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1. Angiotensin II type 2 receptor agonist Compound 21 attenuates pulmonary inflammation in a model of acute lung injury

Author

Menk M, Graw JA, von Haefen C, Steinkraus H, Lachmann B, Spies CD, and Schwaiberger D

Subjects
AT2 receptor, lung failure, ARDS, acute lung injury, Compound 21 (C21), Pathology, RB1-214, Therapeutics. Pharmacology, RM1-950
Abstract

Mario Menk, Jan Adriaan Graw, Clarissa von Haefen, Hendrik Steinkraus, Burkhard Lachmann, Claudia D Spies, David Schwaiberger Department of Anesthesiology and Operative Intensive Care Medicine, Charité – University Medicine Berlin, FreieUniversität Berlin, Humboldt-Universitätzu Berlin, and Berlin Institute of Health, Germany Purpose: Although the role of the angiotensin II type 2 (AT2) receptor in acute lung injury is not yet completely understood, a protective role of this receptor subtype has been suggested. We hypothesized that, in a rodent model of acute lung injury, stimulation of the AT2 receptor with the direct agonist Compound 21 (C21) might have a beneficial effect on pulmonary inflammation and might improve pulmonary gas exchange. Materials and methods: Male adult rats were divided into a treatment group that received pulmonary lavage followed by mechanical ventilation (LAV, n=9), a group receiving pulmonary lavage, mechanical ventilation, and direct stimulation of the AT2 receptor with C21 (LAV+C21, n=9), and a control group that received mechanical ventilation only (control, n=9). Arterial blood gas analysis was performed every 30 min throughout the 240-min observation period. Lung tissue and plasma samples were obtained at 240 min after the start of mechanical ventilation. Protein content and surface activity of bronchoalveolar lavage fluid were assessed and the wet/dry-weight ratio of lungs was determined. Transcriptional and translational regulation of pro- and antiinflammatory cytokines IL-1β, tumor necrosis factor-alpha, IL-6, IL-10, and IL-4 was determined in lungs and in plasma. Results: Pulmonary lavage led to a significant impairment of gas exchange, the formation of lung edema, and the induction of pulmonary inflammation. Protein content of lavage fluid was increased and contained washed-out surfactant. Direct AT2 receptor stimulation with C21 led to a significant inhibition of tumor necrosis factor-alpha and IL-6 expressions in the lungs, whereas the expressions of IL-1, IL-10, and IL-4 remained unchanged. During the 240-min observation period, AT2 receptor stimulation did not improve pulmonary gas exchange or lung edema. Conclusion: In this rodent model of acute lung injury after repeated pulmonary lavage, AT2 receptor stimulation attenuates pulmonary inflammation but does not improve gas exchange. Keywords: AT2 receptor, lung failure, ARDS, acute lung injury, Compound 21 (C21)

Published
2018

2. Minimal factor XIII activity level to prevent major spontaneous bleeds

Author

Menegatti, M., Palla, R., Boscarino, M., Bucciarelli, P., Muszbek, L., Katona, E., Makris, M., Peyvandi, F., Halimeh, S., Lachmann, B., Bidlingmaier, C., Platokouki, H., Pergantou, H., Siboni, S.M., Schutgens, R.E.G., Borhany, M., Fatima, N., Mikovic, D., Saracevic, M., De Moerloose, P., Casini, A., Ozdemir, N., Ay, Y., Mumford, A., Harvey, A., Payne, J., Shapiro, A.D., Williamson, A., Chapin, J., and Hsu, F.

Published
2017
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3. Distinct effects of SP-B and SP-C on the uptake of surfactant-like liposomes by alveolar cells in vivo and in vitro

Author

Poelma, D.L.H., Zimmermann, L.J., van Cappellen, W.A., Haitsma, J.J., Lachmann, B., and van Iwaarden, J.F.

Subjects
Proteins -- Research, Biological sciences
Abstract

Distinct effects of SP-B and SP-C on the uptake of surfactant-like liposomes by alveolar cells in vivo and in vitro. Am J Physiol Lung Cell Mol Physiol 287:L1056-L1065, 2004. First published July 16, 2004; doi: 10.1152/ajplung.00054.2004.--The effects of surfactant protein B (SP-B) and SP-C on the uptake of surfactant-like liposomes by alveolar type II cells and alveolar macrophages were studied both in vivo and in vitro. In vivo, mechanically ventilated rats were intratracheally instilled with fluorescently labeled liposomes that had SP-B and/or SP-C incorporated in different concentrations. Consequently, the alveolar cells were isolated, and cell-associated fluorescence was determined using flow cytometry. The results show that the incorporation of SP-B does not influence the uptake, and it also does not in the presence of essential cofactors. The inclusion of SP-C in the liposomes enhanced the alveolar type II cells at a SP-C to lipid ratio of 2:100. If divalent cations (calcium and magnesium) were present at physiological concentrations in the liposome suspension, uptake of liposomes by alveolar macropbages was also enhanced. In vitro, the incorporation of SP-B affected uptake only at a protein-to-lipid ratio of 8:100, whereas the inclusion of SP-C in the liposomes leads to an increased uptake at a protein-to-lipid ratio of 1:100. From these results, it can be concluded that SP-B is unlikely to affect uptake of surfactant, whereas SP-C in combination with divalent cations and other solutes are capable of increasing the uptake. surfactant protein B; surfactant protein C

