Protective effect of albumin on lung injury in traumatic/ hemorrhagic shock rats

Objective. To determine the effect of albumin administration on lung injury in traumatic/hemorrhagic shock （T/HS） rats. Methods： Forty-eight adult Sprague-Dawley rats were divided into three groups randomly （ n = 16 in each group） ： Group A, Group B, Group C. In Group A, rats underwent laparotomy without shock. In Group B, rats undergoing T/HS were resuscitated with their blood plus lactated Ringer＇s （twice the volume of shed blood ）. In Group C, rats undergoing T/HS were resuscitated with their shed blood plus additional 3 ml of 5% human albumin. The expression of polymorphonuclear neutrophils CD18/CD11b in jugular vein blood was evaluated. The main lung injury indexes （the activity of myeloperoxidase and lung injury score） were measured. Results： Significant differences of the expression of CD18/11b and the severity degree of lung injury were found between the three groups. （P〈0.05）. The expression of CD18/CD11b and the main lung injury indexes in Group B and Goup C incresed significantly compared with those in Group A （P 〈0.05）. At the same time, the expression of CD18/CD11b and the main lung injury indexes in Group C decreased dramatically, compared with those in Group B （ P 〈0.05 ）. Conclusions ： The infusion of albumin during resuscitation period can protect lungs from injury and decrease the expression of CD18/CD11b in T/HS rats.     

Albumin protects against gut-induced lung injury in vitro and in vivo

OBJECTIVE: Since albumin has the ability to detoxify, we assessed whether low-dose albumin could protect against trauma/hemorrhagic shock (T/HS)-induced endothelial cell, lung, gut, and red blood cell (RBC) injury in vivo and endothelial cell injury in vitro. SUMMARY BACKGROUND DATA: T/HS cause ischemic insult to the gut, resulting in the release of biologically active factors into the mesenteric lymph, which then cause injury to multiple distant organs. METHODS: In vitro experiments tested the ability of albumin to reduce the cytotoxicity of mesenteric lymph from male rats subjected to T/HS (laparotomy + MAP 30 mm Hg for 90 minutes) for human umbilical vein endothelial cell (HUVEC). In subsequent in vivo experiments, the ability of albumin given as part of the resuscitation regimen to protect against T/HS-induced injury was tested by comparing the magnitude of injury in T/HS rats receiving human albumin (shed blood + 0.12, 0.24, or 0.36 g/kg) or lactated Ringer's solution (shed blood + 2 x volume of shed blood as LR) with that observed in rats subjected to trauma/sham shock. Rats were killed after a 3-hour recovery period and had lung permeability evaluated by bronchoalveolar lavage and myeloperoxidase assays, intestinal microvillous injury by histology, and RBC deformability using ektacytometry. RESULTS: Both bovine and human albumin prevented T/HS lymph-induced HUVEC cytotoxicity in vitro, even when added 30 minutes after the lymph (viability 15 +/- 4% to 88 +/- 3%, P < 0.01). In vivo RBC deformability was better preserved by blood plus albumin than blood plus lactated Ringer's solution (P < 0.01). Likewise, albumin administration reduced T/HS-induced lung permeability and neutrophil sequestration in a dose-dependent fashion, with 0.36 g/kg of albumin effecting total lung protection (P < 0.01). In contrast, albumin treatment did not prevent T/HS-induced gut injury. CONCLUSIONS: Low-dose albumin protects against gut lymph-induced lung, HUVEC, and RBC injury by neutralizing T/HS lymph toxicity.     

Posthemorrhagic shock mesenteric lymph primes circulating neutrophils and provokes lung injury.

Mesenteric lymph has recently been invoked as an avenue for gut-derived factors that may result in distant organ injury following hemorrhagic shock. We demonstrate that posthemorrhagic shock mesenteric lymph primes neutrophils (PMNs) and causes lung injury. Methods. Mesenteric lymph was collected from Sprague-Dawley rats from their mesenteric lymph duct prior to, during, and following hemorrhagic shock (MAP 40 for 90 min). The rats were then resuscitated with shed blood plus lactated Ringers (2X shed blood) over 3 h. Lung leak was assessed by transudation of Evan's blue dye into the alveolus as measured by bronchoalveolar lavage. Isolated human PMNs were incubated with 1 and 10% lymph; priming was measured by the fMLP (1 microM)-stimulated production of superoxide and surface expression of CD11b determined by flow cytometry. Results. Mesenteric lymph flow increased significantly during resuscitation: preshock 144.4 microl/h, shock 44.5 microl/h, resuscitation 566.6 microl/h. Furthermore, diversion of this lymph abrogated lung injury as compared to rats without lymph diversion. Finally, mesenteric lymph from postshock animals primed PMNs for superoxide production (nearly three times control cells) as well as increased surface expression of CD11b (2-fold over control). Conclusion. Mesenteric lymph primes PMNs and causes lung injury following hemorrhagic shock. Mesenteric lymph provides a conduit for proinflammatory mediators that may participate in the pathogenesis of MOF.     

