30 results on '"Braun CK"'
Search Results
2. Die Student Advisory Group. Arbeit, Ergebnisse und Nutzen am Beispiel der Entwicklung der Lernplattform 'MyMi.mobile'
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Krefting, J, Braun, CK, Hengge, F, Brandt, D, Langer-Fischer, K, and Britsch, S
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ddc: 610 ,610 Medical sciences ,Medicine - Abstract
Einleitung: Die universitäre Lehre der Medizin steht vor einem Wendepunkt. Aufgrund der massiven Veränderungen durch die Digitalisierung wird es immer wichtiger, die Nutzung neuer Techniken in die Lehre zu integrieren. Hier ist es möglich, fachlich und didaktisch begabte Studenten an [zum vollständigen Text gelangen Sie über die oben angegebene URL], Gemeinsame Jahrestagung der Gesellschaft für Medizinische Ausbildung (GMA), des Arbeitskreises zur Weiterentwicklung der Lehre in der Zahnmedizin (AKWLZ) und der Chirurgischen Arbeitsgemeinschaft Lehre (CAL)
- Published
- 2019
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3. MyMi.mobile - adaptives individualisiertes Lernen in der mikroskopischen Anatomie
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Langer-Fischer, K, Brandt, D, Braun, CK, Hengge, F, Krefting, J, Schmucker, M, Dietrich, M, Bertsch, A, Eichner, B, Igel, C, Heimrich, B, Britsch, S, Langer-Fischer, K, Brandt, D, Braun, CK, Hengge, F, Krefting, J, Schmucker, M, Dietrich, M, Bertsch, A, Eichner, B, Igel, C, Heimrich, B, and Britsch, S
- Published
- 2019
4. Effekte des hämodynamisch instabilen Polytraumas in der Maus auf die Blut-Darm-Barriere
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Wrba, L, Chakraborty, S, Braumüller, S, Braun, CK, Palmer, A, Halbgebauer, R, Huber-Lang, M, Wrba, L, Chakraborty, S, Braumüller, S, Braun, CK, Palmer, A, Halbgebauer, R, and Huber-Lang, M
- Published
- 2019
5. Complement and platelets: prothrombotic cell activation requires membrane attack complex-induced release of danger signals.
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Mannes M, Pechtl V, Hafner S, Dopler A, Eriksson O, Manivel VA, Wohlgemuth L, Messerer DAC, Schrezenmeier H, Ekdahl KN, Nilsson B, Jacobsen EM, Hoenig M, Huber-Lang M, Braun CK, and Schmidt CQ
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- Humans, Rats, Animals, Complement Membrane Attack Complex, Hemolysis, Erythrocytes metabolism, Complement Activation, Blood Platelets metabolism, Hemoglobinuria, Paroxysmal genetics, Atypical Hemolytic Uremic Syndrome
- Abstract
Complement activation in the diseases paroxysmal nocturnal hemoglobinuria (PNH) and atypical hemolytic uremic syndrome (aHUS) results in cytolysis and fatal thrombotic events, which are largely refractory to anticoagulation and/or antiplatelet therapy. Anticomplement therapy, however, efficiently prevents thrombotic events in PNH and aHUS, but the underlying mechanisms remain unresolved. We show that complement-mediated hemolysis in whole blood induces platelet activation similarly to activation by adenosine 5'-diphosphate (ADP). Blockage of C3 or C5 abolished platelet activation. We found that human platelets failed to respond functionally to the anaphylatoxins C3a and C5a. Instead, complement activation did lead to prothrombotic cell activation in the whole blood when membrane attack complex (MAC)-mediated cytolysis occurred. Consequently, we demonstrate that ADP receptor antagonists efficiently inhibited platelet activation, although full complement activation, which causes hemolysis, occurred. By using an established model of mismatched erythrocyte transfusions in rats, we crossvalidated these findings in vivo using the complement inhibitor OmCI and cobra venom factor. Consumptive complement activation in this animal model only led to a thrombotic phenotype when MAC-mediated cytolysis occurred. In conclusion, complement activation only induces substantial prothrombotic cell activation if terminal pathway activation culminates in MAC-mediated release of intracellular ADP. These results explain why anticomplement therapy efficiently prevents thromboembolisms without interfering negatively with hemostasis., (© 2023 by The American Society of Hematology. Licensed under Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0), permitting only noncommercial, nonderivative use with attribution. All other rights reserved.)
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- 2023
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6. Multimodal analysis of granulocytes, monocytes, and platelets in patients with cystic fibrosis before and after Elexacaftor-Tezacaftor-Ivacaftor treatment.
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Schmidt H, Höpfer LM, Wohlgemuth L, Knapp CL, Mohamed AOK, Stukan L, Münnich F, Hüsken D, Koller AS, Stratmann AEP, Müller P, Braun CK, Fabricius D, Bode SFN, Huber-Lang M, and Messerer DAC
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- Humans, Blood Platelets, Monocytes, Granulocytes, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis drug therapy
- Abstract
Cystic fibrosis (CF) is a monogenetic disease caused by an impairment of the cystic fibrosis transmembrane conductance regulator (CFTR). CF affects multiple organs and is associated with acute and chronic inflammation. In 2020, Elexacaftor-Tezacaftor-Ivacaftor (ETI) was approved to enhance and restore the remaining CFTR functionality. This study investigates cellular innate immunity, with a focus on neutrophil activation and phenotype, comparing healthy volunteers with patients with CF before (T1, n = 13) and after six months (T2, n = 11) of ETI treatment. ETI treatment reduced sweat chloride (T1: 95 mmol/l (83|108) vs. T2: 32 mmol/l (25|62), p < 0.01, median, first|third quartile) and significantly improved pulmonal function (FEV
1 T1: 2.66 l (1.92|3.04) vs. T2: 3.69 l (3.00|4.03), p < 0.01). Moreover, there was a significant decrease in the biomarker human epididymis protein 4 (T1: 6.2 ng/ml (4.6|6.3) vs. T2: 3.0 ng/ml (2.2|3.7), p < 0.01) and a small but significant decrease in matrix metallopeptidase 9 (T1: 45.5 ng/ml (32.5|140.1) vs. T2: 28.2 ng/ml (18.2|33.6), p < 0.05). Neutrophil phenotype (CD10, CD11b, CD62L, and CD66b) and function (radical oxygen species generation, chemotactic and phagocytic activity) remained largely unaffected by ETI treatment. Likewise, monocyte phenotype and markers of platelet activation were similar at T1 and T2. In summary, the present study confirmed a positive impact on patients with CF after ETI treatment. However, neither beneficial nor harmful effects of ETI treatment on cellular innate immunity could be detected, possibly due to the study population consisting of patients with well-controlled CF., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationship that could be construed as a potential conflict of interest., (Copyright © 2023 Schmidt, Höpfer, Wohlgemuth, Knapp, Mohamed, Stukan, Münnich, Hüsken, Koller, Stratmann, Müller, Braun, Fabricius, Bode, Huber-Lang and Messerer.)- Published
- 2023
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7. Impact of surface coating and systemic anticoagulants on hemostasis and inflammation in a human whole blood model.
