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Schwerverletzte Patienten folgen einem biphasischen Mortalitätsmuster, mit einem ersten frühen Mortalitätsgipfel aufgrund von schweren Verletzungen des zentralen Nervensystems oder durch massiven Blutverlust. Der zweite, später auftretende Traumatod ist mit einer immunologischen Dysregulierung verbunden, welche durch eine ausgeprägte Inflammation häufig im (Multi)-Organversagen endet. Insbesonders thorakale Verletzungen sowie das Erleiden eines hämorrhagischen Schocks prädisponieren den Organismus für die Entwicklung von pulmonalen Komplikationen im klinischen Folgevelauf. Alkohol spielt hierbei eine wichtige Rolle. In den vergangenen 15 Jahren hat sich zwar die Anzahl der „Alkoholunfälle“ mit Personenschaden reduziert, dennoch tritt Alkohol als eine der häufigsten Unfallursachen bei 18-34jährigen auf. Zudem hat Alkohol durch seine immunmodulatorischen Eigenschaften einen signifikanten Einfluss auf die Entwicklung und Prognose von (infektiösen) Komplikationen im klinischen Folgeverlauf. Verunfallte Patienten mit einer akuten Alkoholintoxikation zeigen im Vergleich zu chronisch Alkoholisierten eine verringerte 24-Stunden-Letalität nach Trauma. Die Studienlage zu den Hintergründen ist äußerst kontrovers, und stellt den Kern der vorliegenden Arbeit dar. Eine zentrale Rolle in der Genese der post-traumatisch inflammatorischen Immunantwort nehmen die Monozyten, sowie die Alveolarmakrophagen (AM) in der Lunge, aber auch zirkulierende polymorphonukleäre Leukozyten (PMNL) insbesondere neutrophile Granulozyten ein. Die Monozyten aktivieren bspw. über die Inflammasomassemblierung Caspase-1 (Pyroptose), die das inaktive Interleukin (IL)-1β in seine aktive Form prozessiert, aktiviert und seine Sezernierung induziert. Neutrophile Granulozyten, die ebenfalls durch inflammatorische und chemotaktische Reize aktiviert werden, infiltieren durch Modifikationen ihrer Oberflächenrezeptoren wie CD11b, CD62L und CD31 entzündetes Gewebe. Am Ort der „Schädigung“ weisen sie eine prolongierte Lebensspanne auf, und tragen durch ihre verstärkte Akkumulation so zu einem hyper-inflammatorischen Zustand bei. Folglich wird das eigene Gewebe geschädigt, was im Verlust der Zell- und Organintegrität enden kann. Die zugrundeliegenden Pathomechanismen wurden in diversen Studien mit der Aktivierung des Transkriptionsfaktors NF-κB assoziiert. Interessanterweise konnte die anti-inflammatorische Wirkung einer akuten Alkoholexposition mit der Hemmung des NF-κB, aber auch mit einer reduzierten Inflammasomassemblierung in vitro assoziiert werden.
Für die Untersuchung der akuten Alkoholwirkung wurde ein klinisch relevantes double hit Modell bestehend aus stumpfen Thoraxtrauma und hämorrhagischem Schock mit anschließender Flüssigkeitstherapie (TxT+H/R) genutzt. Um den Einfluss von Alkohol auf die posttraumatische Immunantwort mit Fokus auf die Rolle der zirkulierenden neutrophilen Granulozyten und Monozyten in der Genese pulmonaler Schädigungen zu untersuchen, erfolgte im vorliegenden Modell eine akute Gabe von Ethanol (5 g/kg, 30%, EtOH) zwei Stunden vor Hämorrhagie und Reperfusion. Zwei Stunden nach Reperfusion wurden die inflammatorischen Prozesse und das Outcome der Tiere untersucht.