Factors in intestinal lymph after shock increase neutrophil adhesion molecule expression and pulmonary leukosequestration

BACKGROUND: Because the ischemic gut may produce factors that initiate systemic inflammation, we tested the hypothesis that factors released from the gut into the mesenteric lymphatics increase neutrophil (PMN) adhesion molecule expression after trauma and shock. METHODS: At 1 and 4 hours after hemorrhagic shock (30 mm Hg x 90 minutes) plus trauma (laparotomy) (T/HS) or sham-shock (T/SS), with or without mesenteric lymph duct ligation, PMN CD11b and CD18 expression was assessed in male rats. In additional rats, mesenteric lymph samples were tested for their ability to increase PMN CD11b expression in vitro. Lastly, at 4 hours after T/SS or T/HS with or without lymph duct ligation, pulmonary PMN sequestration was measured. RESULTS: Compared with T/SS rats, T/HS was associated with up-regulation of PMN CD11b and CD18 expression, which was largely prevented by ligation of the mesenteric lymph duct (p < 0.01). Lymph duct ligation also prevented T/HS-induced pulmonary leukocyte sequestration (p < 0.01). In addition, mesenteric lymph from rats subjected to T/HS but not T/SS increased CD11b expression (p < 0.01). CONCLUSION: Factors produced or released by the postischemic intestine and carried in the mesenteric lymph appear responsible for PMN activation and pulmonary PMN sequestration after an episode of T/HS.     

Intracellular acidification enhances neutrophil phagocytosis in chronic haemodialysis patients: possible role of CD11b/CD18.

BACKGROUND: We have demonstrated that uraemic neutrophils that exhibit a low intracellular pH (pHi) display enhanced phagocytosis. However, the underlying cellular mechanism is unclear. METHODS: We used neutrophils from three groups of haemodialysis (HD) patients before dialysis (Groups A, B and C) and also from age- and sex-matched healthy individuals to determine pHi, phagocytosis and expression of CD11b, CD18, CD14 and toll-like receptors (TLR)-2 and TLR-4. The patients were categorized based on three consecutive monthly pre-dialysis plasma bicarbonate concentrations(P(HCO3)) and pH values; Groups A, B and C had a constant pre-dialysis P(HCO3) of /=26 mmol/L (mEq/L), respectively. We also studied the effects induced by the correction of metabolic acidosis and monoclonal antibodies (mAbs) against CD11b/CD18 on neutrophils in Group A. Furthermore, we investigated the effect of intracellular acidification on uraemic neutrophils ex vivo. RESULTS: We observed that the neutrophils in Group A exhibited significantly increased phagocytosis and expression of CD11b/CD18 compared with those in Groups B and C. Additionally, our ex vivo studies demonstrated that the mAbs against CD11b/CD18 partially blocked the enhancement of neutrophil phagocytosis in Group A. Moreover, the pHi of uraemic neutrophils is inversely correlated with phagocytosis and expression of CD11b/CD18. CONCLUSIONS: HD patients with a low P(HCO3) exhibited low neutrophil pHi that in turn increased the expression of CD11b/CD18 compared with neutrophils with a normal or high pHi. This increased expression of CD11b/CD18 on the uraemic neutrophils may contribute to the pHi-mediated phagocytosis.     

Effect of radix paeoniae rubra on expression of p38 MAPK/iNOS/HO-1 in rats with lipopolysaccharide-induced acute lung injury