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Spiegelburg DT, Mannes M, Schultze A, Scheibenberger F, Müller F, Klitzing A, Messerer DAC, Nilsson Ekdahl K, Nilsson B, Huber-Lang M, and Braun CK
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- Humans, Fondaparinux, Hemostasis, Heparin, Inflammation, Anticoagulants pharmacology, Enoxaparin
- Abstract
Background: Surface compatibility with blood is critical both for scientific investigations on hemostasis and clinical applications. Regarding in vitro and ex vivo investigations, minimal alteration in physiological hemostasis is of particular importance to draw reliable conclusions on the human coagulation system. At the same time, artificial coagulation activation must be avoided, which is relevant for the patient, for example to prevent stent graft occlusion. The aim was to evaluate the advantages and disadvantages of antithrombotic and antifouling surface coatings in the context of their suitability for ex vivo incubation and the study of coagulation properties., Methods: We investigated the impact of different protocols for surface coating of synthetic material and different anticoagulants on hemostasis and platelet activation in ex vivo human whole blood. Blood samples from healthy donors were incubated in coated microtubes on a rotating wheel at 37°C. Two protocols for surface coating were analyzed for hemostatic parameters and metabolic status, a heparin-based coating (CHC, Corline Heparin Conjugate) without further anticoagulation and a passivating coating (MPC, 2-methacryloyloxethyl phosphorylcholine) with added anticoagulants (enoxaparin, ENOX; or fondaparinux, FPX). Employing the MPC-based coating, the anticoagulants enoxaparin and fondaparinux were compared regarding their differential effects on plasmatic coagulation by thrombelastometry and on platelet activation by flowcytometry and platelet function assays., Results: Using the CHC coating, significant coagulation cascade activation was observed, whereas parameters remained mostly unchanged with MPC-based protocols. Extended incubation caused significantly elevated levels of the soluble membrane attack complex. Neither ENOX nor FPX caused a relevant impairment of platelet function or activation capacity and thrombelastometric parameters remained unchanged with both protocols. For translational purposes, we additionally modeled endotoxemia with the MPC-based protocols by incubating with lipopolysaccharide plus/minus thrombin. While coagulation parameters remained unchanged, elevated Interleukin 8 and Matrix Metalloproteinase 9 demonstrated preserved immune cell responsiveness., Conclusions: The MPC-based protocols demonstrated better hemocompatibility compared to CHC, and ENOX and FPX proved useful for additional anticoagulation. Furthermore, this simple-to-use whole blood model may be useful for experimental analyses of the early coagulatory and immunological response without decalcification., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Spiegelburg et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)
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- 2023
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8. Sex-specific differences in trimethylamine N-oxide (TMAO) concentrations before and after cardiac rehabilitation in acute myocardial infarction patients.
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Baranyi A, Meinitzer A, von Lewinski D, Rothenhäusler HB, Amouzadeh-Ghadikolai O, Harpf H, Harpf L, Traninger H, Hödl R, Harb BM, Obermayer-Pietsch B, Schweinzer M, Braun CK, and Enko D
- Abstract
Trimethylamine N-oxide (TMAO) is a biomarker of cardiovascular risk and may enhance the progression of atherosclerosis. The aim of the study was to determine whether there are sex-specific differences in TMAO concentrations before and after cardiac rehabilitation in acute myocardial infarction (AMI) patients. A total of 56 participants [45/56 (80.4 %) males, 11/56 (19.6 %) females] were drawn from AMI inpatients hospitalized at the Division of Cardiology, Medical University of Graz, Austria. For the assessment of TMAO, serum samples were collected within the first day after hospital admission due to AMI and at the start and end of cardiac rehabilitation. Shortly after hospital admission due to AMI, females had significantly higher TMAO blood concentrations than males. These initially high TMAO levels remained almost unchanged in the female AMI patients until the start of cardiac rehabilitation and only reached the lower TMAO concentrations observed in the male patients after rehabilitation [female patients: TMAO (acute myocardial infarction) = 5.93 μmol/L (SE = 1.835); TMAO (start of rehabilitation) = 5.68 μmol/L (SE = 1.217); TMAO (end of rehabilitation) = 3.89 μmol/L (SE = 0.554); male patients: TMAO (acute myocardial infarction) = 3.02 μmol/L (SE = 0.255), TMAO (start of rehabilitation) = 3.91 μmol/L (SE = 0.346), TMAO (end of rehabilitation) = 4.04 μmol/L (SE = 0.363)]. After AMI, women might be at higher cardiovascular risk due to persistently higher levels of TMAO. High TMAO levels in women might decrease after cardiac rehabilitation due to cardiac rehabilitation-associated lifestyle modifications. These lifestyle modifications after AMI might also prevent increases in TMAO concentrations in men., (Copyright © 2022 Baranyi et al.)
- Published
- 2022
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9. [False interpretation of a treatment recommendation given via telephone consultation].
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Krämer J, Fischer L, Braun CK, Meinhardt M, Henrichs C, Winter B, and Kaestner M
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- 2022
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10. Temporal-spatial organ response after blast-induced experimental blunt abdominal trauma.
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Maitz A, Haussner F, Braumüller S, Hoffmann A, Lupu L, Wachter U, Radermacher P, Braun CK, Wilke HJ, Vogt M, Ignatius A, Halbgebauer R, Bettac L, Barth TFE, Huber-Lang M, and Palmer A
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- Acute Kidney Injury etiology, Animals, Liver injuries, Liver metabolism, Male, Mice, Mice, Inbred C57BL, Pancreas injuries, Pancreas metabolism, Abdominal Injuries complications, Acute Kidney Injury pathology, Blast Injuries complications, Liver pathology, Multiple Trauma complications, Pancreas pathology
- Abstract
Abdominal trauma (AT) is of major global importance, particularly with the increased potential for civil, terroristic, and military trauma. The injury pattern and systemic consequences of blunt abdominal injuries are highly variable and frequently underestimated or even missed, and the pathomechanisms remain still poorly understood. Therefore, we investigated the temporal-spatial organ and immune response after a standardized blast-induced blunt AT. Anesthetized mice were exposed to a single blast wave centered on the epigastrium. At 2, 6, or 24 h after trauma, abdominal organ damage was assessed macroscopically, microscopically, and biochemically. A higher degree of trauma severity, determined by a reduction of the distance between the epigastrium and blast inductor, was reflected by a reduced survival rate. The hemodynamic monitoring during the first 120 min after AT revealed a decline in the mean arterial pressure within the first 80 min, whereas the heart rate remained quite stable. AT induced a systemic damage and inflammatory response, evidenced by elevated HMGB-1 and IL-6 plasma levels. The macroscopic injury pattern of the abdominal organs (while complex) was consistent, with the following frequency: liver > pancreas > spleen > left kidney > intestine > right kidney > others > lungs and was reflected by microscopic liver and pancreas damages. Plasma levels of organ dysfunction markers increased during the first 6 h after AT and subsequently declined, indicating an early, temporal impairment of the function on a multi-organ level. The established highly reproducible murine blunt AT, with time- and trauma-severity-dependent organ injury patterns, systemic inflammatory response, and impairment of various organ functions, reflects characteristics of human AT. In the future, this model may help to study the complex immuno-pathophysiological consequences and innovative therapeutic approaches after blunt AT., (© 2021 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.)