Published
2004

7. In vivo and in vitro uptake of surfactant lipids by alveolar type II cells and macrophages

Author

Poelma, D.L.H., Zimmermann, L.J.I., Scholten, H.H., Lachmann, B., and van Iwaarden, J.F.

Subjects
Molecular biology -- Research, Liposomes -- Physiological aspects, Pulmonary surfactant -- Physiological aspects, Macrophages -- Physiological aspects, Lungs -- Physiological aspects, Fluorescence -- Usage, Cytochemistry -- Research, Biological sciences
Abstract

The uptake of fluorescent-labeled liposomes (with a surfactant-like composition) by alveolar macrophages and alveolar type II cells was studied using flow cytometry, in vivo by instillation of the labeled liposomes in the trachea of ventilated rats followed by isolation of the alveolar cells and determination of the cell-associated fluorescence, and in vitro by incubation of isolated alveolar cells with the fluorescent liposomes. The results show that the uptake of liposomes by the alveolar cells is time and concentration dependent. In vivo alveolar macrophages internalize more than three times as many liposomes as alveolar type II cells, whereas in vitro, the amount of internalized liposomes by these cells is approximately the same. In vitro, practically all the cells (70-75%) internalize liposomes, whereas in vivo only 30% of the alveolar type II cells ingest liposomes vs. 70% of the alveolar macrophages. These results indicate that in vivo, only a small subpopulation of alveolar type II cells is able to internalize surfactant liposomes. pneumocyte; lung; liposome; fluorescence

Published
2002

35. A STABILITY-INDICATING HPLC METHOD FOR THE DETERMINATION OF NAPHAZOLINE AND ITS DEGRADATION PRODUCT AND METHYL PARAHYDROXYBENZOATE IN PHARMACEUTICAL PREPARATIONS.

Author

Korodi, T., Dulavová, M., Urban, E., Kopelent-Frank, H., and Lachmann, B.

Subjects
HIGH performance liquid chromatography, CHEMICAL decomposition, METHYL benzoate, PHARMACEUTICAL industry, CHEMICAL stability, DRUG development
Abstract

A simple, rapid, selective, accurate, and stability-indicating HPLC method for the simultaneous determination of naphazoline and methyl parahydroxybenzoate in pharmaceutical preparations was developed and validated. The method employs a BDS Hypersil C18 column (5 µm; 150 × 4 mm), a mobile phase containing methanol −0.05 M triethylamine plus 10% methanol pH 3 with o-phosphoric acid (30:70, v/v), with a flow rate of 1 mL/min and detection at 254 nm. All the validation parameters (linearity, specificity, accuracy, repeatability, LOD/LOQ) were within the acceptance range and met the ICH Q2(R1) guideline. The stability indicating capability of this method has been demonstrated by separating degradation products as 1-naphthylacetylethylenediamine (impurity A) and 1-naphthylacetic acid (impurity B). Stability tests were performed under alkaline, acidic, neutral, and oxidizing conditions, and with simulated sunlight under standardized conditions in a sun test irradiation chamber. The proposed method was applied for routine quality control showing the obtained assay results for various marketed preparations and for the in-house formulation to be in good agreement with the declared amount. Compared with the pharmacopoeial method, shorter retention times and a superior resolving capability have been shown. [ABSTRACT FROM AUTHOR]

Published
2014
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36. Lung recruitment: a role in mechanical ventilation.

Author

Papadakos PJ, Lachmann B, and Koch R

Abstract

This review addresses the current understanding of atelectasis-induced lung injury. The pathophysiology of this process affecting surfactant function, cytokine modulation and translocation of bacteria play an ever-growing role in ventilator-associated lung injury. Lung recruitment and the ability to decrease atelectasis may thus affect outcomes. Several modalities to decrease atelectasis and open the lung will be reviewed. [ABSTRACT FROM AUTHOR]

Published
2010

37. Exogenous natural surfactant for treatment of acute lung injury and the acute respiratory distress syndrome.

Author

Kesecioglu J, Beale R, Stewart TE, Findlay GP, Rouby JJ, Holzapfel L, Bruins P, Steenken EJ, Jeppesen OK, and Lachmann B