Die Ergebnisse zeigen, dass TxT+H/R zu diffusen histopathologischen Lungenschäden führt, welche mit einer erhöhten Proteinkonzentration in der bronchoalveolären Lavage (BAL), verstärkten Infiltration des Lungengewebes mit PMNL sowie einer systemischen Aktivierung von neutrophilen Granulozyten und Monozyten verbunden war. Neutrophile Granulozyten zeigten eine signifikante Reduktion der Oberflächenexpression von CD62L und einen signifikanten Anstieg von CD11b und CD31; in zirkulierenden Monozyten konnte eine Inflammasomaktivierung durch direkten Nachweis der aktiven Caspase-1 gezeigt werden. Die Analyse der aktiven Effektorcaspasen der Apoptose Caspase-3 und -7 zeigte eine reduzierte Apoptose in zirkulierenden neutrophilen Granulozyten. Orale Gavage EtOH reduzierte signifikant die lokale Inflammation in der Lunge, welche mit einer verminderten PMNL Infiltration, verminderten IL-6 Genexpression und reduziertem BAL Proteingehalt einherging. Während die reduzierte Proteinkonzentration in der BAL durchaus für einen verminderten Lungenschaden spricht, war dieser histopathologisch nicht festellbar. Systemisch modulierte die akute EtOH-Gabe Oberflächenrezeptorexpression auf zirkulierenden neutrophilen Granulozyten, was deren reduzierte Aktivierung bestätigt. Die verminderte inflammatorische Aktivierung von zirkulierenden Monozyten und Granulozyten zeigte sich ebenfalls in der reduzierten Inflammasomaktivität.
Wir konnten wichtige Erkenntnisse für das Verständnis der Genese von pulmonalen Komplikationen nach TxT und HS, sowie die immunmodulatorischen Eigenschaften von Alkohol auf das angeborene Immunsystem darstellen. Die akute Alkoholexposition reduzierte die systemische Immunantwort, welcher in diesem klinisch relevanten Kombinationstrauma vermutlich eine reduzierte lokale Inflammationsantwort folgte. In weiterführenden Studien sollten die zugrundeliegenden Signalwege, Einfluss der Traumachwere sowie der Schwere der Alkoholintoxikation untersucht werden.
Influence of antibiotic management on microbial selection and infectious complications after trauma
(2021)
Background: The inflammatory response and post-traumatic complications like infections play an important role in the pathophysiology of severe injuries. This study examines the microbiological aspects in anti-infective treatment of trauma patients and their inflammatory response in post-traumatic infections complications. Patients and Methods: A retrospective analysis of prospectively collected data in trauma patients (ISS ≥ 16) over a 1-year period (01/2018 to 12/2018) is provided. Patient population was stratified into severely injured patients without post-traumatic infection (inf-PT), and severely injured patients who developed an infection (inf+PT).Results: Of 114 trauma patients, 45 suffered from post-traumatic infection during the first 10 days of hospitalization. Severely injured patients with concomitant traumatic brain injury (PT+TBI) showed the highest rate of post-traumatic infection. Pro-inflammatory reaction was tracked by levels of Interleukin (IL-)6 (day 3: inf+T 190.8 ± 359.4 pg/dL > inf-PT 56.2 ± 57.7 pg/mL (mean ± SD); p = 0.008) and C-Reactive-Protein (CRP, day 3: inf+PT 15.3 mg/dL > inf-PT 6.7 mg/dL, p = 0.001) which were significantly higher in trauma patients who develop an infectious complication and showed a significant positive correlation with the occurrence of infection. The leading entity of infection was pneumonia followed by infections of the urinary tract mainly caused by gram-negative Enterobacteriaceae. 67.5% of all trauma patients received single-shot antibiosis during initial care in trauma bay. The development of secondary colonization was not relevant positively correlated with single-shot antibiosis (r = 0.013, p = 0.895) and prophylactically calculated antibiotic administration (r = 0.066, p = 0.500).Conclusion: Severely injured trauma patients have an increased risk for development of infectious complications, which mainly is pneumonia followed by infection of the urinary tract mainly caused by gram-negative Enterobacteriaceae. Based on the data in this study, the one-time antibiotic and prophylactic calculated use of antibiotics, like Cephalosporins must be critically discussed in terms of their role in the development of post-traumatic infections and microbial selection.