- Published
- 2021
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11. Complement in trauma-Traumatised complement?
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Huber-Lang MS, Ignatius A, Köhl J, Mannes M, and Braun CK
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- Humans, Hypoxia, Complement System Proteins, Immune System
- Abstract
Physical trauma represents a major global burden. The trauma-induced response, including activation of the innate immune system, strives for regeneration but can also lead to post-traumatic complications. The complement cascade is rapidly activated by damaged tissue, hypoxia, exogenous proteases and others. Activated complement can sense, mark and clear both damaged tissue and pathogens. However, excessive and insufficient activation of complement can result in a dysfunctional immune and organ response. Similar to acute coagulopathy, complementopathy can develop with enhanced anaphylatoxin generation and an impairment of complement effector functions. Various remote organ effects are induced or modulated by complement activation. Frequently, established trauma treatments are double-edged. On one hand, they help stabilising haemodynamics and oxygen supply as well as injured organs and on the other hand, they also drive complement activation. Immunomodulatory approaches aim to reset trauma-induced disbalance of complement activation and thus may change surgical trauma management procedures to improve outcome. LINKED ARTICLES: This article is part of a themed issue on Canonical and non-canonical functions of the complement system in health and disease. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v178.14/issuetoc., (© 2020 The Authors. British Journal of Pharmacology published by John Wiley & Sons Ltd on behalf of British Pharmacological Society.)
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- 2021
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12. Assessment of trimethylamine N-oxide (TMAO) as a potential biomarker of severe stress in patients vulnerable to posttraumatic stress disorder (PTSD) after acute myocardial infarction.
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Baranyi A, Enko D, von Lewinski D, Rothenhäusler HB, Amouzadeh-Ghadikolai O, Harpf H, Harpf L, Traninger H, Obermayer-Pietsch B, Schweinzer M, Braun CK, and Meinitzer A
- Subjects
- Female, Humans, Male, Middle Aged, Myocardial Infarction blood, Stress Disorders, Post-Traumatic blood, Biomarkers blood, Methylamines blood, Myocardial Infarction complications, Stress Disorders, Post-Traumatic diagnosis
- Abstract
Background : Posttraumatic stress disorder (PTSD) is a frequently observed stress-related disorder after acute myocardial infarction (AMI) and it is characterized by numerous symptoms, such as flashbacks, intrusions and anxiety, as well as uncontrollable thoughts and feelings related to the trauma. Biological correlates of severe stress might contribute to identifying PTSD-vulnerable patients at an early stage. Objective : Aims of the study were (1) to determine whether blood levels of trimethylamine N-oxide (TMAO) vary immediately after AMI in patients with/without AMI-induced PTSD symptomatology, (2) to investigate whether TMAO is a potential biomarker that might be useful in the prediction of PTSD and the PTSD symptom subclusters re-experiencing, avoidance and hyperarousal, and (3) to investigate whether TMAO varies immediately after AMI in patients with/without depression 6 months after AMI. Method : A total of 114 AMI patients were assessed with the Hamilton-Depression Scale after admission to the hospital and 6 months later. The Clinician Administered PTSD Scale for DSM-5 was used to explore PTSD-symptoms at the time of AMI and 6 months after AMI. To assess patients' TMAO status, serum samples were collected at hospitalization and 6 months after AMI. Results : Participants with PTSD-symptomatology had significantly higher TMAO levels immediately after AMI than patients without PTSD-symptoms (ANCOVA: TMAO(PTSD x time), F = 4.544, df = 1, p = 0.035). With the inclusion of additional clinical predictors in a hierarchical logistic regression model, TMAO became a significant predictor of PTSD-symptomatology. No significant differences in TMAO levels immediately after AMI were detected between individuals with/without depression 6 months after AMI. Conclusions : An elevated TMAO level immediately after AMI might reflect severe stress in PTSD-vulnerable patients, which might also lead to a short-term increase in gut permeability to trimethylamine, the precursor of TMAO. Thus, an elevated TMAO level might be a biological correlate for severe stress that is associated with vulnerability to PTSD., Competing Interests: No potential conflict of interest was reported by the author(s)., (© 2021 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.)
- Published
- 2021
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13. Laboratory Markers in the Management of Pediatric Polytrauma: Current Role and Areas of Future Research.
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Weber B, Lackner I, Braun CK, Kalbitz M, Huber-Lang M, and Pressmar J
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Severe trauma is the most common cause of mortality in children and is associated with a high socioeconomic burden. The most frequently injured organs in children are the head and thorax, followed by the extremities and by abdominal injuries. The efficient and early assessment and management of these injuries is essential to improve patients' outcome. Physical examination as well as imaging techniques like ultrasound, X-ray and computer tomography are crucial for a valid early diagnosis. Furthermore, laboratory analyses constitute additional helpful tools for the detection and monitoring of pediatric injuries. Specific inflammatory markers correlate with post-traumatic complications, including the development of multiple organ failure. Other laboratory parameters, including lactate concentration, coagulation parameters and markers of organ injury, represent further clinical tools to identify trauma-induced disorders. In this review, we outline and evaluate specific biomarkers for inflammation, acid-base balance, blood coagulation and organ damage following pediatric polytrauma. The early use of relevant laboratory markers may assist decision making on imaging tools, thus contributing to minimize radiation-induced long-term consequences, while improving the outcome of children with multiple trauma., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Weber, Lackner, Braun, Kalbitz, Huber-Lang and Pressmar.)
- Published
- 2021
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14. Lower Leg Fractures in Children and Adolescents-Comparison of Conservative vs. ECMES Treatment.
