbenzimide (B; labels all cells) and expressed as the ratio E/B. RESULTS: PC prevented microvascular flow deficits (Npc:I/R = 23.4 +/- 1.3 vs PC + I/R = 29.9 +/- 1.1) and resulted in a modest, but significant reduction (21%) in tissue injury (I/R = 0.82 +/- 0.03 vs PC + I/R = 0.64 +/- 0.04). PC led to a nine fold increase in iNOS activity, but decreased cNOS activity by 94% compared to sham. AMG prevented the parenchymal protection following PC, but had no effect on microvascular perfusion. CONCLUSIONS: Ischemic tolerance, 24 h following PC, preserved microvascular perfusion, but only modestly improved tissue viability in the soleus muscle.     

肠缺血再灌注损伤后内毒素增敏作用及其机制的初步探讨

目的探讨肠缺血再灌注损伤（Ｉ／Ｒ）对内毒素的增敏作用及其机制。方法大鼠肠系膜上动脉阻断４５ｍｉｎ后松夹进行再灌注,静脉注射低剂量内毒素（ＬＰＳ,１５ｍｇ／ｋｇ）。观察动物多脏器功能指标及体外诱生肿瘤坏死因子（ＴＮＦ）的改变。结果Ｉ／Ｒ＋ＬＰＳ组显著加重全身血流动力学异常改变和肝、肺、肠等器官功能损害（Ｐ＜００１）。而单纯ＬＰＳ组或Ｉ／Ｒ组上述指标改变较轻或无明显异常。体外试验显示,当ＬＰＳ刺激浓度≤１０ｎｇ／ｍｌ时,抗ＣＤ１４单抗可显著抑制全血ＴＮＦ的诱生（Ｐ＜００５～００１）,且Ｉ／Ｒ组抗ＣＤ１４单抗对ＬＰＳ诱导ＴＮＦ的抑制率明显高于伤前值或假手术组（Ｐ＜００５～００１）。结论Ｉ／Ｒ可显著提高机体对ＬＰＳ攻击的敏感性,其机理与体内ＣＤ１４依赖途径的作用增强有关。     

Identification and kinetics of leukocytes after severe ischaemia/reperfusion renal injury.

BACKGROUND: Leukocyte adhesion/infiltration in response to renal ischaemia/reperfusion (I/R) injury is a well-known but poorly understood phenomenon. The identification, kinetics, and exact role of these inflammatory cells in I/R injury and regeneration are still matters of debate. METHODS: Uninephrectomized rats were submitted to 60 min renal ischaemia by clamping of renal vessels. RESULTS: Severe acute renal failure was observed, with maximum functional impairment on day 2. By 12 h after the ischaemic event, up to 80% of proximal tubular cells in the outer stripe of outer medulla (OSOM) were already severely damaged. Proliferation (proliferating cell nuclear antigen (PCNA) staining) started after 24 h, reaching maximum activity on day 3. Regeneration of tubular morphology started on the 3rd day, and after 10 days 50% of tubules had regenerated completely. Interstitial leukocytes (OX-1 immunohistochemical staining) were already prominent at day 1, thereafter gradually increasing with time. The so-called neutrophil-specific identification methods (myeloperoxidase (MPO), chloroacetate esterase, mAb HIS-48) proved to be non-specific, since they also stained for macrophages, as demonstrated by flow cytometry and the combination of these stainings with the macrophage-specific ED-1 staining. MPO activity was already significantly increased at 1 h post-I/R (439+/-34%, P<0.005), reaching its maximum activity after 12 h of I/R (1159+/-138%, P<0.0005), declining thereafter. On the other hand, neutrophil presence investigated by H&E staining revealed only a few neutrophils in glomeruli, medullary rays, and OSOM at 24 h after the ischaemic event (4.7+/-4.2 cells/mm(2) vs controls=2.3+/-2.0 cells/mm(2) (n.s.)), and remained unchanged over the next 10 days. In contrast, significant monocyte/macrophage adhesion/infiltration (ED-1 staining) occurred at the OSOM at 24 h post-ischaemia (at 24 h, 120+/-46 cells/mm(2) vs. sham=18+/-4 cells/mm(2) (P<0.05)), became prominent at day 5 (1034+/-161 cells/mm(2) vs sham=18+/-18 cells/mm(2) (P<0.05)), and almost disappeared after 10 days. CD4(+) cells (W3/25) gradually increased from day 5, reaching a maximum at day 10. A few CD8(+) cells (OX-8) were apparent from days 3 until 10, but no B-cells (OX-33) were observed. CONCLUSIONS: After severe warm I/R renal injury, a pronounced acute tubular necrosis occurs during the first 12-24 h in the absence of a marked cellular infiltrate, but with an important renal MPO activity, reflecting the activation of the adhering inflammatory cells (polymorphonuclear cells (PMNs) and mainly monocytes/macrophages). Only later at the time and site (OSOM) of regeneration a sequential accumulation of monocytes/macrophages and T cells becomes prominent, in contrast with the low number of neutrophils found in the kidney during the 10-day post-ischaemic period. The non-specificity of the so-called neutrophil-specific identification methods (MPO activity, naphthol AS-D chloroacetate esterase, or mAb HIS-48 staining), cross-reacting with monocytes/macrophages, explains the controversy in literature concerning the number of PMNs in post-ischaemic injury.