Serum collagen type VI and XIV and hyaluronic acid as early indicators for altered connective tissue turnover in alcoholic liver disease.

Hepatic fibrosis in alcoholic liver disease often heralds progression to cirrhosis and, therefore, noninvasive parameters are required for early diagnosis and follow-up. Collagens VI and XIV, procollagen-III-N-propeptide, hyaluronic acid, and active transforming growth factor-beta1 (TGF-beta1) were measured in healthy volunteers, patients with alcoholic cirrhosis, and heavy drinkers without cirrhosis. Noncirrhotic alcoholics were assigned to two groups with either normal aspartate aminotransferase or levels > or = 2 normal. Collagens VI and XIV were elevated in all alcoholic patients compared to controls (P < 0.0001, all instances). Procollagen-III-N-propeptide and hyaluronic acid levels were higher in alcoholic patients with elevated liver enzymes and in cirrhotics as compared to controls. Procollagen-III-N-propeptide revealed a significant correlation with serum levels of TGF-beta1 (P < 0.0001). Collagens VI, and XIV, procollagen-III-N-propeptide, and hyaluronic acid appear to be sensitive markers indicating fibrotic transformation in alcoholics. The correlation between procollagen-III-N-propeptide and TGF-beta1 emphasizes its role in hepatic fibrogenesis.

Endocannabinoids acting at vascular CB1 receptors mediate the vasodilated state in advanced liver cirrhosis.

Advanced cirrhosis is associated with generalized vasodilation of unknown origin, which contributes to mortality. Cirrhotic patients are endotoxemic, and activation of vascular cannabinoid CB1 receptors has been implicated in endotoxin-induced hypotension. Here we show that rats with biliary cirrhosis have low blood pressure, which is elevated by the CB1 receptor antagonist SR141716A. The low blood pressure of rats with CCl4-induced cirrhosis was similarly reversed by SR141716A, which also reduced the elevated mesenteric blood flow and portal pressure. Monocytes from cirrhotic but not control patients or rats elicited SR141716A-sensitive hypotension in normal recipient rats and showed significantly elevated levels of anandamide. Compared with non-cirrhotic controls, in cirrhotic human livers there was a three-fold increase in CB1 receptors on isolated vascular endothelial cells. These results implicate anandamide and vascular CB1 receptors in the vasodilated state in advanced cirrhosis and indicate a novel approach for its management.

Endotoxin, endotoxin-neutralizing-capacity, sCD14, sICAM-1, and cytokines in patients with various degrees of alcoholic liver disease.

BACKGROUND: Chronic alcohol ingestion leads to endotoxemia which is believed to play an important role in the pathogenesis of alcoholic liver disease (ALD). The purpose of this study was to determine if chronic ethanol consumption, in addition to affecting plasma endotoxin and cytokines, also affects the endotoxin-neutralizing capacity (ENC), sCD14, and sICAM-1, in patients with ALD. A second aim was to identify correlations between these latter parameters, endotoxin, and cytokines, especially IL-10. METHODS: Hospitalized patients with various degrees of ALD (n = 59), and 20 healthy volunteers were studied. Plasma endotoxin and ENC were determined using our kinetic Limulus amebocyte lysate test. Cytokines, sCD14, and sICAM-1 were measured by enzyme-linked immunosorbent assay. RESULTS: Patients with ALD exhibited a mild endotoxemia (p < 0.01) and a marked decrease in ENC (p < 0.0002). TNF-alpha (p < 0.05), IL-6 (p < 0.0001), sICAM (p < 0.005), and sCD14 (p < 0.0005) were significantly elevated in all patients with ALD, and IL-10 (p < 0.05) in patients with cirrhotic ALD. With the exception of IL-10, the cytokines correlated with each other and with sICAM-1. No correlations occurred between endotoxin, ENC, and sCD14, and between these and the cytokines and sICAM-1. Elevated levels of endotoxin correlate with acute excessive alcohol ingestion. No gender differences were observed. CONCLUSIONS: Acute alcohol intoxication rather than severe ALD results in significant endotoxemia. The limited capacity of plasma to neutralize endotoxin in liver injury seems to be an important factor in ALD which may be responsible for the release of endotoxin-induced mediators, such as cytokines, as well as s-ICAM-1, that are relevant in the pathogenesis of ALD.