Objective: To investigate the effect of radix paeoniae rubra (RPR) on expression of p38 mitogen activated protein kinase ( MAPK )/iNOS/HO-1 in rats with lipopolysaccharide-induced acute lung injury and explore the molecular mechanism.Methods: Forty healthy male Wistar rats, weighing 200-250 g, aged 6-8 weeks (mean =7 weeks), provided by the Experimental Center, Medical College, Wuhan University, Wuhan, China, were employed in this study.Under anesthesia with 7% chloraldurat (5 ml/kg body weight) through intraperitoneal injection, the trachea of the rat was exposed and an arterial puncture needle pricked into the trachea via cricothyroid membrane. Then they were randomly divided into five groups: 8 rats receiving 1 ml normal saline through the puncture needle (Group A),8 receiving 1 ml lipopolysaccharide (LPS, 2.5 mg/kg,Group B), 8 receiving LPS and RPR (30 mg/kg, pumped through the femoral vein for 2 hours, Group C ), 8 receiving RPR 2 hours before dripping LPS ( Group D),and 8 receiving hemin (75 μmol/L through intraperitoneal injection) 18 hours before dripping LPS (Group E). After 6 hours of LPS dripping, blood samples were obtained through the carotid artery to perform blood gas analysis,then all the rats were exsanguinated to death and specimens of lung tissues were obtained. The pathomorphological changes of the lung tissues were observed. The expression of p38 MAPK/iNOS/HO-1, the neutrophil ratio, protein content in alveolar irrigating solution and malonaldehyde (MDA) content in the lung tissues were also detected.Results: Compared with Group A, the expression of p38 MAPK, iNOS and HO-1 markedly increased in Groups B, C, D, and E (P ＜0.01). But in Groups C, D, and E,the expression of p38 MAPK and iNOS were significantly lower than that of Group B, while expression of HO-1 was obviously higher than that of Group B ( P ＜ 0.05 ). The protein content, the ratio of neutrophils in bronchoalveolar lavage fluid ( BALF), the content of MDA and the activities of serum NO in Group B were significantly higher than those of Group A ( P ＜ 0.01 ). There was a significant decrease in the level of arterial bicarbonate and partial pressure of oxygen in Group B (P ＜ 0.01). Compared with Group B, these indexes of lung injury were significantly lower while the levels of arterial bicarbonate and partial pressure of oxygen increased significantly in Groups C, D,and E (P ＜ 0.05 or P ＜ 0.01 ). Under light microscope, the pathological changes induced by LPS were significantly attenuated by RPR and hemin.Conclusions: The high expression of MAPK plays an important role in lipopolysaccharide-induced acute lung injury. Protective effect of RPR on lipopolysaccharideinduced acute lung injury may be related to the inhibition of the abnormal high expression of p38 MAPK/iNOS/HO-1.     

Hypertonic resuscitation modulates the inflammatory response in patients with traumatic hemorrhagic shock

OBJECTIVE: To determine the effect of resuscitation with hypertonic saline/dextran (HSD) on the innate immune response after injury. SUMMARY OF BACKGROUND DATA: Hypovolemic shock causes a whole body ischemia/reperfusion injury, leading to dysregulation of the inflammatory response and multiple organ dysfunction syndrome. Hypertonicity has been shown to modulate the innate immune response in vitro and in animal models of hemorrhagic shock, but the effect on the inflammatory response in humans is largely unknown. METHODS: Serial blood samples were drawn (12, 24, 72 hours and 7 days after injury) from patients enrolled in a prospective, randomized, double-blind trial of traumatic hypovolemic shock, HSD (250 mL) versus lactated Ringer's solution (LR) as the initial resuscitation fluid. Neutrophil (PMN) CD11b/CD18 expression was assessed via whole blood FACS analysis with and without stimulation (fMLP 5 micromol/L or PMA 5 micromol/L). PMN respiratory burst was assessed using the nitro-blue tetrazolium assay. Monocytes stimulated with 100 ng LPS for 18 hours were assessed for cytokine production (TNF-alpha, IL-1Beta, IL-6, IL-10, IL-12). RESULTS: Sixty-two patients (36 HSD, 26 LR) and 20 healthy volunteers were enrolled. CD11b expression, 12 hours after injury, was increased 1.5-fold in patients resuscitated with LR compared with controls. Those resuscitated with HSD had a significant reduction in CD11b expression 12 hours after injury, compared with LR. There was no difference in respiratory burst early after injury. Monocytes from injured patients expressed lower levels of all cytokines in comparison to normal controls. Patients give HSD showed a trend toward higher levels of IL-1beta and IL10 production in response to LPS, 12 hours after injury. CONCLUSION: HSD resuscitation results in transient inhibition of PMN CD11b expression and partial restoration of the normal monocyte phenotype early after injury.     