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Weber B, Kalbitz M, Baur M, Braun CK, Zwingmann J, and Pressmar J
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Background: Lower leg fractures are one of the most common fractures in pediatric age. In general, treatment of lower leg fractures is predominantly non-operative, requiring clinical and radiological controls. Nevertheless, it can be observed that in recent years tibial shaft fractures have increasingly been treated surgically. The aim of the present study is to investigate treatment strategies in the context of different fracture types of the lower leg. Methods: In this retrospective chart review, we analyzed 168 children with a diaphyseal fracture of the lower leg admitted to a trauma center between 2005 and 2017. The fractures were classified according to the AO Pediatric Comprehensive Classification of Long Bone Fractures (AO-PCCF). Results: The frequency of fractures based on the AO-PCCF classification was as follows: Simple oblique fracture of the tibia (43.5%, n = 73), hereof 32 toddler's fractures, multifragmentary oblique fracture of the tibia in 14.3% ( n = 24) and simple oblique fracture of both, tibia and fibula in 18 patients (10.7%). Most pediatric fractures were treated conservatively by cast ( n = 125). Thirty-seven patients received an ECMES, whereas 3 patients were treated with an external fixator and also 3 fractures were stabilized by plate osteosynthesis. Conservatively treated patients were significantly younger (mean age 6.0) compared to patients treated with ECMES (mean age 10.2) or plate osteosynthesis (PO)/external fixator (EF) (mean age 11.3), even if toddler's fractures (mean age 2.0) are excluded (mean age 7.4). There was no difference in time to full weight-bearing, hospitalization of patients treated with ECMES compared to conservative therapy although ECMES-treated fractures show more instability. The consolidation time was significantly higher in ECMES treated patients compared to conservative therapy. Conclusion: Pediatric patients (≤4 years) with lower leg fractures most often showed simple oblique fractures of the tibia, half of them toddler's fractures, which were treated predominantly by conservative therapy. All in all, the consolidation time was longer in intramedullary nailing (ECMES) than in conservative therapy. Nevertheless, time to full weight bearing and duration of cast was the same in both groups, even though ECMES treated fractures show more instability., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Weber, Kalbitz, Baur, Braun, Zwingmann and Pressmar.)
- Published
- 2021
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15. Complement inhibition at the level of C3 or C5: mechanistic reasons for ongoing terminal pathway activity.
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Mannes M, Dopler A, Zolk O, Lang SJ, Halbgebauer R, Höchsmann B, Skerra A, Braun CK, Huber-Lang M, Schrezenmeier H, and Schmidt CQ
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- Antibodies, Monoclonal, Humanized pharmacology, Antibodies, Monoclonal, Humanized therapeutic use, Cell Membrane immunology, Complement C5 chemistry, Complement Inactivating Agents therapeutic use, Complement Membrane Attack Complex physiology, Drug Resistance, Human Umbilical Vein Endothelial Cells, Humans, Models, Molecular, Peptides, Cyclic pharmacology, Peptides, Cyclic therapeutic use, Protein Conformation, Complement C3 antagonists & inhibitors, Complement C3 Convertase, Alternative Pathway physiology, Complement C4b physiology, Complement C5 antagonists & inhibitors, Complement Inactivating Agents pharmacology, Complement Pathway, Classical drug effects, Models, Immunological
- Abstract
Blocking the terminal complement pathway with the C5 inhibitor eculizumab has revolutionized the clinical management of several complement-mediated diseases and has boosted the clinical development of new inhibitors. Data on the C3 inhibitor Compstatin and the C5 inhibitors eculizumab and Coversin reported here demonstrate that C3/C5 convertases function differently from prevailing concepts. Stoichiometric C3 inhibition failed to inhibit C5 activation and lytic activity during strong classical pathway activation, demonstrating a "C3 bypass" activation of C5. We show that, instead of C3b, surface-deposited C4b alone can also recruit and prime C5 for consecutive proteolytic activation. Surface-bound C3b and C4b possess similar affinities for C5. By demonstrating that the fluid phase convertase C3bBb is sufficient to cleave C5 as long as C5 is bound on C3b/C4b-decorated surfaces, we show that surface fixation is necessary only for the C3b/C4b opsonins that prime C5 but not for the catalytic convertase unit C3bBb. Of note, at very high C3b densities, we observed membrane attack complex formation in absence of C5-activating enzymes. This is explained by a conformational activation in which C5 adopts a C5b-like conformation when bound to densely C3b-opsonized surfaces. Stoichiometric C5 inhibitors failed to prevent conformational C5 activation, which explains the clinical phenomenon of residual C5 activity documented for different inhibitors of C5. The new insights into the mechanism of C3/C5 convertases provided here have important implications for the development and therapeutic use of complement inhibitors as well as the interpretation of former clinical and preclinical data., (© 2021 by The American Society of Hematology.)
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- 2021
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16. Interleukin 8 Elicits Rapid Physiological Changes in Neutrophils That Are Altered by Inflammatory Conditions.
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Bernhard S, Hug S, Stratmann AEP, Erber M, Vidoni L, Knapp CL, Thomaß BD, Fauler M, Nilsson B, Nilsson Ekdahl K, Föhr K, Braun CK, Wohlgemuth L, Huber-Lang M, and Messerer DAC
- Subjects
- Granulocytes, Humans, Inflammation, Interleukin-8, Neutrophils, Sepsis
- Abstract
A sufficient response of neutrophil granulocytes stimulated by interleukin (IL)-8 is vital during systemic inflammation, for example, in sepsis or severe trauma. Moreover, IL-8 is clinically used as biomarker of inflammatory processes. However, the effects of IL-8 on cellular key regulators of neutrophil properties such as the intracellular pH (pHi) in dependence of ion transport proteins and during inflammation remain to be elucidated. Therefore, we investigated in detail the fundamental changes in pHi, cellular shape, and chemotactic activity elicited by IL-8. Using flow cytometric methods, we determined that the IL-8-induced cellular activity was largely dependent on specific ion channels and transporters, such as the sodium-proton exchanger 1 (NHE1) and non-NHE1-dependent sodium flux. Exposing neutrophils in vitro to a proinflammatory micromilieu with N-formyl-Met-Leu-Phe, LPS, or IL-8 resulted in a diminished response regarding the increase in cellular size and pH. The detailed kinetics of the reduced reactivity of the neutrophil granulocytes could be illustrated in a near-real-time flow cytometric measurement. Last, the LPS-mediated impairment of the IL-8-induced response in neutrophils was confirmed in a translational, animal-free human whole blood model. Overall, we provide novel mechanistic insights for the interaction of IL-8 with neutrophil granulocytes and report in detail about its alteration during systemic inflammation., (© 2021 The Author(s) Published by S. Karger AG, Basel.)
- Published
- 2021
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17. Systemic and Cardiac Alterations After Long Bone Fracture.
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Weber B, Lackner I, Knecht D, Braun CK, Gebhard F, Huber-Lang M, Hildebrand F, Horst K, Pape HC, Ignatius A, Schrezenmeier H, Haffner-Luntzer M, and Kalbitz M
- Subjects
- Animals, Fractures, Bone pathology, Humans, Leukocytes, Mononuclear metabolism, Male, Mice, Myocytes, Cardiac pathology, Swine, Complement C5a metabolism, Extracellular Traps metabolism, Fractures, Bone blood, Histones blood, Myocytes, Cardiac metabolism, Tumor Necrosis Factor-alpha blood
- Abstract
The purpose of this study was to reveal possible consequences of long-bone fracture on cardiac tissue and to analyze the role of systemically elevated danger associated molecular patterns, complement anaphylatoxins and cytokines. Blood samples of mice, pigs, and humans after a fracture were analyzed by ELISAs for complement component 5a (C5a), tumor necrosis factor (TNF), and extracellular histones. In vivo results were completed by in vitro experiments with human cardiomyocytes treated with TNF and extracellular histones. The influence of histones and human plasma after fracture on isolated human polymorphonuclear leukocytes (PMNs) was investigated. An elevation of TNF, C5a, and extracellular histones after long bone fracture was measured. Moreover, the appearance of systemic troponin I levels was observed and structural changes in connexin 43 and desmin were detected. Further, the presence of TNF leads to elevation of reactive oxygen species, troponin I release, and histone appearance in supernatant of human cardiomyocytes. Incubation of human PMNs with histones and plasma of patients after fracture lead to formation of neutrophil extracellular traps. Present results suggest that structural alterations in the heart might be consequences of the complement activation, the release of extracellular histones, and the systemic TNF elevation in the context of a long bone fracture.