Intramucosal pH and liver endotoxin clearance during experimental liver transplantation.

The study was designed to assess the gastrointestinal ischaemia and the influence of the specific Kupffer cell toxin gadolinium chloride (GdCl3) on the hepatic and extrahepatic endotoxin [lipopolysaccharide (LPS)] clearance during experimental orthotopic liver transplantation (OLT) in pigs. In eight pig liver transplantations, the donors received 20 mg/kg of GdCl3 24 h before explantation, while controls (n = 8) received normal saline. Gastric and sigmoid intramucosal pH (pHi), LPS and endotoxin-neutralising capacity (ENC) levels were measured in the portal vein and superior vena cava after laparatomy, at the end of the anhepatic phase and 1 h after reperfusion. During the anhepatic phase, the sigmoid pHi decreased significantly from 7.32 +/- 0.02 to 7.29 +/- 0.03 (P < 0.001) and was associated with a substantial increase of portal LPS. Following reperfusion, the systemic LPS concentrations were significantly lower in the pretreated group [39 +/- 23 pg/ml (Control); 14 +/- 7 (GdCl3); P < 0.05] suggesting an improved liver LPS clearance [86% (GdCl3); 58.2% (Control); P < 0.05]. This corresponded to an increased ENC in the pretreated group [118 +/- 52 ENU/ml (GdCl3) vs 81 +/- 45 ENU/ml (Control); P < 0.05]. The anhepatic phase induced splanchnic ischaemia which correlated with portal endotoxaemia. Donor preconditioning with GdCl3 leads to lower systemic LPS concentrations in the recipient and increases ENC values in the early phase after OLT. An improved hepatocellular LPS extraction and/or an activation of the extrahepatic reticulo-endothelial system as a result of GdCl3 treatment is discussed.

Biliary obstruction exacerbates the hepatic microvascular inflammatory response to endotoxin.

Gram-negative sepsis is a serious complication for patients with obstructive jaundice. The present study was conducted to elucidate the response of hepatic microcirculation to endotoxin 2 weeks after bile duct ligation (BDL) or sham-operation in rats. Two hours after lipopolysaccharide (LPS) injection (1, 10, or 100 microg/kg, iv.), the hepatic microvasculature was examined using in vivo microscopy. BDL elicited increases in leukocytes adhering to the sinusoidal wall, swelling of sinusoidal endothelial cells as well as phagocytic activity of hepatic macrophages and a decrease in the numbers of perfused sinusoids. LPS (1, 10, 100 microg/kg) further increased leukocyte adhesion and reduced the numbers of perfused sinusoids in a dose-dependent manner. Leukocyte adhesion in response to LPS (1, 10, 100 microg/kg) in BDL rats was increased 6.1-fold, 5.9-fold, and 3.3-fold, respectively when compared with sham-operated rats. The numbers of perfused sinusoids in response to LPS (1, 10, 100 microg/kg) in BDL rats were decreased by 42%, 36%, and 45%. While 1 and 10 microg/kg LPS also elicited an increase in phagocytic activity in BDL rats when compared with sham-operated rats, the response to 100 microg/kg LPS was suppressed. LPS did not affect the numbers of swollen endothelial cell in BDL rats. The present study demonstrated that chronic biliary obstruction enhanced the hepatic microvascular response to low doses of endotoxin. This observation suggests that exaggerated hepatic microcirculatory dysfunction during sepsis contributes to the development of liver injury and a high incidence of morbidity and mortality in biliary obstruction.

Inflammatory consequences of the translocation of bacteria and endotoxin to mesenteric lymph nodes.

