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Institute
Die supratentorielle dekompressive Kraniektomie mit Eröffnung und Erweiterungsplastik der Dura mater ist heutzutage eine wichtige Therapiemaßnahme in der Behandlung des konservativ nicht kontrollierbaren Hirndrucks. Unter Kranioplastik versteht man den chirurgischen Verschluss des entstandenen Knochendefekts zum Schutz des direkt unter der Kopfhaut liegenden Gehirns, zur ästhetischen Wiederherstellung der Konturen sowie zur Verbesserung einer neurologischen Symptomatik („syndrome of the trephined“).
In der vorliegenden Arbeit werden die Daten von insgesamt 242 Patienten, die einer Kranioplastik unterzogen worden waren, retrospektiv analysiert. Die Patienten wurden im Zeitraum 2001-2008 in der neurochirurgischen Abteilung der Städtischen Kliniken Frankfurt am Main-Höchst operiert. Um Aufschluss über das postoperative, funktionelle und kosmetische Ergebnis zu erhalten, wurde im Anschluss an die Aktenauswertung bei diesen Patienten eine telefonische Befragung durchgeführt.
Ziel der Arbeit war es, die bisherigen Erfahrungen der Kalottenplastik und insbesondere der autogenen orthotopen Knochendeckelreimplantation im Hinblick auf die verschiedenen Kranioplastik Zeitpunkte zu untersuchen und unter klinischen Aspekten zu bewerten.
Die Frage des Kranioplastik Zeitpunktes ist essentiell für die Therapieplanung.
Das autologe Schädelknochentransplantat hat bessere Eigenschaften und Qualitäten als alle anderen alloplastischen Materialien. In Anbetracht der perfekten Histokompatibilität, der optimalen biomechanischen Eigenschaften, der guten anatomischen Fusion mit dem umgebenden Knochen und der Möglichkeit der partiellen oder totalen Revitalisation des Transplantats, besteht kein Zweifel, dass der autologe Knochen immer zu verwenden ist, wenn die Möglichkeit dazu besteht.
Die Analyse der Patientengruppen ergab, dass die ultra frühe Kranioplastik der Patienten mit großen Defekten nach dekompressiver Kraniektomie ein besseres Outcome im langfristigen Follow-up hat. Diese Patienten hatten keine gesteigerte Infektions- oder andere Komplikationsraten. Das Timing der Kranioplastik spielt eine Rolle in der Komplikationsrate nur bei den Patienten, die sekundär eine Komplikation erlitten haben. Patienten, die nach der Kraniektomie eine Nachblutung, einen Infarkt oder eine Infektion erlitten haben, hatten eine signifikant höhere Infektionsrate bei ultra früher Kranioplastik. Insbesondere soll betont werden, dass der Trend einer Häufung von Wundheilungsstörungen und Infektionen mit der Folge einer erneuten Explantation des Knochendeckels bei Patienten nach autogener Knochendeckelreimplantation mit mehr als 2 Risikofaktoren und bei Patienten mit kompliziertem Verlauf nach Kraniektomie festgestellt wurde.
Gemäß den Ergebnissen dieser Patientenserie kann die ultra frühe Kranioplastik bei ausgewählten Patienten mittels Reimplantation des Eigenknochens als ein sicheres und hilfreiches Verfahren für die schnellere Rehabilitation und Besserung der neurologischen Funktion und der Prognose bewertet werden. Ähnlich gute Ergebnisse zeigten die Pantienten in der Gruppe 1 der ultra frühen Kranioplastik die aufgrund einer Liquorzirkulationsstörung ein VP Shunt System als kombinierte Therapie in der gleichen Sitzung erhalten haben.