- Published
- 2020
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18. Animal-Free Human Whole Blood Sepsis Model to Study Changes in Innate Immunity.
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Messerer DAC, Vidoni L, Erber M, Stratmann AEP, Bauer JM, Braun CK, Hug S, Adler A, Nilsson Ekdahl K, Nilsson B, Barth E, Radermacher P, and Huber-Lang M
- Subjects
- Adult, Animals, Cells, Cultured, Disease Models, Animal, Female, Humans, Immunization, Lipopolysaccharides immunology, Male, Phlebotomy, Young Adult, Blood Cells immunology, Inflammation immunology, Neutrophils immunology, Sepsis immunology
- Abstract
Studying innate immunity in humans is crucial for understanding its role in the pathophysiology of systemic inflammation, particularly in the complex setting of sepsis. Therefore, we standardized a step-by-step process from the venipuncture to the transfer in a human model system, while closely monitoring the inflammatory response for up to three hours. We designed an animal-free, human whole blood sepsis model using a commercially available, simple to use, tubing system. First, we analyzed routine clinical parameters, including cell count and blood gas analysis. Second, we demonstrated that extracellular activation markers (e.g., CD11b and CD62l) as well as intracellular metabolic (intracellular pH) and functional (generation of radical oxygen species) features remained stable after incubation in the whole blood model. Third, we mimicked systemic inflammation during early sepsis by exposure of whole blood to pathogen-associated molecular patterns. Stimulation with lipopolysaccharide revealed the capability of the model system to evoke a sepsis-like inflammatory phenotype of innate immunity. In summary, the presented model serves as a convenient, economic, and reliable platform to study innate immunity in human whole blood, which may yield clinically important insights., (Copyright © 2020 Messerer, Vidoni, Erber, Stratmann, Bauer, Braun, Hug, Adler, Nilsson Ekdahl, Nilsson, Barth, Radermacher and Huber-Lang.)
- Published
- 2020
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19. Thirty-Eight-Negative Kinase 1 Is a Mediator of Acute Kidney Injury in Experimental and Clinical Traumatic Hemorrhagic Shock.
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Halbgebauer R, Karasu E, Braun CK, Palmer A, Braumüller S, Schultze A, Schäfer F, Bückle S, Eigner A, Wachter U, Radermacher P, Resuello RRG, Tuplano JV, Nilsson Ekdahl K, Nilsson B, Armacki M, Kleger A, Seufferlein T, Kalbitz M, Gebhard F, Lambris JD, van Griensven M, and Huber-Lang M
- Subjects
- Acute Kidney Injury, Animals, Cells, Cultured, Complement C3 metabolism, Fetal Proteins genetics, Healthy Volunteers, Humans, Inflammation Mediators metabolism, Interleukin-6 metabolism, Kidney, Male, Mice, Mice, Inbred C57BL, Models, Animal, Primates, Protein-Tyrosine Kinases genetics, Fetal Proteins metabolism, Protein-Tyrosine Kinases metabolism, Shock, Hemorrhagic metabolism, Wounds and Injuries metabolism
- Abstract
Trauma represents a major socioeconomic burden worldwide. After a severe injury, hemorrhagic shock (HS) as a frequent concomitant aspect is a central driver of systemic inflammation and organ damage. The kidney is often strongly affected by traumatic-HS, and acute kidney injury (AKI) poses the patient at great risk for adverse outcome. Recently, thirty-eight-negative kinase 1 (TNK1) was proposed to play a detrimental role in organ damage after trauma/HS. Therefore, we aimed to assess the role of TNK1 in HS-induced kidney injury in a murine and a post hoc analysis of a non-human primate model of HS comparable to the clinical situation. Mice and non-human primates underwent resuscitated HS at 30 mmHg for 60 min. 5 h after the induction of shock, animals were assessed for systemic inflammation and TNK1 expression in the kidney. In vitro , murine distal convoluted tubule cells were stimulated with inflammatory mediators to gain mechanistic insights into the role of TNK1 in kidney dysfunction. In a translational approach, we investigated blood drawn from either healthy volunteers or severely injured patients at different time points after trauma (from arrival at the emergency room and at fixed time intervals until 10 days post injury; identifier: NCT02682550, https://clinicaltrials.gov/ct2/show/NCT02682550). A pronounced inflammatory response, as seen by increased IL-6 plasma levels as well as early signs of AKI, were observed in mice, non-human primates, and humans after trauma/HS. TNK1 was found in the plasma early after trauma-HS in trauma patients. Renal TNK1 expression was significantly increased in mice and non-human primates after HS, and these effects with concomitant induction of apoptosis were blocked by therapeutic inhibition of complement C3 activation in non-human primates. Mechanistically, in vitro data suggested that IL-6 rather than C3 cleavage products induced upregulation of TNK1 and impaired barrier function in renal epithelial cells. In conclusion, these data indicate that C3 inhibition in vivo may inhibit an excessive inflammatory response and mediator release, thereby indirectly neutralizing TNK1 as a potent driver of organ damage. In future studies, we will address the therapeutic potential of direct TNK1 inhibition in the context of severe tissue trauma with different degrees of additional HS., (Copyright © 2020 Halbgebauer, Karasu, Braun, Palmer, Braumüller, Schultze, Schäfer, Bückle, Eigner, Wachter, Radermacher, Resuello, Tuplano, Nilsson Ekdahl, Nilsson, Armacki, Kleger, Seufferlein, Kalbitz, Gebhard, Lambris, van Griensven and Huber-Lang.)
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- 2020
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20. Tissue damage in the heart after cardiac arrest induced by asphyxia and hemorrhage in newborn pigs.