BACKGROUND: Translocation of intestinal bacteria to mesenteric lymph nodes (MLNs) has been documented in humans under a variety of circumstances, yet its clinical significance remains to be established. The aim of this study was to correlate detectable translocation to MLNs of bacteria and endotoxin with local and systemic signs of inflammation. METHODS: From each of 10 patients with carcinoma of the cecal region two MLNs were harvested prior to resection. The presence of bacteria and endotoxin in the lymphatic tissue and blood was determined by culture methods and DNA preparation (PCR) and by a Limulus assay, respectively. Inflammatory mediators were determined in plasma and in MLN homogenates. RESULTS: Viable bacteria were detected in MLNs of 7 patients and in 9 of 20 lymph nodes. PCR revealed traces of bacteria in 4 patients and in 6 of their MLNs. Combining both modalities, the translocation rate was 80% and 55% for patients and MLNs, respectively. There was no detectable bacteremia. Endotoxin was found in the plasma of 7 patients and in 9 MLNs from 5 patients. There was no correlation between culture findings and endotoxin concentrations. Moreover, bacteriological data did not correspond to local or systemic inflammation. The group of MLN with detectable endotoxin differed significantly from LPS-negative nodes with respect to interleukin-6, interleukin-10, and sCD14. Systemic concentrations of endotoxin and inflammatory parameters did not correspond to levels within MLNs. CONCLUSION: Translocation to MLNs occurs in patients with cecal carcinoma. This, however, seems not to be of major clinical significance if no additional physiologic insults are encountered. Irrespective of the presence of bacteria, there are variations in inflammatory reactions between lymph nodes from one and the same patient, probably reflecting fluctuating response mechanisms to low-grade translocation.

Impact of endothelin-1 in endotoxin-induced pulmonary vascular reactions.

OBJECTIVES: Elevated endothelin-1 (ET-1) levels have been detected during sepsis. The aim of the study was to examine the role of thromboxane A2 (TXA2) and ET-1 in pulmonary vascular reactions after endotoxin (LPS) challenge. DESIGN: Prospective experimental study in rabbits. SETTING: Experimental laboratory in a university teaching hospital. SUBJECTS: Twenty-four adult rabbits of either sex. INTERVENTIONS: Experiments were performed on 30 isolated and ventilated rabbit lungs, which were perfused with a saline solution containing 10% autologous blood. MEASUREMENTS AND MAIN RESULTS: Pulmonary arterial pressure and lung weight gain were continuously registered. Perfusate samples were drawn intermittently to determine ET-1, TXA2, and prostacyclin (PGI2) concentrations. LPS isolated from Escherichia coli (0.5 mg/mL; n = 6) was added to the perfusate. A marked pulmonary arterial pressure increase followed by massive edema formation after 60 mins was observed after LPS injection. At the same time, elevated TXA2 and PGI2 levels in the perfusate were measured. ET-1 was detected 30 mins after LPS infusion (13.4+/-2.6 fmol/L). Pretreatment with the ET(A) receptor antagonist LU135252 (10(-6) M; n = 6) almost completely suppressed the pressure reaction after endotoxin injection (p < .01 at 50 and 60 mins) and reduced edema formation (p < .05). The cyclooxygenase inhibitor diclofenac (10 microg/mL; n = 6) was as effective as LU135252 in preventing vascular reactions after LPS injection. CONCLUSIONS: Pretreatment with the ET(A) receptor antagonist LU135252 and the cyclooxygenase inhibitor diclofenac reduced pulmonary vascular reactions after LPS challenge. Based on the current data, we conclude that the pulmonary arterial pressure increase and edema formation after LPS injection are related to an ET-1- and TXA2-dependent mechanism.

Endothelin-1 impairs neutrophil respiratory burst and elimination of Escherichia coli in rabbits.