Somit kann zusammenfassend festgehalten werden:
Die Ergebnisse dieser Arbeit bestätigen, dass die Kranioplastik nach einer supratentoriellen dekompressiven Kraniektomie mit Reimplantation des eigenen Schädelknochens zum frühesten möglichen Zeitpunkt ein sicheres und effektives Verfahren darstellt und bei ausgewählten Patienten sogar bessere Ergebnisse als die späte Kranioplastik haben kann. Eine mögliche Erklärung dafür könnte das Auftreten und die Persistenz von neurologischen Defiziten im Rahmen des „syndrome of the trephined“ bei Patienten bieten, bei denen eine späte Kranioplastik durchgeführt wurde. In diesem Patientengut hatten die Patienten mit ultra-früher Kranioplastik das beste neurologische Outcome, die Komplikationsrate war in allen Gruppen vergleichbar.
Um Komplikationen zu vermeiden, sollten Patienten mit einer vorausgegangenen lokalen Infektion spät kranioplastiert werden.
Das neurologische Outcome der Patienten, bei denen ein kombiniertes Verfahren Kranioplastik –VP Shunt durchgeführt wurde, war vergleichbar mit anderen Patientengruppen. Somit ist eine Kranioplastik bei Patienten mit konvexen, über Kalottenniveau prolabierten Kraniektomielappen aufgrund eines Hydrocephalus keine Kontraindikation.
Inhibition of the soluble epoxide hydrolase (sEH) has beneficial effects on vascular inflammation and hypertension indicating that the enzyme may be a promising target for drug development. As the enzymatic core of the hydrolase domain of the human sEH contains two tyrosine residues (Tyr383 and Tyr466) that are theoretically crucial for enzymatic activity, we addressed the hypothesis that the activity of the sEH may be affected by nitrosative stress. Epoxide hydrolase activity was detected in human and murine endothelial cells as well in HEK293 cells and could be inhibited by either authentic peroxynitrite (ONOO−) or the ONOO− generator 3-morpholino-sydnonimine (SIN-1). Protection of the enzymatic core with 1-adamantyl-3-cyclohexylurea in vitro decreased sensitivity to SIN-1. Both ONOO− and SIN-1 elicited the tyrosine nitration of the sEH protein and mass spectrometry analysis of tryptic fragments revealed nitration on several tyrosine residues including Tyr383 and Tyr466. Mutation of the latter residues to phenylalanine was sufficient to abrogate epoxide hydrolase activity. In vivo, streptozotocin-induced diabetes resulted in the tyrosine nitration of the sEH in murine lungs and a significant decrease in its activity. Taken together, these data indicate that the activity of the sEH can be regulated by the tyrosine nitration of the protein. Moreover, nitrosative stress would be expected to potentiate the physiological actions of arachidonic acid epoxides by preventing their metabolism to the corresponding diols.
It is well known that Luis Kutner (1908-1993) played an important role in the development of the living will (advance directive, Patientenverfügung). But it is not clear when he developed his concept. We have screened the Luis Kutner Papers,deposited at the Hoover Institution Archives at Stanford University to answer this question. We found out that in the second half of 1967, Kutner dealt intensively with the issue of euthanasia. On December 7, 1967, he delivered a speech at the annual meeting of the Euthanasia Society in New York and presented the concept of the living will to the audience. So Kutner surely was a pioneer in this field, but further research is necessary to clarify, if he (or maybe Elsa W. Simon or Abraham L. Wolbarst) was the "originator" of the living will concept in the sense of passive euthanasia.
The mode of the antitumoral activity of multimutated oncolytic herpes simplex virus type 1 G207 has not been fully elucidated yet. Because the antitumoral activity of many drugs involves the inhibition of tumor blood vessel formation, we determined if G207 had an influence on angiogenesis. Monolayers of human umbilical vein endothelial cells and human dermal microvascular endothelial cells, but not human dermal fibroblasts, bronchial epithelial cells, and retinal glial cells, were highly sensitive to the replicative and cytotoxic effects of G207. Moreover, G207 infection caused the destruction of endothelial cell tubes in vitro. In the in vivo Matrigel plug assay in mice, G207 suppressed the formation of perfused vessels. Intratumoral treatment of established human rhabdomyosarcoma xenografts with G207 led to the destruction of tumor vessels and tumor regression. Ultrastructural investigations revealed the presence of viral particles in both tumor and endothelial cells of G207-treated xenografts, but not in adjacent normal tissues. These findings show that G207 may suppress tumor growth, in part, due to inhibition of angiogenesis.