Due to the continued high incidence and mortality rate worldwide, there is a need to develop new strategies for the quick, precise, and valuable recognition of presenting injury pattern in traumatized and poly-traumatized patients. Extracellular vesicles (EVs) have been shown to facilitate intercellular communication processes between cells in close proximity as well as distant cells in healthy and disease organisms. miRNAs and proteins transferred by EVs play biological roles in maintaining normal organ structure and function under physiological conditions. In pathological conditions, EVs change the miRNAs and protein cargo composition, mediating or suppressing the injury consequences. Therefore, incorporating EVs with their unique protein and miRNAs signature into the list of promising new biomarkers is a logical next step. In this review, we discuss the general characteristics and technical aspects of EVs isolation and characterization. We discuss results of recent in vitro, in vivo, and patients study describing the role of EVs in different inflammatory diseases and traumatic organ injuries. miRNAs and protein signature of EVs found in patients with acute organ injury are also debated.
Short Summary: Extracellular vesicles (EVs), released during tissue/cell injury, contain a "barcode" indicating specific microRNAs (miRs) that can uncover their origin. We examined whether systemic EVs possessing hepatic miR-signatures would indicate ongoing liver injury and clinical complications in trauma patients (TP). We grouped the patients of alcoholic drinkers into "alcohol-drinkers with liver injury (LI)" (EtOH with LI) or "alcohol-drinkers without LI" (EtOH w/o LI) and we compared these groups to "non-drinkers" (no EtOH). When we examined patient blood from the EtOH with LI group we found the total number of EVs to be increased, along with an increase in miR-122 and let7f—two EV-associated miRNAs—and several inflammation-associating cytokines, such as interleukin (IL)-6 and IL-33. In contrast, all of the aforementioned readouts were found to be decreased in the EtOH w/o LI group. These novel data demonstrate that hepatocyte damage in alcohol-intoxicated trauma patients presenting with liver injury can be reflected by an increase in circulating serum EVs, their specific miR-"barcode" and the concomitant increase of systemic inflammatory markers IL-6 and IL-33. Anti-inflammatory effect of alcohol-drinking in EtOH w/o LI can be presented by a reduced number of hepato-derived EVs, no upregulation of IL-6 and IL-33, and a miR "barcode" different from patients presenting with liver injury.
Background: Alcohol abuse is associated with (neuro)protective effects related to (head) injuries, and with negative effects regarding infection rates and survival in severely injured trauma patients (TP). Extracellular vesicles (EVs), which are released during tissue and/or cell injury, can contain a "barcode" including specific microRNAs (miRs) that uncover their origin. We examined whether EVs with a hepatic miR signature can be systemically measured, and whether they can indicate ongoing liver injury in alcohol-intoxicated TP and foretell clinical complications.
Patients/Methods: We enrolled 35 TP and measured blood EVs, IL-6, TNF-alpha, IL-1beta, IL-10 and IL-33, alcohol (ethanol, EtOH) concentration (BAC), GLDH, GGT, AST, ALT, leukocytes, platelets, and bilirubin. Within circulating EVs we measured the expression levels of miR-122, let7f, miR21, miR29a, miR-155, and miR-146a. Patients of alcohol-drinkers were grouped into "alcohol drinkers with liver injury (LI)" (EtOH with LI) or "alcohol drinkers without LI" (EtOH w/o LI) and compared to "non-drinkers" (no EtOH). We assessed systemic injury characteristics and the outcome of hospitalization with regard to sepsis, septic shock, pneumonia, or mortality.
Results: EtOH with LI patients had significantly increased rates of pneumonia vs. the EtOH w/o LI group. EVs, IL-6, and IL-33 levels were significantly increased in EtOH with LI vs. EtOH w/o LI group (p < 0.05). EV number correlated positively with ALT and IL-6 (p < 0.0001). Two miRs, miR-122 and let7f, were increased only in the blood EVs from the EtOH with LI group (p < 0.05). Five miRs, miR-122, let7f, miR-21, miR-29a, and miR-146a, were reduced in the blood EVs from the EtOH w/o LI group, vs. no EtOH (p < 0.05). Notably miR-122 correlated significantly with increased bilirubin levels in the EtOH with LI group (p < 0.05).
Conclusions: Liver injury in alcohol-intoxicated TP is reflected by increased EV numbers, their specific miR barcode, and the correlated increase of systemic inflammatory markers IL-6 and IL-33. Interestingly, severely injured TP without liver injury were found to have a reduced number of liver-derived EVs, no observed inflammatory infiltration and reduced specific miR "barcode."