OBJECTIVE: During systemic inflammation, elevated levels of endothelin (ET)-1 have been reported. The aim of this study was to investigate the effects of ET-1 on neutrophil (PMN) respiratory burst, phagocytosis, and elimination of Escherichia coli from blood and tissues. DESIGN: Prospective, randomized, controlled trial. SETTING: Experimental laboratory in a university hospital. SUBJECTS: A total of 18 female chinchilla rabbits. INTERVENTIONS: To quantify the clearance process, defined numbers (10(8) colony-forming units) of E. coli were injected intravenously into anesthetized rabbits, 60 mins after onset of continuous 0.2 microg/kg/min ET-1 administration (n = 9) and after saline infusion (control group, n = 9), respectively. To evaluate potential effects of ET-1 on bacterial elimination and killing, blood clearance of E. coli and colonization of different organs were investigated. MEASUREMENTS: Variables monitored were neutrophil respiratory burst and phagocytosis activity, rates of bacterial elimination from the blood, arterial blood pressure, blood gases, serum lactate concentrations, and nitrite and nitrate levels. The animals were killed 3 hrs after bacterial injection and tissue samples of liver, kidney, spleen, and lung were collected for bacterial counts. MAIN RESULTS: Compared with the control group, ET-1 significantly impaired PMN respiratory burst (p < .05) and prolonged elimination of injected E. coli from the blood (p < .01), whereas phagocytosis functions remained unaltered. The reduced PMN burst activity after ET-1 was associated with a higher bacterial colonization of all organs (lung, p < .01; spleen, p < .05). Endothelin-1 induced increases in mean arterial pressure (p < .01) and serum lactate concentrations, whereas nitrite and nitrate levels remained unaltered. CONCLUSION: Endothelin-1 impairs respiratory burst and bacterial clearance from the blood and tissue. Thus, elevated levels of ET-1 during sepsis could induce organ hypoperfusion and cause disturbances in immune functions, increasing the risk of bacterial infections.

Pentoxifylline improves bacterial clearance during hemorrhage and endotoxemia.

OBJECTIVE: The aim of this study was to investigate whether the methylxanthine-derivative pentoxifylline (PTX) affects bacterial clearance of the organism in states of hemorrhage and endotoxemia. DESIGN: Prospective, randomized, controlled trial. SETTING: Experimental laboratory in a university hospital. SUBJECTS: Fifty-four female chinchilla rabbits. INTERVENTIONS: To quantify the clearance process, defined numbers (10(7) CFO) of Escherichia coli bacteria were injected intravenously into anesthetized rabbits, 60 mins after induction of hemorrhage (n = 9 + 3) or infusion of endotoxin (lipopolysaccharide [LPS]; 40 microg/kg/hr; n = 9 + 3) and after saline infusion (control; n = 9), respectively. Hemorrhage was induced by bleeding, standardized by defined reduction of mean arterial pressure (30% of baseline value). To evaluate the potential effects of PTX on bacterial elimination and killing, in states of hemorrhage and endotoxemia, blood clearance of E. coli and colonization of different organs were investigated after pretreatment with PTX (30 mg/kg) as a bolus injection followed by continuous infusion of PTX (50 mg/kg/hr) in hemorrhagic (n = 9) and endotoxemic rabbits (n = 9). Three additional experiments were performed to evaluate the effects attributable to PTX itself. MEASUREMENTS AND MAIN RESULTS: Parameters monitored were rates of bacterial and LPS elimination from the blood, arterial blood pressure, blood gases, and serum lactate concentrations. Additionally, flow cytometric analysis of respiratory burst activity was performed. Three hours after bacterial injection, the animals were killed, and tissue samples of liver, kidney, spleen, and lung were collected for bacteriologic examinations. Compared with the controls, hemorrhage and endotoxemia resulted in a significantly prolonged elimination of injected E. coli from the blood. The delayed blood clearance was associated with a significantly (p < .01) higher bacterial colonization of all organs, which was most pronounced in the lung. Pretreatment with PTX slightly enhanced blood clearance of E. coli as well as of LPS, and significantly reduced (p < .05) the colonization of lung and kidney after hemorrhage and endotoxemia. Furthermore, PTX suppressed polymorphonuclear neutrophil respiratory burst activity. CONCLUSIONS: Hemorrhage and endotoxemia induce impaired bacterial clearance from blood and tissue. Treatment with PTX may reduce the risk of bacterial infections by attenuating bacterial colonization of organs in states of hemorrhage and endotoxemia.

Effects of intravenous anesthetics on bacterial elimination in human blood in vitro.