The YidC/Oxa1/Alb3 family of membrane proteins controls the insertion and assembly of membrane proteins in bacteria, mitochondria, and chloroplasts. Here we describe the molecular mechanisms underlying the interaction of Alb3 with the chloroplast signal recognition particle (cpSRP). The Alb3 C-terminal domain (A3CT) is intrinsically disordered and recruits cpSRP to the thylakoid membrane by a coupled binding and folding mechanism. Two conserved, positively charged motifs reminiscent of chromodomain interaction motifs in histone tails are identified in A3CT that are essential for the Alb3-cpSRP43 interaction. They are absent in the C-terminal domain of Alb4, which therefore does not interact with cpSRP43. Chromodomain 2 in cpSRP43 appears as a central binding platform that can interact simultaneously with A3CT and cpSRP54. The observed negative cooperativity of the two binding events provides the first insights into cargo release at the thylakoid membrane. Taken together, our data show how Alb3 participates in cpSRP-dependent membrane targeting, and our data provide a molecular explanation why Alb4 cannot compensate for the loss of Alb3. Oxa1 and YidC utilize their positively charged, C-terminal domains for ribosome interaction in co-translational targeting. Alb3 is adapted for the chloroplast-specific Alb3-cpSRP43 interaction in post-translational targeting by extending the spectrum of chromodomain interactions.
Aim of antiviral therapy of patients with chronic hepatitis C is the sustained elimination of the hepatitis C virus (HCV). The standard of care (SOC) is peginterferon alfa-2a/-2b with ribavirin for 48 weeks or 24 weeks in patients infected with HCV genotype 1 or 2/3, respectively. Overall, approximately half of the patients can be cured by SOC. Based on baseline viral load and the speed of virologic response during treatment, individualization of treatment duration is possible. However, this approach is not sufficient to substantially improve the sustained virologic response (SVR) rates. This goal can be achieved with new HCV specific inhibitors against the NS3/4A polymerase and the NS5B polymerase. Recent trials reported SVR rates in the order of 67-69% and 67-75% for the combination of SOC with the protease inhibitors telaprevir and boceprevir, respectively, in patients with HCV genotype 1 infection. Several new HCV specific inhibitors such as protease inhibitors, nucleoside and non-nucleoside polymerase inhibitors as well as non HCV specific compounds with anti-HCV activity such as cyclophilin inhibitors, silibinin, and nitazoxanide are currently in clinical evaluation. The review describes recent developments and discusses limitations posed by resistance development and drug toxicity.
Although human cytomegalovirus (HCMV) is generally not regarded to be an oncogenic virus, HCMV infection has been implicated in malignant diseases from different cancer entities. On the basis of our experimental findings, we developed the concept of “oncomodulation” to better explain the role of HCMV in cancer. Oncomodulation means that HCMV infects tumor cells and increases their malignancy. By this concept, HCMV was proposed to be a therapeutic target in a fraction of cancer patients. However, the clinical relevance of HCMV-induced oncomodulation remains to be clarified. One central question that has to be definitively answered is if HCMV establishes persistent virus replication in tumor cells or not. In our eyes, recent clinical findings from different groups in glioblastoma patients and especially the detection of a correlation between the numbers of HCMV-infected glioblastoma cells and tumor stage (malignancy) strongly increase the evidence that HCMV may exert oncomodulatory effects. Here, we summarize the currently available knowledge about the molecular mechanisms that may contribute to oncomodulation by HCMV as well as the clinical findings that suggest that a fraction of tumors from different entities is indeed infected with HCMV.