Attenuation of shock-induced acute lung injury by sphingosine kinase inhibition

BACKGROUND: Prolonged elevations of cytosolic calcium concentrations ([Ca2+]i) are required for optimal neutrophil (PMN) activation responses to G-Protein coupled chemoattractants. We recently showed that the coupling of endosomal Ca2+ store depletion to more prolonged entry of external Ca2+ depends on cellular conversion of sphingosine to sphingosine 1-phosphate (S1P) by sphingosine kinase (SK). We therefore hypothesized that inhibition of SK might inhibit PMN activation and thus ameliorate lung injury after trauma and hemorrhagic shock (T/HS). METHODS: Chemotaxis (CTX) of human PMN was studied using modified Boyden chambers in the presence or absence of the selective SK inhibitor, SKI-2. After determining the concentration of SKI-2 that inhibited human PMN CTX by 50% (IC50) we subjected rats to T/HS (laparotomy, hemorrhage to 30-40 mm Hg x 90 minutes, 3 hours resuscitation). We then studied rat PMN CD11b expression using flow cytometry and lung injury using the Evans Blue dye technique in the presence of IC50 doses of SKI-2 or vehicle given in pretreatment at laparotomy. RESULTS: Human PMN CTX was suppressed slightly more than 50% by 40 micromol/L SKI-2 (233 +/- 20 vs 103 +/- 12 x 10(3) cells/well, p < 0.001). Rat PMN expression of CD11b after T/HS was decreased from 352 +/- 30 to 232 +/- 7 MFU (p < 0.001) in the presence 30 micromol/L SKI-2. Lung permeability to Evans Blue was decreased from 9.5 +/- 2 to 4.1 +/- 0.7% (p = 0.036.). SKI-2 did not cause hemodynamic instability or alter resuscitation requirements. CONCLUSION: Modulation of PMN Ca entry via SK inhibition inhibits PMN CTX in vitro, and inhibits CD11b expression in vivo without major effects on hemodynamics. These cellular changes were associated with amelioration of lung injury in vivo in a rat model of T/HS. These findings suggest that SK inhibition allows modulation of inflammation via control of [Ca2+]i without the cardiovascular compromise expected with Ca2+ channel blockade. SK inhibition therefore appears to be an important novel candidate therapy for inflammatory organ injury after shock.     

Small volume resuscitation with hypertonic saline is more effective in ameliorating trauma-hemorrhagic shock-induced lung injury, neutrophil activation and red blood cell dysfunction than pancreatitic protease inhibition

BACKGROUND: Recognition of the limitations of standard crystalloid resuscitation has led to the search for alternative resuscitation strategies that might better limit the development of trauma-hemorrhage-induced organ dysfunction and systemic inflammation. Thus, the goal of this study was to compare the effects of two resuscitation strategies alone, and in combination, with those of standard resuscitation with Ringers lactate (RL). The two strategies were small volume resuscitation with hypertonic saline (HTS) and intraluminal inhibition of pancreatic proteases with the serine protease inhibitor nafamostat. METHODS: Male rats were subjected to trauma-hemorrhagic shock (T/HS) or trauma sham-shock (T/SS) and resuscitated with RL, HTS, nafamostat, or the combination of HTS and nafamostat. The T/HS model consisted of a laparotomy plus 90 minutes of shock (MAP 30 mm Hg). Three hours after the end of the shock or sham-shock period, lung permeability, pulmonary neutrophil sequestration, neutrophil activation, red blood cell deformability, and gut injury were assessed. RESULTS: Both HTS and nafamostat reduced T/HS-induced pulmonary permeability and neutrophil sequestration, as well as neutrophil activation as compared with resuscitation with RL. However, HTS was more effective than nafamostat in reducing T/HS-induced acute lung injury and neutrophil activation. Additionally, HTS, but not nafamostat, reduced T/HS-induced RBC rigidification. Lastly, gut injury after T/HS was reduced to the greatest extent by the combination of HTS plus nafamostat. CONCLUSION: Small volume resuscitation with HTS is more effective than RL and nafamostat in limiting T/HS-induced acute lung injury, neutrophil activation and red blood cell injury.     