BACKGROUND: Since anesthetics are widely used in critically ill patients, this study investigates anesthetic effects on neutrophil and monocyte function concerning bacterial elimination in human whole blood. METHODS: The effects of thiopental (20 and 200 microg/ml), propofol (5 and 50 microg/ml), midazolam (0.15 and 1.5 microg/ml) and ketamine (3 and 30 microg/ml) on elimination of Escherichia (E.) coli from whole blood were investigated in vitro after incubation for 1 h in both clinical (1) (n=10) and 10-fold higher (h) (n=11) concentrations. These data were compared to neutrophil and monocyte phagocytosis (1; n=6) and burst activity (1; n=10, h; n=11), measured by flow cytometry. To enable quantification of the clearance process, a defined number of 10(5) colony forming units of E. coli were added to the blood assays and bacterial growth was determined. RESULTS: All anesthetics delayed bacterial clearance from the blood in the 10-fold concentration (P<0.05). Thiopental (1+h) and propofol (h) suppressed neutrophil (59+/-3% and 38+/-6%) and monocytic (45+/-6% and 30+/-11%) oxidative burst (P<0.01). Phagocytosis was reduced even after propofol (1) in polymorphonuclear leukocytes (PMN) (34+/-9%; P<0.05) and monocytes (35+/-11%). Ketamine (h) prolonged bacterial elimination (P<0.01), which did correlate with inhibition of monocytic phagocytosis, by 26+/-14%. Midazolam application (h) resulted in an inhibition of PMN-respiratory burst by 19+/-6% (P<0.05) and impaired bacterial clearance (P<0.05). CONCLUSION: Thiopental, propofol, midazolam and ketamine affect E. coli clearance and neutrophil and monocyte oxidative burst and phagocytosis in vitro only in high concentrations, while thiopental inhibited monocytic burst and propofol impaired PMN phagocytosis even in clinically used concentrations. These data suggest that i.v. anesthetics in concentrations recommended for general anesthesia seem to have minor influence on the investigated host defense mechanisms.

[Effects of human i.v. immunoglobulin on bacterial clearance and granulocyte function in endotoxinemia]. / Effekte von humanem i.v. Immunglobulin auf die Bakterien-Clearance und Granulozytenfunktion bei Endotoxinämie.

PURPOSE: The therapeutic impact of intravenous immunoglobulins (ivIG) in septic patients remains controversial. Until now, the mechanisms of action have not been fully elucidated. Since polymorphonuclear neutrophils (PMN) play a key role in host defence, this study focuses on the effects of ivIG on bacterial clearance and PMN respiratory burst activity during endotoxinaemia. For this purpose, it was investigated whether ivIG improves blood clearance and organ colonisation as well as PMN functions after experimentally induced bacteraemia in rabbits. METHODS: The experiments were performed in 30 anaesthetised rabbits. To determine quantification of bacterial killing in vivo, defined numbers of exogenous Escherichia (E.) coli 1.3 x 10(8) CFU) were injected intravenously in untreated animals (n = 10) or 60 min after infusion of endotoxin (LPS: 40 micrograms/kg/h) in groups without (n = 10), and after pretreatment with ivIG (Sandoglobulin, 0.5 g/kg body weight, n = 10), respectively. Parameters monitored were rates of bacterial elimination from the blood, LPS clearance, arterial pressure, blood gases and white blood cell counts, PMN burst activity was determined using a flow cytometry assay. Samples of liver, kidney, spleen and lung were collected for bacterial counts 180 min following E. coli injection. RESULTS: Compared to controls, endotoxinaemia resulted in a prolonged elimination of the injected E. coli out of the blood associated with a significantly (p < 0.01) higher colonisation of all organs. Pretreatment with ivIG improved LPS clearance and significantly reduced bacterial colonisation of lung and kidney (p < 0.01). This was paralleled by an enhanced PMN respiratory burst activity compared to untreated animals (p < 0.05). CONCLUSION: The reduced bacterial colonisation of lung and kidney in correlation with an increased PMN bactericidal activity in endotoxinaemia suggest an improved granulocyte-dependent bacterial killing due to ivIG application.

The microcirculation during endotoxemia.