Abstract

RATIONALE: Compositional changes in surfactant and/or decreased surfactant content of the lungs are common features in patients with acute respiratory failure. Instillation of exogenous surfactant into the lungs of neonates with respiratory distress syndrome or pediatric patients with acute respiratory distress syndrome (ARDS) has resulted in improved survival. OBJECTIVES: We conducted this trial to determine whether the instillation of exogenous surfactant would improve the Day 28 outcome of adult patients with acute lung injury (ALI) or ARDS. METHODS: A total of 418 patients with ALI and ARDS were included in an international, multicenter, stratified, randomized, controlled, open, parallel-group study. We randomly assigned 418 patients to receive usual care either with or without instillation of exogenous natural porcine surfactant HL 10 as large boluses. MEASUREMENTS AND MAIN RESULTS: The primary endpoint was death rate before or on Day 28. Secondary endpoints were adverse event and death rate on day 180. The 28-day death rate in the usual care group was 24.5% compared with 28.8% in the HL 10 group. The estimated odds ratio for death at Day 28 in the usual care group versus the HL 10 group was 0.75 (95% CI, 0.48-1.18; P = 0.22). The most common adverse events related to HL 10 administration were temporary hypoxemia defined as oxygen saturation less than 88% (51.9% in HL 10 group vs. 25.2% in usual care) and hypotension defined as mean arterial blood pressure less than 60 mm Hg (34.1% in HL 10 group vs. 17.1% in usual care). CONCLUSIONS: In this study, instillation of a large bolus of exogenous natural porcine surfactant HL 10 into patients with acute lung injury and ARDS did not improve outcome and showed a trend toward increased mortality and adverse effects. Clinical trial registered with www.clinicaltrials.gov (NCT 00742482). [ABSTRACT FROM AUTHOR]

Published
2009
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41. Respiratory inductive plethysmography accuracy at varying PEEP levels and degrees of acute lung injury.

Author

Markhorst, D. G., Van Gestel, J. P., Van Genderingen, H. R., Haitsma, J. J., Lachmann, B., and Van Vught, A. J.

Subjects
RESPIRATORY organs, PLETHYSMOGRAPHY, RESPIRATORY insufficiency, PULMONARY function tests, ADULT respiratory distress syndrome
Abstract

Background and objective : This study was performed to assess the accuracy of respiratory inductive plethysmographic (RIP) estimated lung volume changes at varying positive end-expiratory pressures (PEEP) during different degrees of acute respiratory failure. Methods : Measurements of inspiratory tidal volume were validated in eight piglets during constant volume ventilation at incremental and decremental PEEP levels and with increasing severity of pulmonary injury. RIP accuracy was assessed with calibration from the healthy state, from the disease state as the measurement error was assessed, and at various PEEP levels. Results : Best results (bias 3%, precision 7%) were obtained in healthy animals. RIP accuracy decreased with progressing degrees of acute respiratory failure and was PEEP dependent, unless RIP was calibrated again. When calibration was performed in the disease state as the measurement error was assessed, bias was reduced but precision did not improve (bias – 2%, precision 9%). Conclusions : RIP accuracy is within the accuracy range found in monitoring devices currently in clinical use. Most reliable results with RIP are obtained when measurements are preceded by calibration in pulmonary conditions that are comparable to the measurement period. When RIP calibration is not possible, fixed weighting of the RIP signals with species and subject size adequate factors is an alternative. Measurement errors should be taken into account with interpretation of small volume changes. [ABSTRACT FROM AUTHOR]

Published
2006
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43. Influence of phosphatidyiglycerol on the uptake of liposomes by alveolar cells and on lung function.

Author

Poelma, D. L. H., Lachmann, B., Haitsma, J. J., Zimmermann, L. J., and Van Iwaarden, J. F.

Subjects
LUNGS, LIPOSOMES, ALVEOLAR nerve, CARDIOPULMONARY system, RESPIRATION, PHYSIOLOGY
Abstract

The effect of phosphatidylglycerol on the uptake of surfactant-like liposomes by alveolar type II cells and alveolar macrophages as well as the effect on endogenous surfactant function was studied in vivo. Healthy ventilated rats were intratracheally instilled with fluorescent labeled liposomes with different concentrations of phosphatidylglycerol. Lung function was determined by monitoring arterial oxygenation and, at the end of the experiment, by recording static pressure-volume curves. In addition, alveolar cells were isolated, and cell-associated fluorescence was determined using flow cytometry. The results show that, in the presence of cofactors (Ca2+, Mg2+), phosphatidylglycerol stimulates the uptake by alveolar macrophages but hardly affects the uptake by alveolar type II cells. High concentrations of phosphatidylglycerol reduce the number of alveolar macrophages in the alveolar space and deteriorate lung function. On the other hand, the presence of cofactors protects the lung against the negative effects of phosphatictylglycerol on endogenous surfactant and alveolar macrophages. This study indicates that the phosphatidylglycerol concentration may play a fundamental role in the surfactant function and metabolism depending on the presence of so-called cofactors like calcium and magnesium; further study is needed to clarify the mechanisms involved. [ABSTRACT FROM AUTHOR]

Published
2005
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44. IMMUNOGLOBULIN M-ENRICHED INTRAVENOUS POLYCLONAL IMMUNOGLOBULINS REDUCE BACTEREMIA FOLLOWING KLEBSIELLA PNEUMONIAE INFECTION IN AN ACUTE RESPIRATORY DISTRESS SYNDROME RAT MODEL.