内毒素性肺损伤外周血中性粒细胞CD11b表达的意义

目的：探讨内毒素血症大鼠外周血中性粒细胞（PMN）表面CD11b表达与内毒素性肺损伤的关系。方法：大肠杆菌E-Coli O111B4 4mg／kg尾静脉注射制备大鼠内毒素血症动物模型。112只大鼠随机分为对照组（静脉注射等量生理盐水）及内毒素注射后1h组、2h组、4h组、8h组、12h组、24h组,每组16只动物。在相应时间点放血处死动物,分别取股静脉血、肺组织及进行支气管肺泡灌洗,测定肺组织湿／干重（W／D）比值、肺组织髓过氧化物酶（MPO）活性和支气管肺泡灌洗液（BALF）总蛋白定量等肺损伤指标。流式细胞仪测定外周血PMN表面CD11b表达。另取16只大鼠,内毒素注射后2h时测定外周血PMN表面CD11b表达,24h时放血处死,测定上述指标。结果：①大鼠内毒素血症可以造成明显的急性肺损伤,表现为肺组织W／D比值、MPO活性和BALF总蛋白明显增高,分别在2h、8h和2h显著高于对照组（P〈0．05或P〈0．01）,峰值分别出现在内毒素注射后12h、24h和12h;②大鼠内毒素性肺损伤时,外周血PMN表面CD11b表达水平在早期（1h）明显升高（与对照组比较,P〈O．05）,在2h达到峰值,之后逐渐降低;③外周血CD11b表达峰值明显早于肺组织W／D比、MPO和BALF总蛋白等肺损伤指标的峰值出现时间;④同一动物2h时外周血PMN表面CD11b的表达水平与其24h时肺组织W／D比、MPO和BALF总蛋白含量呈显著正相关（r分别为0．78、0．77和0．73,P〈0．05）。结论：内毒素性肺损伤中,外周血CD11b表达升高可能有助于内毒素性肺损伤的早期诊断,并可能预示以后的肺损伤程度。     

Store-operated calcium channel inhibition attenuates neutrophil function and postshock acute lung injury

BACKGROUND: A wide variety of neutrophil (PMN) functions are regulated by cytosolic calcium concentration. Calcium channel blockade might therefore decrease postshock inflammation but could also limit important cardiovascular compensations. PMN Ca2+ entry occurs, however, through store-operated calcium entry (SOCE) channels rather than the voltage operated (L-type) channels that regulate cardiovascular tone. We hypothesized that SOCE inhibition might suppress postshock PMN activation, lessening lung injury without compromising cardiovascular performance. METHODS: Human PMNs were treated in vitro with N-propargyl-nitrendipine (MRS1845 [MRS]) a dihydropyridine Ca2+ channel blocker with relative specificity for SOCE channels. Calcium flux was measured by fura fluorescence. Chemotaxis was studied in modified Boyden chambers. Respiratory burst was studied by dihydrorhodamine fluorescence. Exploratory studies were then performed where rats were subjected to trauma and hemorrhagic shock (T/HS) (laparotomy, then hemorrhage to a mean arterial pressure of 30-40 mm Hg for 90 minutes) after pretreatment with MRS or vehicle given intraperitoneally at laparotomy. In vivo PMN CD11b expression was then assayed by flow cytometry and lung injury was assessed as percentage Evans blue dye leak 3 hours after resuscitation. The shed blood volume required to achieve standardized hypotension was measured. RESULTS: In vitro, MRS suppressed human PMN SOCE without affecting calcium store release; it suppressed chemotaxis (60 +/- 6 vs. 150 +/- 15 x 10(3) PMNs/well, p = 0.002) and suppressed respiratory burst (62 +/- 11% vs. 100%, p < 0.05) at IC50 concentrations similar to those needed to suppress SOCE. In subsequent in vivo rat studies, MRS decreased postshock PMN CD11b expression from 397 +/- 93 to 268 +/- 39 MFU mean flourescent units (p < 0.05) and decreased lung Evans blue dye permeability from 8.1 +/- 1.9% to 3.4 +/- 0.1% (p < 0.05). MRS had no noticeable effect on the relationship between blood pressure and blood loss, with shed blood volume remaining almost identical (26 +/- 2 mL/kg vs. 27 +/- 3 mL/kg, p = not significant). CONCLUSION: Modulation of PMN Ca2+ entry by means of selective SOCE channel inhibition attenuates PMN inflammatory responses in vitro. In vivo, SOCE channel blockade attenuates trauma and hemorrhagic shock-induced PMN priming and lung injury without gross evidence of hemodynamic side effects. The relative specificity of SOCE channel blockade for "nonexcitable" cells such as PMNs may make it a valuable form of chemoprophylaxis for the inflammatory consequences of hemorrhagic shock in trauma patients.     