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Weber B, Mendler MR, Lackner I, Pressmar J, Haffner-Luntzer M, Höfler S, Braun CK, Hummler H, Schwarz S, and Kalbitz M
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- Animals, Echocardiography, Heart Arrest etiology, Heart Arrest physiopathology, Swine, Animals, Newborn, Asphyxia complications, Heart Arrest pathology, Hemorrhage complications, Myocardium pathology
- Abstract
Background: Asphyxia of newborns is a severe and frequent challenge of the peri- and postnatal period., Methods: Forty-four neonatal piglets underwent asphyxia and hemorrhage (AH), followed by resuscitation with blood or crystalloid transfusion. In this study, 15 piglets (blood n = 9, NaCl n = 6, mean age 31 h) were randomly chosen. Four hours after return of spontaneous circulation, heart tissue and blood were collected. Analyses of heart fatty acid binding protein (HFABP), cardiac troponin I (TnI) levels, and activation of the complement system were performed. Histological staining for connexin 43 (Cx43) and complement C5a receptor 1 (C5aR1) was performed., Results: Following AH, systemic elevation of cardiac TnI and HFABP revealed cardiac damage in both groups. Systemic activation of the complement system and the appearance of extracellular histones in plasma of the blood transfusion group were observed. The Cx43 was translocated from the intercalated discs to the cytosol after AH. Cardiac glycogen concentration was reduced in both groups. A significant reduction of C5aR1 in the left ventricle and a significant elevation of the heart injury score were investigated after blood transfusion., Conclusion: AH leads to alteration of the heart, particularly in Cx43 and glycogen reserves, as well as local inflammation.
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- 2019
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21. The Prognostic Value of Troponin in Pediatric Polytrauma.
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Braun CK, Schaffer A, Weber B, Huber-Lang M, Kalbitz M, and Preßmar J
- Abstract
Introduction: Severe trauma accounts for a great number of deaths among children and adolescents. The diagnostic value of troponin serum levels of severely injured patients has been reported for adults, but data on pediatric polytrauma (PT) are scarce. Therefore, we conducted a retrospective monocentered study analyzing the prognostic value of troponin T (TnT) in pediatric trauma patients at the time point of hospital admission. Methods: Data of 88 polytraumatized pediatric patients admitted to the emergency room of the University Hospital of Ulm, Germany, between 2007 and 2016 were analyzed retrospectively. The data source was the written and digital patient records. Interleukin-6 (IL-6), creatine kinase activity (CK activity), and lactate and TnT levels were measured by a certified clinical diagnostic laboratory; and patients were stratified for the Injury Severity Score (ISS). The prognostic value for lung contusion, organ dysfunction, and fatal outcome was statistically explored. The study was approved by the independent ethical committee of the University of Ulm (#44/18). Results: TnT levels were significantly increased in patients after severe PT compared with mild or moderate trauma severity as assessed by ISS values. Patients with TnT levels above the cutoff showed significantly increased levels of IL-6 and CK activity and a significantly prolonged stay in the intensive care unit. However, TnT levels did not correlate with absolute ISS values. TnT levels were significantly increased in patients with chest trauma and lung contusion. The incidence of lung contusion was associated with elevation of TnT. So was the onset of organ dysfunction, defined as a Sequential Organ Failure Assessment (SOFA) score ≥ 2 and fatal outcome, with a significant enhancement of plasma levels in children with organ dysfunction and in non-survivors. Conclusion: These descriptive data suggest that evaluation of TnT on admission of multiply injured children may help in predicting severity of injury and mortality in the clinical course after trauma and thus may be a useful addition to established prognostic parameters in the future., (Copyright © 2019 Braun, Schaffer, Weber, Huber-Lang, Kalbitz and Preßmar.)
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- 2019
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22. Remote Intestinal Injury Early After Experimental Polytrauma and Hemorrhagic Shock.
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Wrba L, Ohmann JJ, Eisele P, Chakraborty S, Braumüller S, Braun CK, Klohs B, Schultze A, von Baum H, Palmer A, Huber-Lang M, and Halbgebauer R
- Subjects
- Animals, Disease Models, Animal, Mice, Permeability, Intestinal Diseases metabolism, Intestinal Diseases pathology, Intestines injuries, Intestines pathology, Multiple Trauma metabolism, Multiple Trauma pathology, Shock, Hemorrhagic metabolism, Shock, Hemorrhagic pathology
- Abstract
Dysfunction of the gut-blood barrier plays an important role in many diseases, such as inflammatory bowel disease, hemorrhagic shock (HS), or burn injury. However, little is known about gut barrier dysfunction after hemodynamically instable polytrauma (PT). Therefore, we aimed to evaluate the effects of PT and HS on remote intestinal damage and barrier dysfunction, especially regarding the role of zonula occludens protein 1 (ZO-1) as an important tight junction protein.Male C57BL/6 mice were subjected to either PT (thorax trauma, closed head injury, soft tissue injury, and distal femoral fracture), 60 min of pressure-controlled HS (30 ± 5 mmHg), or PT+HS, or sham procedures.Animals of all trauma groups showed an increase in abdominal girth and dilation of the intestine during the experimental period, which was largest in the PT+HS group. Increased blood-tissue permeability to albumin (assessed by Evans blue dye) was found in the HS group. Experimental groups showed a slight increase in plasma concentration of intestinal fatty acid binding protein and some intestinal damage was histologically detectable. Of note, PT+HS animals revealed significantly reduced expression of ZO-1 in intestinal epithelial cells. In an in-vitro model, stimulation of human colon epithelial cells with peptidoglycan, but not with lipopolysaccharide, resulted in elevated secretion of pro-inflammatory cytokines, reflecting inflammatory activity of the intestinal epithelium.Taken together, PT and HS lead to increased permeability of the gut-blood barrier. Bacterial components may lead to production of inflammatory and chemotactic mediators by gut epithelial cells, underlining the role of the gut as an immunologically active organ.
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- 2019
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23. Lung injury after asphyxia and hemorrhagic shock in newborn piglets: Analysis of structural and inflammatory changes.
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Weber B, Mendler MR, Lackner I, von Zelewski A, Höfler S, Baur M, Braun CK, Hummler H, Schwarz S, Pressmar J, and Kalbitz M
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- Animals, Animals, Newborn metabolism, Asphyxia physiopathology, Asphyxia Neonatorum metabolism, Cell Adhesion Molecules metabolism, Claudins metabolism, Connexin 43 metabolism, Disease Models, Animal, Gap Junctions, Lung Injury metabolism, Occludin metabolism, Peroxidase analysis, Pulmonary Surfactant-Associated Protein D analysis, Shock, Hemorrhagic immunology, Shock, Hemorrhagic metabolism, Swine, Tight Junctions metabolism, Asphyxia Neonatorum physiopathology, Lung physiopathology, Lung Injury physiopathology
- Abstract
Objective: Asphyxia of newborns is a severe and frequent challenge of the peri- and postnatal period. The purpose of this study was to study early morphological, immunological and structural alterations in lung tissue after asphyxia and hemorrhage (AH)., Methods: 44 neonatal piglets (age 32 hrs) underwent asphyxia and hemorrhage (AH) and were treated according to the international liaison committee of resuscitation (ILCOR) guidelines. For this study, 15 piglets (blood transfusion (RBC) n = 9; NaCl n = 6, mean age 31 hrs) were randomly picked. 4 hours after ROSC (return of spontaneous circulation), lung tissue and blood samples were collected., Results: An elevation of myeloperoxidase (MPO) activity was observed 4 hrs after AH accompanied by an increase of surfactant D after RBC treatment. After AH tight junction proteins Claudin 18 and junctional adhesion molecule 1 (JAM1) were down-regulated, whereas Occludin was increased. Furthermore, after AH and RBC treatment dephosphorylated active form of Connexin 43 was increased., Conclusions: AH in neonatal pigs is associated with early lung injury, inflammation and alterations of tight junctions (Claudin, Occludin, JAM-1) and gap junctions (Connexin 43) in lung tissue, which contributes to the development of lung edema and impaired function., Competing Interests: The authors have declared that no competing interests exist.