Background: The treatment of patients with multiple trauma including blunt chest/thoracic trauma (TxT) and hemorrhagic shock (H) is still challenging. Numerous studies show detrimental consequences of TxT and HS resulting in strong inflammatory changes, organ injury and mortality. Additionally, the reperfusion (R) phase plays a key role in triggering inflammation and worsening outcome. Ethyl pyruvate (EP), a stable lipophilic ester, has anti-inflammatory properties. Here, the influence of EP on the inflammatory reaction and liver injury in a double hit model of TxT and H/R in rats was explored.
Methods: Female Lewis rats were subjected to TxT followed by hemorrhage/H (60 min, 35±3 mm Hg) and resuscitation/R (TxT+H/R). Reperfusion was performed by either Ringer`s lactated solution (RL) alone or RL supplemented with EP (50 mg/kg). Sham animals underwent all surgical procedures without TxT+H/R. After 2h, blood and liver tissue were collected for analyses, and survival was assessed after 24h.
Results: Resuscitation with EP significantly improved haemoglobin levels and base excess recovery compared with controls after TxT+H/R, respectively (p<0.05). TxT+H/R-induced significant increase in alanine aminotransferase levels and liver injury were attenuated by EP compared with controls (p<0.05). Local inflammation as shown by increased gene expression of IL-6 and ICAM-1, enhanced ICAM-1 and HMGB1 protein expression and infiltration of the liver with neutrophils were also significantly attenuated by EP compared with controls after TxT+H/R (p<0.05). EP significantly reduced TxT+H/R-induced p65 activation in liver tissue. Survival rates improved by EP from 50% to 70% after TxT+H/R.
Conclusions: These data support the concept that the pronounced local pro-inflammatory response in the liver after blunt chest trauma and hemorrhagic shock is associated with NF-κB. In particular, the beneficial anti-inflammatory effects of ethyl pyruvate seem to be regulated by the HMGB1/NF-κB axis in the liver, thereby, restraining inflammatory responses and liver injury after double hit trauma in the rat.
Background: Blunt chest (thoracic) trauma (TxT) and haemorrhagic shock with subsequent resuscitation (H/R) induce strong systemic and local inflammatory response, which is closely associated with apoptotic cell loss and subsequently impaired organ function. The underlying mechanisms are not completely understood, therefore, the treatment of patients suffering from TxT+H/R is challenging. In our recent studies, we have demonstrated local anti-inflammatory effects of ethyl pyruvate (EtP) in lung and liver after TxT+H/R. Here, the therapeutic potential of a reperfusion regime with EtP on the early post-traumatic systemic inflammatory response and apoptotic changes after TxT followed by H/R were investigated.
Methods: Female Lewis rats underwent TxT followed by haemorrhagic shock (60 min). Resuscitation was performed with own blood transfusion and either lactated Ringers solution (LR) or LR supplemented with EtP (50 mg/kg). Sham group underwent the surgical procedures. After 2 h blood as well as lung and liver tissues were obtained for analyses. Systemic activation of neutrophils (expression of CD11b and CD62L), leukocyte phagocytosis, apoptosis (caspase-3/7 activation), pyroptosis (caspase-1 activation) and NF-κB p65 activity were assessed. p < 0.05 was considered significant.
Results: TxT+H/R-induced systemic activation of neutrophils (increased CD11b and reduced CD62L expression) was significantly reduced by EtP. Trauma-induced delayed neutrophil apoptosis was further reduced by EtP reperfusion but remained unaltered in monocytes. Reperfusion with EtP significantly increased the phagocytizing capacity of granulocytes. Trauma-induced inflammasome activation, which was observed in monocytes and not in neutrophils, was significantly reduced by EtP in both cell entities. NF-κB p65 activation, which was increased in neutrophils and monocytes was significantly decreased in monocytes.
Conclusion: TxT+H/R-induced systemic activation of both neutrophils and monocytes concomitant with increased systemic inflammation was reduced by a reperfusion with EtP and was associated with a down-regulation of NF-κB p65 activation.