Changes of pulmonary intercellular adhesion molecule-1 and CD11b／CD18 in peripheral polymorphonuclear neutrophils and their significance at the early stage of burns

Objective: To investigate the role of intercellular adhesion molecule-1 (ICAM-1) in the accumulation of polymorphonuclear neutrophils (PMN) in the lungs at the early stage of burns. Methods: Myeloperoxidase content in lung tissues and bronchoalveolar lavage fluid (BALF) were detected.ICAM-1 and its mRNA expression in lung tissues were determined bycal method and in situ hybridization. CD11b/CD18 expression on the peripheral PMNs was measured by flowcytometry. Results : The levels of myeloperoxidase in lung tissues and BALF after burn injury were markedly higher than those of control. Expression of ICAM-1 and its mRNA in the lung tissues and CD11b/CD18 on peripheral PMNs surface was significantly increased at 2, 6, 12, 24 h after burns. Conclusions. PMNs accumulation in the lungs is related to increased ICAM-1 expression on pulmonary microvascular endothelial cells and CD11b/CD18 expression on PMN at the early stage of burn injury.     

Small volume albumin administration protects against hemorrhagic shock-induced bone marrow dysfunction

BACKGROUND: Unexpected immunomodulatory effects of colloids and crystalloids prompted an investigation of albumin's ability to prevent bone marrow (BM) suppression following trauma/hemorrhagic shock (T/HS: laparotomy + MAP 30 for 90 mins). METHODS: In vitro: Normal rat BM was plated for granulocyte-macrophage (CFU-GM) and erythrocyte colony forming units (BFU-E) with 2% v/v plasma from sham (T/SS) or T/HS rats and albumin (2-8 mg/mL). In vivo: Male rats (n = 4/group) were subjected to T/SS or T/HS and resuscitated with shed blood and twice the volume as Lactated Ringer's (LR) or blood and 1, 2, or 3 mL of albumin (50 mg/mL). Bone marrow harvested 3 hours post-resuscitation was plated for CFU-GM and BFU-E. RESULTS: In vitro: T/HS plasma decreased both CFU-GM and BFU-E growth as compared with T/SS, whereas increasing doses of albumin showed dose-dependent improvement in progenitor growth (p < 0.05). In vivo: The suppression of BM red and white cell progenitor growth seen in T/HS+LR rats as compared with T/SS was fully prevented by as little as 1 mL of albumin (p < 0.05). CONCLUSIONS: Small doses of albumin fully restore CFU-GM and BFU-E to sham values. We postulate that the binding of circulating toxic factors by albumin may play a role in this prevention of T/HS-induced BM suppression.     

25% Albumin modulates adhesive interactions between neutrophils and the endothelium following shock/resuscitation

BACKGROUND: Polymorphonuclear neutrophil (PMN) sequestration in the lung is a hallmark of acute respiratory distress syndrome (ARDS). We have shown that 25% Albumin (A25) resuscitation attenuates lung injury after hemorrhagic shock and lipopolysaccharide (LPS) exposure by reducing lung leukosequestration. We hypothesize that this protective property is mediated by alteration of neutrophil-endothelial cell adhesive interactions. MATERIALS AND METHODS: A 2-hit rodent model of shock resuscitation was used. CD11b and L-selectin were measured using flow cytometry in rat and human neutrophils ex vivo. Intercellular adhesion molecule-1 (ICAM-1) levels were measured by Northern blot and immunohistochemistry. RESULTS: Resuscitation with A25 attenuated the increase in PMN CD11b expression in Ringer's lactate (RL) resuscitated animals at end resuscitation and at 4-hour post-LPS. While PMN L-selectin levels remained stable in RL treated animals, A25 resuscitation resulted in a significant decrease in surface L-selectin expression at 4-hour post-LPS. ICAM-1 lung endothelial cell mRNA, was increased in RL resuscitated animals, however reduced with A25 use by 51%. The LPS induced ICAM-1 endothelial cell protein expression was also prevented with A25 resuscitation. Antioxidant property of albumin was shown to play a critical role in altering CD11b expression. CONCLUSIONS: The A25 exerts its lung-protective activity at various levels including altering the interaction between neutrophils and endothelial cells via suppressed expression of adhesion molecules. These findings suggest a novel role for A25 as an anti-inflammatory agent in PMN-mediated diseases such as ARDS.     

Role of integrins and intracellular adhesion molecule-1 in lung injury after intestinal ischemia-reperfusion

BACKGROUND: We tested the hypothesis that lung injury after intestinal ischemia-reperfusion (IR) requires the activation of CD11/CD18 glycoprotein complex and its ligand, intracellular adhesion molecule-1 (ICAM-1), on pulmonary endothelial surface. METHODS: Rats were assigned to one of six groups including sham operation, intestinal IR (60/120 min) and IR plus treatment with one of the following monoclonal antibodies against CD11a, CD11b, CD18, and ICAM-1. Pulmonary microvascular permeability, neutrophil accumulation, and expression of adhesion molecules were evaluated. RESULTS: Intestinal IR resulted in lung injury characterized by a marked increase in microvascular permeability, neutrophil accumulation and upregulated expression of leukocyte integrins and ICAM-1. The increase in pulmonary microvascular permability and neutrophil accumulation elicited by intestinal reperfusion was effectively prevented by administration of blocking antibodies against ICAM-1, CD11, and CD18. CONCLUSIONS: These results indicate that adhesion molecules contribute to the lung injury after intestinal IR. Immunoneutralization of certain of these adhesion molecules may prevent intestinal IR-induced lung injury.     