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- 2019
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24. Protective Effects of the Complement Inhibitor Compstatin CP40 in Hemorrhagic Shock.
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van Griensven M, Ricklin D, Denk S, Halbgebauer R, Braun CK, Schultze A, Hönes F, Koutsogiannaki S, Primikyri A, Reis E, Messerer D, Hafner S, Radermacher P, Biglarnia AR, Resuello RRG, Tuplano JV, Mayer B, Nilsson K, Nilsson B, Lambris JD, and Huber-Lang M
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- Animals, Male, Macaca fascicularis, Complement Inactivating Agents pharmacology, Peptides, Cyclic pharmacology, Shock, Hemorrhagic blood, Shock, Hemorrhagic pathology, Shock, Hemorrhagic prevention & control
- Abstract
Trauma-induced hemorrhagic shock (HS) plays a decisive role in the development of immune, coagulation, and organ dysfunction often resulting in a poor clinical outcome. Imbalanced complement activation is intricately associated with the molecular danger response and organ damage after HS. Thus, inhibition of the central complement component C3 as turnstile of both inflammation and coagulation is hypothesized as a rational strategy to improve the clinical course after HS.Applying intensive care conditions, anaesthetized, monitored, and protectively ventilated nonhuman primates (NHP; cynomolgus monkeys) received a pressure-controlled severe HS (60 min at mean arterial pressure 30 mmHg) with subsequent volume resuscitation. Thirty minutes after HS, animals were randomly treated with either an analog of the C3 inhibitor compstatin (i.e., Cp40) in saline (n = 4) or with saline alone (n = 4). The observation period lasted 300 min after induction of HS.We observed improved kidney function in compstatin Cp40-treated animals after HS as determined by improved urine output, reduced damage markers and a tendency of less histopathological signs of acute kidney injury. Sham-treated animals revealed classical signs of mucosal edema, especially in the ileum and colon reflected by worsened microscopic intestinal injury scores. In contrast, Cp40-treated HS animals exhibited only minor signs of organ edema and significantly less intestinal damage. Furthermore, early systemic inflammation and coagulation dysfunction were both ameliorated by Cp40.The data suggest that therapeutic inhibition of C3 is capable to significantly improve immune, coagulation, and organ function and to preserve organ-barrier integrity early after traumatic HS. C3-targeted complement inhibition may therefore reflect a promising therapeutic strategy in fighting fatal consequences of HS.
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- 2019
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25. Complement C5a Alters the Membrane Potential of Neutrophils during Hemorrhagic Shock.
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Messerer DAC, Denk S, Föhr KJ, Halbgebauer R, Braun CK, Hönes F, Harant J, Fauler M, Frick M, Nußbaum BL, Radermacher P, Hafner S, and Huber-Lang MS
- Subjects
- Animals, Cells, Cultured, Dose-Response Relationship, Drug, Electrophysiology, Flow Cytometry, Humans, Hydrogen-Ion Concentration, Male, Swine, Complement C5a pharmacology, Membrane Potentials drug effects, Neutrophils drug effects, Neutrophils metabolism, Shock, Hemorrhagic metabolism
- Abstract
Background: Polymorphonuclear granulocytes (PMN) play a crucial role in host defense. Physiologically, exposure of PMN to the complement activation product C5a results in a protective response against pathogens, whereas in the case of systemic inflammation, excessive C5a substantially impairs neutrophil functions. To further elucidate the inability of PMN to properly respond to C5a, this study investigates the role of the cellular membrane potential of PMN in response to C5a., Methods: Electrophysiological changes in cellular and mitochondrial membrane potential and intracellular pH of PMN from human healthy volunteers were determined by flow cytometry after exposure to C5a. Furthermore, PMN from male Bretoncelles-Meishan-Willebrand cross-bred pigs before and three hours after severe hemorrhagic shock were analyzed for their electrophysiological response., Results: PMN showed a significant dose- and time-dependent depolarization in response to C5a with a strong response after one minute. The chemotactic peptide fMLP also evoked a significant shift in the membrane potential of PMN. Acidification of the cellular microenvironment significantly enhanced depolarization of PMN. In a clinically relevant model of porcine hemorrhagic shock, the C5a-induced changes in membrane potential of PMN were markedly diminished compared to healthy littermates. Overall, these membrane potential changes may contribute to PMN dysfunction in an inflammatory environment.
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- 2018
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26. Hemorrhagic shock drives glycocalyx, barrier and organ dysfunction early after polytrauma.
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Halbgebauer R, Braun CK, Denk S, Mayer B, Cinelli P, Radermacher P, Wanner GA, Simmen HP, Gebhard F, Rittirsch D, and Huber-Lang M
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- Adolescent, Adult, Aged, Aged, 80 and over, Emergency Service, Hospital, Female, Germany epidemiology, Humans, Injury Severity Score, Longitudinal Studies, Male, Middle Aged, Predictive Value of Tests, Prospective Studies, Shock, Hemorrhagic blood, Young Adult, Biomarkers blood, Glycocalyx metabolism, Multiple Trauma, Shock, Hemorrhagic mortality
- Abstract
Polytrauma (PT) is frequently associated with hemorrhagic shock (HS), which increases morbidity and mortality. Although various aspects of HS have been addressed in PT patients, the impact of an additional HS is largely unknown regarding the development of multiple organ dysfunction associated with disturbed glycocalyx and barrier function early after trauma. A prospective, longitudinal, mono-centered, observational study enrolling severely injured patients (Injury Severity Score, ISS=38.1±2.6) served for an in-depth analysis of blood (drawn on days 0, 1, 2, 3 and 5) and clinical data (up to 21days) of 30 patients who were then stratified into PT with and without HS. HS significantly enhanced signs of acute organ injury, assessed by increased serum concentrations of novel damage markers. Moreover, indicators of glycocalyx and tight-junction dysfunction were found in PT patients all of which were significantly enhanced in co-presence of HS. These markers revealed multiple significant correlations with specific barrier, fluid-balance, coagulation, inflammation, and clinical-outcome parameters. Strikingly, mucosa fragments, which affected clotting, could be detected in serum after PT/HS. The results point to HS as a main driver for glycocalyx and barrier breakdown and suggest novel tools for the monitoring of organ dysfunction in the early course after PT., (Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.)
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- 2018
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27. Role of Hemorrhagic Shock in Experimental Polytrauma.