The initial responses to endotoxemia are detectable in the microcirculation as a microvascular inflammatory response characterized by activation of the endothelium stimulating these cells from their normal anticoagulant state to a procoagulant state with increased adhesiveness for leukocytes and platelets. Concomitantly, arteriolar tone is lost and reactivity to a variety of agonists is modified. Tissue damage subsequently results not only from reduced perfusion of the exchange vessels, but also from injurious substances released from activated, sequestered leukocytes as well as activated endothelial cells, macrophages, and platelets. This is the result of endotoxins inducing activation and interaction of a number of effector cells, cascades, and acute-phase responses, such as the complement, coagulation, bradykinin/kinin, and hematopoietic systems accompanied by the release of a myriad of mediators. These include eicosanoids, cytokines, chemokines, adhesion molecules, reactive free radicals, platelet-activating factor, and nitric oxide. This paper briefly reviews the microvascular responses to endotoxemia and discusses some of the mechanisms involved.

Potential transfer of endotoxin across high-flux polysulfone membranes.

It has been postulated that synthetic membranes, such as polysulfone membranes, are rather impermeable for endotoxin or endotoxin fragments and can be used for sterile filtration of dialysate. It has never been investigated, however, whether endotoxin permeability may be different in commercially available polysulfone membranes. In vitro, we found a significantly different permeability for endotoxin in two standard dialyzers and one test dialyzer with high-flux polysulfone membranes. In contrast to the F-60 dialyzer with a very low permeability for endotoxin, a stepwise increasing load of endotoxin concentration in the dialysate compartment of the PN 1913 test dialyzer and Primus 1350 polysulfone dialyzer was followed by a stepwise increase of endotoxin in the blood compartment. A significant transfer across the membranes was found when the endotoxin concentration in the dialysate compartment was > 10 ng/mL in the PN 1913 and > 0.5 ng/mL in the Primus 1350. In the latter, about 0.5% of the endotoxin concentration of the dialysate compartment was found in the blood compartment. The data suggest that manufacturers have to evaluate the performance and other properties of their synthetic membranes in detail.

Effect of immunoglobulin G on the hepatic microvascular inflammatory response during sepsis.

The effects of intravenous immunoglobulin G (ivIG) on the hepatic microvascular inflammatory response to sepsis were studied in rats by in vivo microscopy. High doses of ivIG (300 mg/kg bw) (Sandoglobulin or rat IgG) significantly improved the 48 h survival of septic rats from 25-66% when ivIG was given before or immediately after cecal ligation and puncture. Circulating endotoxin also was significantly reduced. Eight hours after inducing sepsis, the average number of leukocytes adhering to the sinusoidal endothelium increased 15-fold and the average decrease in the number of perfused sinusoids was 22%. IvIG administration minimized these responses. In both septic and nonseptic animals, ivIG also reduced the phagocytic activity of Kupffer cells. The results suggest that high doses of ivIG not only reduce lethality but also limit hepatic microcirculatory dysfunction during sepsis by minimizing leukocyte-endothelial interactions that may be a result of reducing circulating endotoxin and modifying Kupffer cell function.

[Endotoxinemia and multiple organ failure after polytrauma]. / Endotoxinämie und Multiorganversagen nach Polytrauma.

Despite successful management of early complications in polytraumatized patients and obvious reduction of early death, lethality in the late course of the disease--frequently as a result of multiple organ failure (MOF)--remains generally unaffected. Concerning the pathogenesis of sepsis and MOF, there is some evidence that a central role is played by endotoxin. A series of 32 patients with severe polytraumatic injury (Hannover Polytrauma Score > 20 points) comprised the study group. Endotoxin was measured hourly over the first 24 hours. The first measuring point was four hours after injury at the latest. Endotoxin levels were determined by a quantitative turbidimetric limulus assay. The Goris MOF score reached between the 8th and 10th day after injury was used for evaluation of the severity of MOF. Thirty of the 32 patients showed episodes of endotoxemia during the measuring period. There was a strong correlation between observed endotoxin peak concentrations, on the one hand, and outcome as well as positive predictive value (PPV) concerning development of MOF, on the other hand. If the peak concentration was greater than 10 pg/ml, the PPV reached 100%. No patient survived a peak concentration greater than 12 pg/ml. Endotoxemia during the early phase after polytraumatic injury is a frequent phenomenon. It appears to be possible that measurement of endotoxin peak concentration during the early phase gives some indication of the development of MOF and the outcome of these patients.