Author

Lachmann, R. A., Kaam, A. H. L. C. van, Haitsma, J. J., Verbrugge, S. J. C., Delreu, F., and Lachmann, B.

Subjects
BRONCHOALVEOLAR lavage, KLEBSIELLA pneumoniae, BACTEREMIA, GLOBIN, IMMUNOGLOBULINS, ARTIFICIAL respiration
Abstract

Mechanical ventilation is known to induce bacterial translocation from the lung into the systemic circulation. This study determined the effect of immunoglobulin M (IgM)-enriched polyclonal immunoglobulins on bacteremia due to ventilation-induced translocation in an acute respiratory distress syndrome (ARDS) rat model with Klebsiella-induced pneumonia. After whole lung lavage, Sprague­Dawley rats intravenously received either a high dose or a low dose of an immunoglobulin preparation, or an albumin solution as control, followed by an intratracheal injection of a Klebsiella pneumoniae solution. Blood colony-forming units (CFUs) in the treatment groups were significantly lower during the 3-hour ventilation period compared to the control group. The authors conclude that IgM-enriched polyclonal immunoglobulins lead to a reduction of bacteria in blood of surfactant-deficient, ventilated rats infected with Klebsiella pneumoniae. [ABSTRACT FROM AUTHOR]

Published
2004
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48. Ventilator-induced lung injury leads to loss of alveolar and systemic compartmentalization of tumor necrosis factor-alpha.

Author

Haitsma, Jack J., Uhlig, Stefan, Göggel, Rolf, Verbrugge, Serge J., Lachmann, Ulrike, Lachmann, Burkhard, Haitsma, J J, Uhlig, S, Göggel, R, Verbrugge, S J, Lachmann, U, and Lachmann, B

Subjects
MECHANICAL ventilators, LUNG injuries, ARTIFICIAL respiration complications, ENDOTOXINS, TUMOR necrosis factors, PULMONARY alveoli, ANIMAL models in research, RESPIRATION, ANALYSIS of variance, ANIMAL experimentation, BIOLOGICAL models, BLOOD gases analysis, BLOOD pressure, BODY fluids, COMPARATIVE studies, INFLAMMATION, LONGITUDINAL method, RESEARCH methodology, MEDICAL cooperation, RATS, RESEARCH, RESPIRATORY measurements, ADULT respiratory distress syndrome, TIME, EVALUATION research, LIPOPOLYSACCHARIDES, POSITIVE end-expiratory pressure
Abstract

Objectives: To determine the effect on compartmentalization of the tumor necrosis factor (TNF)-alpha response in the lung and systemically after ventilation with high peak inspiratory pressure with and without positive end-expiratory pressure (PEEP).Design and Setting: Prospective, randomized, animal study in an experimental laboratory of a university.Subjects and Interventions: 85 male Sprague-Dawley rats. Lipopolysaccharide was given intratracheally or intraperitoneally to stimulate TNF-alpha production; control animals received a similar amount of saline. Animals were subsequently ventilated for 20 min in a pressure control mode with peak inspiratory pressure/PEEP ratio of either 45/0 or 45/10 (frequency 30 bpm, I/E ratio 1:2, FIO2 = 1).Measurements and Results: Blood gas tension and arterial pressures were recorded at 1, 10, and 20 min after start of mechanical ventilation. After killing of the animals pressure-volume curves were recorded, and bronchoalveolar lavage (BAL) was performed for assessment of protein content and the small/large surfactant aggregate ratio. TNF-alpha was determined in serum and BAL. TNF-alpha levels were significantly increased after lipopolysaccharide stimulation; furthermore ventilation without PEEP resulted in a significant shift of TNF-alpha to the nonstimulated compartment as opposed to ventilation with a PEEP level of 10 cmH2O.Conclusions: Ventilation strategies which are known to induce ventilation-induced lung injury (VILI) disturb the compartmentalization of the early cytokines response in the lung and systemically. Furthermore, the loss of compartmentalization is a two-way disturbance, with cytokines shifting from the vascular side to the alveolar side and vice versa. A ventilation strategy (PEEP level of 10 cmH2O) which prevents VILI significantly diminished this shift in cytokines. [ABSTRACT FROM AUTHOR]

Published
2000
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