The effects of hydroxyethyl starch on lung capillary permeability in endotoxic rats and possible mechanisms

In this study we examined the effects of hydroxyethyl starch (HES 200/0.5) on lung capillary permeability in endotoxic rats and explored the possible mechanisms. Male Wistar rats were randomly divided into seven groups treated with saline, lipopolysaccharide (LPS; 6 mg/kg), LPS plus HES (3.75, 7.5, 15, or 30 mL/kg), or HES (30 mL/kg) alone for 4 or 2 h. Lung capillary permeability, lung neutrophil accumulation, expression of CD11b on the blood neutrophil cell surface, lung cytokine-induced neutrophil chemoattractant protein level, and nuclear factor kappa B (NF-kappaB) activation in blood neutrophils and lungs were measured. HES at doses of 3.75 and 7.5 mL/kg significantly reduced LPS-induced increases of lung capillary permeability. HES was found to inhibit lung neutrophil accumulation, cytokine-induced neutrophil chemoattractant protein, and NF-kappaB activation in parallel and to inhibit CD11b expression in a dose-dependent manner. These findings demonstrate that HES has beneficial effects on capillary leak in acute lung injury and that the mechanisms underlying this action involve an antiinflammatory effect of HES, including inhibition of NF-kappaB activation. IMPLICATIONS: A randomized, controlled laboratory experiment indicated that hydroxyethyl starch (HES) could reduce increased lung capillary permeability in endotoxemia. This effect may be due to an antiinflammatory effect of HES.     

Gut injury and gut-induced lung injury after trauma hemorrhagic shock is gender and estrus cycle specific in the rat

BACKGROUND: The purpose of this study was to test the hypothesis that trauma-hemorrhagic shock (T/HS)-induced gut and lung injury is modulated by gender and the stage of the estrus cycle at the time of injury. METHODS: We compared the incidence and magnitude of gut and lung injury in male and female rats subjected to a laparotomy (trauma) followed by 90 minutes of shock (mean arterial pressure, 30 mm Hg) (T/HS) or sham shock. RESULTS: Lung injury and pulmonary neutrophil sequestration as well as gut injury were increased after T/HS in the diestrus female and the male rats, but not in the estrus or proestrus female rats. Although T/HS caused gut and lung injury in the male and the female diestrus rats, the magnitude of injury was less in the female diestrus than in the male rats (p < 0.05). A strong correlation was found between intestinal villous injury and lung injury as well as between gut injury and pulmonary leukosequestration in the female rats subjected to T/HS (p < 0.0001). Plasma nitric oxide levels were approximately two- to threefold higher in the male and the diestrus female rats subjected to T/HS than in other groups (p < 0.05), and a high degree of correlation (r2 = 0.68, p < 0.0001) was found between villous injury and plasma nitric oxide levels. Ileal constitutive nitric oxide synthase (NOS) and inducible NOS (iNOS) activity was measured. Ileal constitutive NOS activity was similar between the groups, but iNOS activity was three- to fourfold higher in the T/HS male rats than in the sham shock or the T/HS proestrus groups (p < 0.01). CONCLUSION: Gender and estrus cycle stage influence susceptibility to T/HS-induced gut and lung injury. This difference in susceptibility to organ injury was associated with increased plasma nitric oxide levels and increased ileal iNOS activity.     