Pathophysiologic features of a pneumoperitoneum at laparoscopy: a swine model.

OBJECTIVE: The aim of this study was to examine local and systemic reactions of the body to a pneumoperitoneum to elucidate potential dangers and risks of laparoscopic procedures. STUDY DESIGN: Laparoscopy was performed on 25 pigs. The pigs were divided into five groups by level of intraabdominal pressure (14 and 18 mm Hg) and gas used (carbon dioxide and air). The effects of the pneumoperitoneum on cardiopulmonary condition and the peritoneal milieu were observed. These effects should be the result of various changes as the mechanical, ventilatory, cellular, hormonal, and immunologic levels. RESULTS: In this animal study marked changes in the peritoneal milieu were observed, and we demonstrated that these changes were dependent on the gas used, intraabdominal pressure, and duration of application. Locally these changes are manifest in the development of severe peritoneal acidosis, hypercapnia, and the release of various mediators. Systemic changes, in particular cardiopulmonary changes, also depend on the intraabdominal pressure and the gas used. CONCLUSION: During conventional pneumoperitoneum the peritoneum might change to a large extent so that the development of new risks are possibly encouraged. A reduction in intraabdominal pressure with the use of carbon dioxide as the insufflation gas should result in normal acid-base balance.

Ethanol exacerbates hepatic microvascular dysfunction, endotoxemia, and lethality in septic mice.

The effect of acute ethanol administration on the hepatic microvascular responses to sepsis was studied. Polymicrobial sepsis was induced 30 min after mice had received ethanol (1 g/kg b.w.) or isocaloric maltose-dextrin by gastric gavage. Lethality within 24 h was 91.7% in the ethanol-treated animals and 40.0% in septic controls. Endotoxin levels in ethanol treated animals were 107 pg/ml at 6 hr and 1205 pg/ml at 12 h, compared with 32 pg/ml and 104 pg/ml, respectively in the controls. In vivo microscopy revealed that at 3 h in the ethanol treated septic animals, Kupffer cell phagocytic activity was increased by 41%, whereas the number of sinusoids containing blood flow were reduced by 34% concomitant with a 144% increase in the adherence of leukocytes to the sinusoidal walls when compared with the septic controls. By 6 h, however, Kupffer cell phagocytic activity was reduced by 48% in the ethanol treated animals; this was accompanied by a further deterioration in sinusoidal blood flow. Thus, a small, acute dose of ethanol causes significant impairment of the hepatic microcirculation followed by suppression of Kupffer cell activity. This results in exacerbation of endotoxemia and lethality during polymicrobial sepsis.

[Detection of endotoxin in plasma: specificity and value for development and prognosis of infection]. / Endotoxinnachweis im Plasma: Spezifität und Aussagekraft für Entwicklung und Prognose einer Sepsis.

A number of problems may be involved in the detection of endotoxin in plasma of patients using LAL (Limulus amebocyte lysate). When collecting blood or processing samples, contamination with endotoxin or its adsorption to material must be avoided. In our laboratory a kinetic LAL microtiter assay was developed that takes into account plasma-related interferences with the LAL endotoxin reaction by performing an internal standardization in each sample. Negative results do not absolutely exclude the involvement of endotoxins in the underlying disease. High levels of endotoxins do not necessarily reflect the severeness of the clinical status of the patient. Due to nonendotoxin-specific reactions with some complete lysates, false-positive levels may result, e.g., following immunoglobulin therapy. In spite of these limitations, the LAL test remains a valuable tool in the evaluation of gram-negative infections.

Isoniazid protects mice against endotoxin lethality without influencing tumor necrosis factor synthesis and release.

Treatment of NMRI mice with isoniazid (INH; 25 mg/kg) intraperitoneally induced significant protection when it was injected before or after a lethal intravenous challenge with endotoxin. The INH preparation used was not contaminated with endotoxin. Tumor necrosis factor (TNF) was not elevated in sera from NMRI mice 2 h after the injection of INH. INH did not influence TNF synthesis or release determined in human monocytes in vitro. Therefore, it is concluded that the protective effect of INH against lethal endotoxin is not due to a suppressive effect of INH on TNF production.