Macrophages ingesting apoptotic cells attenuate inflammatory responses, such as reactive oxygen species (ROS) generation. In atherosclerosis, ongoing inflammation and accumulation of apoptotic/necrotic material are observed, suggesting defects of phagocytes in recognizing or responding to dying cells. Modified lipoproteins such as oxidized LDL (oxLDL) are known to promote inflammation and to interfere with apoptotic cell clearance. Here, we studied the impact of cells exposed to oxLDL on their ability to interfere with the oxidative burst in phagocytes. In contrast to apoptotic cells, cells dying in response to or in the presence of oxLDL failed to suppress ROS generation despite efficiently being taken up by phagocytes. In addition, apoptotic cells, but not oxLDL-treated cells, inhibited phosphorylation of extracellular signal-regulated kinase, which is important for NADPH oxidase activation. oxLDL treatment did not interfere with activation of the antiinflammatory transcriptional regulator peroxisome proliferator-activated receptor gamma by apoptotic cells. Moreover, cells exposed to oxLDL failed to suppress lipopolysaccharide- induced proinflammatory cytokine expression, whereas apoptotic cells attenuated these phagocyte responses. Thus, the presence of oxLDL during cell death impaired the ability of apoptotic cells to act antiinflammatory with regard to oxidative burst inhibition and cytokine expression in phagocytes.
The single nucleotide polymorphism 118A>G of the human micro-opioid receptor gene OPRM1, which leads to an exchange of the amino acid asparagine (N) to aspartic acid (D) at position 40 of the extracellular receptor region, alters the in vivo effects of opioids to different degrees in pain-processing brain regions. The most pronounced N40D effects were found in brain regions involved in the sensory processing of pain intensity. Using the mu-opioid receptor-specific agonist DAMGO, we analyzed the micro-opioid receptor signaling, expression, and binding affinity in human brain tissue sampled postmortem from the secondary somatosensory area (SII) and from the ventral posterior part of the lateral thalamus, two regions involved in the sensory processing and transmission of nociceptive information. We show that the main effect of the N40D micro-opioid receptor variant is a reduction of the agonist-induced receptor signaling efficacy. In the SII region of homo- and heterozygous carriers of the variant 118G allele (n=18), DAMGO was only 62% as efficient (p=0.002) as in homozygous carriers of the wild-type 118A allele (n=15). In contrast, the number of [3H]DAMGO binding sites was unaffected. Hence, the micro-opioid receptor G-protein coupling efficacy in SII of carriers of the 118G variant was only 58% as efficient as in homozygous carriers of the 118A allele (p<0.001). The thalamus was unaffected by the OPRM1 118A>G SNP. In conclusion, we provide a molecular basis for the reduced clinical effects of opioid analgesics in carriers of mu-opioid receptor variant N40D.
We have investigated the role of reactive oxygen species and thiol-oxidizing agents in the induction of cell death and have shown that adenocarcinoma gastric (AGS) cells respond differently to the oxidative challenge according to the signaling pathways activated. In particular, apoptosis in AGS cells is induced via the mitochondrial pathway upon treatment with thiol-oxidizing agents, such as diamide. Apoptosis is associated with persistent oxidative damage, as evidenced by the increase in carbonylated proteins and the expression/activation of DNA damage-sensitive proteins histone H2A.X and DNA-dependent protein kinase. Resistance to hydrogen peroxide is instead associated with Keap1 oxidation and rapid translocation of Nrf2 into the nucleus. Sensitivity to diamide and resistance to hydrogen peroxide are correlated with GSH redox changes, with diamide severely increasing GSSG, and hydrogen peroxide transiently inducing protein-GSH mixed disulfides. We show that p53 is activated in response to diamide treatment by the oxidative induction of the Trx1/p38(MAPK) signaling pathway. Similar results were obtained with another carcinoma cell line, CaCo2, indicating that these findings are not limited to AGS cells. Our data suggest that thiol-oxidizing agents could be exploited as inducers of apoptosis in tumor histotypes resistant to ROS-producing chemotherapeutics.