Liposomal antioxidants provide prolonged protection against acute respiratory distress syndrome

BACKGROUND: We have previously shown that N-acetylcysteine (NAC), an antioxidant, in the resuscitation fluid after shock prevents lung injury in response to lipopolysaccharide (LPS) by inhibiting chemokine generation by alveolar macrophages in the lung. However, the protection was short-lived. We hypothesized that liposomal (Lip) NAC delivered intratracheally might be delivered directly to the target cells and exert prolonged effect. METHODS: Sprague-Dawley rats were bled to a blood pressure of 40 mm Hg for 1 hour and resuscitated with shed blood and equal volume of Ringer's lactate. In some studies 500 mg/kg NAC was included in the resuscitation fluid. Thirty minutes later, 150 microl LipNAC (9.4 mg/kg NAC) was given intratracheally. One hour and 18 hours after resuscitation, LPS (30 microg/kg) or saline was given intratracheally. Lung injury was assessed by permeability to (125)I-albumin, bronchoalveolar lavage neutrophils and lung myeloperoxidase. The cytokine-induced neutrophil chemoattractant (CINC) expression in the lung was assessed by Northern blot. RESULTS: At the early time point, both NAC and LipNAC protected the lung with the effects in significantly reducing the increases in transpulmonary albumin flux, neutrophil influx and myeloperoxidase in the lungs of shock/LPS rats. However, by the late time point, only LipNAC retained its salutary effect. This correlated well with persistent ability to prevent CINC increase. In addition, Lipalpha-tocopherol (alpha-T) and LipNAC/alpha-T were tested and determined to be effective to protect the lung. CONCLUSIONS: Liposomal encapsulation of antioxidants at low dose provides long lasting protection against acute respiratory distress syndrome after shock. This may represent a novel treatment approach.     

L-肉碱在奥硝唑所致大鼠睾丸和附睾损伤中的保护作用

目的:探讨L-肉碱(LC)在奥硝唑(ORN)所致大鼠附睾和睾丸损伤中的的保护作用。方法:40只雄性SD大鼠(200～230g)随机均分为5组:①A组:给予0.5%的羧甲基纤维素钠(溶剂)灌胃;②B组:每天给予400mg/kgORN灌胃;③C组:每天给予800mg/kgORN灌胃;④D组:每天给予[ORN(400mg/kg)+LC(100mg/kg)]灌胃;⑤E组:每天给予[ORN(800mg/kg)+LC(100mg/kg)]灌胃。上述各组均连续灌胃20d,末次给药24h后,所有大鼠麻醉后处死,分别取睾丸、附睾,进行称重和HE染色,计算睾丸、附睾系数并观察睾丸和附睾病理组织学改变。结果:①与A组相比,B组睾丸、附睾系数明显降低(P<0.05);而C组睾丸、附睾系数为极显著性降低(P<0.01);D组与A组相比无差异,E组与A组相比有极显著性差异(P<0.01);②HE染色显示,与A组相比,B组睾丸生精小管内各级生精细胞排列基本整齐,部分生精小管管腔内有脱落的生精细胞,附睾管腔中精子数目下降,有时可见散在的生精细胞;C组大鼠睾丸生精小管管腔内均可见坏死脱落的生精细胞,附睾管腔中精子数目明显减少,且有较多的非精子细胞成分。D组睾丸生精小管无明显改变,附睾管腔中精子数目也未见明显下降;E组睾丸生精小管管腔内精子数目减少,可见坏死脱落的生精细胞,附睾腔中精子数目明显减少,并伴有较多的非精子细胞成分。结论:奥硝唑(ORN)可导致雄性大鼠附睾和睾丸病理组织学改变,LC对ORN引起大鼠附睾和睾丸损伤具有一定的保护作用。     

"Small volume resuscitation" in hypovolemic rats. Effects on microcirculation

BACKGROUND: Numerous publications have analysed the hemodynamic effects of "small volume resuscitation" during the initial phases of hemorrhagic shock. Nevertheless nowadays the information about microcirculatory effects are poor. The aim of this study was to estimate the change of tissue perfusion in hypovolemic rats, before and after infusion of Ringer's lactate (RL), hypertonic saline solution (HS) or blood. METHODS: Mesocecal microcirculation was visualized by intravital microscopy during 30 minutes of hemorrhagic hypovolemia (MAP, mean arterial pressure of 40 mmHg) and subsequent reinfusion period. Rats were resuscitated with RL (shed volume), HS (one-seventh of the shed volume), or blood (shed volume). The perfusion was estimated through speed of red blood cells. Moreover MAP, pH and B.E. was measured. RESULTS: Thirty minutes after hemorrhage a very important decrease of capillary flow was noticed and in lesser quantity, of the flow in arterioles and venules. The RL infusion did not cause measureable changes of microcirculatory blood flows. The HS infusion caused an improvement in the flow of arterioles and venules but not in capillaries. The blood infusion caused a progressive improvement in the flow of arterioles, venules and capillaries, however at slightly lower values than previous hemorrhage. CONCLUSIONS: Neither RL nor HS seem as efficient as blood to restore the microcirculatory blood flow in the mesocecum of the rats submitted to hemorrhagic hypovolemia.