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Denk S, Weckbach S, Eisele P, Braun CK, Wiegner R, Ohmann JJ, Wrba L, Hoenes FM, Kellermann P, Radermacher P, Wachter U, Hafner S, McCook O, Schultze A, Palmer A, Braumüller S, Gebhard F, and Huber-Lang M
- Subjects
- Animals, Bronchoalveolar Lavage, Creatinine blood, Disease Models, Animal, Enzyme-Linked Immunosorbent Assay, HMGB1 Protein metabolism, Interleukin-6 blood, Kidney metabolism, Mice, Mice, Inbred C57BL, Multiple Trauma metabolism, Peroxidase metabolism, Random Allocation, Shock, Hemorrhagic metabolism, Multiple Trauma blood, Multiple Trauma physiopathology, Shock, Hemorrhagic blood, Shock, Hemorrhagic physiopathology
- Abstract
Hemorrhagic shock (HS) after tissue trauma increases the complication and mortality rate of polytrauma (PT) patients. Although several murine trauma models have been introduced, there is a lack of knowledge about the exact impact of an additional HS. We hypothesized that HS significantly contributes to organ injury, which can be reliably monitored by detection of specific organ damage markers. Therefore we established a novel clinically relevant PT plus HS model in C57BL/6 mice which were randomly assigned to control, HS, PT, or PT+HS procedure (n = 8 per group). For induction of PT, anesthetized animals received a blunt chest trauma, head injury, femur fracture, and soft tissue injury. HS was induced by pressure-controlled blood drawing (mean arterial blood pressure of 30 mmHg for 60 min) and mice then resuscitated with ionosterile (4 × volume drawn), monitored, and killed for blood and organ harvesting 4 h after injury. After HS and resuscitation, PT+HS mice required earlier and overall more catecholamine support than HS animals to keep their mean arterial blood pressure. HS significantly contributed to the systemic release of interleukin-6 and high mobility group box 1 protein. Furthermore, the histological lung injury score, pulmonary edema, neutrophil influx, and plasma clara cell protein 16 were all significantly enhanced in PT animals in the presence of an additional HS. Although early morphological changes were minor, HS also contributed functionally to remote acute kidney injury but not to early liver damage. Moreover, PT-induced systemic endothelial injury, as determined by plasma syndecan-1 levels, was significantly aggravated by an additional HS. These results indicate that HS adds to the systemic inflammatory reaction early after PT. Within hours after PT, HS seems to aggravate pulmonary damage and to worsen renal and endothelial function which might overall contribute to the development of early multiple organ dysfunction.
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- 2018
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28. Cardiac Depression in Pigs after Multiple Trauma - Characterization of Posttraumatic Structural and Functional Alterations.
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Kalbitz M, Schwarz S, Weber B, Bosch B, Pressmar J, Hoenes FM, Braun CK, Horst K, Simon TP, Pfeifer R, Störmann P, Hummler H, Gebhard F, Pape HC, Huber-Lang M, and Hildebrand F
- Subjects
- Actinin metabolism, Animals, Apoptosis physiology, Connexin 43 metabolism, Cytosol metabolism, Cytosol physiology, Desmin metabolism, Echocardiography methods, Fatty Acid Binding Protein 3 metabolism, Heart Injuries metabolism, Heart Ventricles metabolism, Histones metabolism, Interleukin-1beta metabolism, Male, Multiple Trauma metabolism, Myocytes, Cardiac metabolism, Myocytes, Cardiac pathology, Swine, Troponin I metabolism, Zonula Occludens-1 Protein metabolism, Heart Injuries pathology, Heart Injuries physiopathology, Heart Ventricles pathology, Multiple Trauma pathology
- Abstract
The purpose of this study was to define the relationship between cardiac depression and morphological and immunological alterations in cardiac tissue after multiple trauma. However, the mechanistic basis of depressed cardiac function after trauma is still elusive. In a porcine polytrauma model including blunt chest trauma, liver laceration, femur fracture and haemorrhage serial trans-thoracic echocardiography was performed and correlated with cellular cardiac injury as well as with the occurrence of extracellular histones in serum. Postmortem analysis of heart tissue was performed 72 h after trauma. Ejection fraction and shortening fraction of the left ventricle were significantly impaired between 4 and 27 h after trauma. H-FABP, troponin I and extracellular histones were elevated early after trauma and returned to baseline after 24 and 48 h, respectively. Furthermore, increased nitrotyrosine and Il-1β generation and apoptosis were identified in cardiac tissue after trauma. Main structural findings revealed alteration of connexin 43 (Cx43) and co-translocation of Cx43 and zonula occludens 1 to the cytosol, reduction of α-actinin and increase of desmin in cardiomyocytes after trauma. The cellular and subcellular events demonstrated in this report may for the first time explain molecular mechanisms associated with cardiac dysfunction after multiple trauma.
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- 2017
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29. Evaluation of gut-blood barrier dysfunction in various models of trauma, hemorrhagic shock, and burn injury.
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Wrba L, Palmer A, Braun CK, and Huber-Lang M
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- Animals, Biomarkers blood, Brain Injuries blood, Brain Injuries physiopathology, Disease Models, Animal, Humans, Permeability, Risk Assessment, Risk Factors, Burns blood, Burns physiopathology, Intestinal Mucosa physiopathology, Shock, Hemorrhagic blood, Shock, Hemorrhagic physiopathology, Wounds and Injuries blood, Wounds and Injuries physiopathology
- Published
- 2017
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30. Early structural changes of the heart after experimental polytrauma and hemorrhagic shock.
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Braun CK, Kalbitz M, Halbgebauer R, Eisele P, Messerer DAC, Weckbach S, Schultze A, Braumüller S, Gebhard F, and Huber-Lang MS
- Subjects
- Humans, Heart physiopathology, Multiple Trauma pathology, Shock, Hemorrhagic pathology
- Abstract
Evidence is emerging that systemic inflammation after trauma drives structural and functional impairment of cardiomyocytes and leads to cardiac dysfunction, thus worsening the outcome of polytrauma patients. This study investigates the structural and molecular changes in heart tissue 4 h after multiple injuries with additional hemorrhagic shock using a clinically relevant rodent model of polytrauma. We determined mediators of systemic inflammation (keratinocyte chemoattractant, macrophage chemotactic protein 1), activated complement component C3a and cardiac troponin I in plasma and assessed histological specimen of the mouse heart via standard histomorphology and immunohistochemistry for cellular and subcellular damage and ongoing apoptosis. Further we investigated spatial and quantitative changes of connexin 43 by immunohistochemistry and western blotting. Our results show significantly increased plasma levels of both keratinocyte chemoattractant and cardiac troponin I 4 h after polytrauma and 2 h after induction of hypovolemia. Although we could not detect any morphological changes, immunohistochemical evaluation showed increased level of tissue high-mobility group box 1, which is both a damage-associated molecule and actively released as a danger response signal. Additionally, there was marked lateralization of the cardiac gap-junction protein connexin 43 following combined polytrauma and hemorrhagic shock. These results demonstrate a molecular manifestation of remote injury of cardiac muscle cells in the early phase after polytrauma and hemorrhagic shock with marked disruption of the cardiac gap junction. This disruption of an important component of the electrical conduction system of the heart may lead to arrhythmia and consequently to cardiac dysfunction.
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- 2017
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