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This thesis discusses important questions of the beam dynamics in the proton-lead operation in the Large Hadron Collider (LHC) at CERN in Geneva. In two time blocks of several weeks in the years 2013 and 2016, proton-lead collisions have so far been successfully generated in the LHC and used by the experiments at the LHC. One reason for doubts regarding the successful operation in proton-lead configuration was the fact that the beams have to be accelerated with different revolution frequencies. There is long-range repulsion between the beams, since both beams share the beam chamber around the interaction points. Because of the different revolution frequencies, the positions of the interaction between the beams shift each revolution. This can lead to resonant excitation and to an increase in the transverse beam emittance, as was observed in the Relativistic Heavy-Ion Collider (RHIC). In this thesis, simulations for the LHC, RHIC and the High-Luminosity Large Hadron Collider (HL-LHC) are performed with a new model. The results for RHIC show relative growth rates of the emittances of the gold beam in gold-deuteron operation in RHIC from 0.1 %/s to 1.5 %/s. Growth rates of this magnitude were observed experimentally in RHIC. Simulations for the LHC show no significant increase of the emittance of the lead beam for different intensities of the counter-rotating beam. The simulation results confirm the measured stability of the beams in the LHC and the issue of strongly increasing emittances in RHIC is reproduced. Also, no significant increase of the emittance is predicted for the Future Circular Collider (FCC) and the HL-LHC.
Using a frequency-map analysis, this work verifies whether the interaction of the lead beam with the much smaller proton beam in the proton-lead operation of the LHC leads to diffusion within the lead beam. Experiences at HERA at DESY in Hamburg and at SppS at CERN have shown that the lifetime of the larger beam can rapidly decrease under certain circumstances. The results of the simulation show no chaotic dynamics near the beam centre of the lead beam. This result is supported by experimental observation.
A program code has been developed which calculates the beam evolution in the LHC by means of coupled differential equations. This study shows that the growth rates of the lead beam due to intra-beam scattering is overestimated and that particle bunches of the lead beam lose more intensity than assumed in the model. The analysis also shows that bunches colliding in a detector suffer additional losses that increase with decreasing crossing angle at the interaction point.
In this work, 2016 data from beam-loss monitors in combination with the luminosity and the loss rate of the beam intensity are used to determine the cross section of proton-lead collisions at the center-of-mass energy of 8.16 TeV. Beam-loss monitors that mainly detect beam losses that are not caused by the collision process itself are used to determine the total cross section via regression. An analysis of the data recorded in 2016 at the center-of-mass energy of 8.16 TeV resulted in a total cross section of σ=(2.32±0.01(stat.)±0.20(sys.)) b. This corresponds approximately to a hadronic cross section of σ(had)=(2.24±0.01(stat.)±0.21(sys.)) b. This value deviates only by 5.7 % from the theoretical value σ(had)=(2.12±0.01) b.
The simulation code for determining the beam evolution is also used to estimate the integrated luminosity of a future one-month run with proton-lead collisions. The result of the study shows that in the future the luminosity in the ATLAS and CMS experiments will increase from 15/nb per day in 2016 to 30/nb per day, which is a significant increase in terms of the performance. This operation, however, requires the use of the TCL collimators to protect the dispersion suppressors at ATLAS and CMS from collision fragments.
This work also gives an outlook on the expected luminosity production in proton-nucleus operation using ion species lighter than lead ions. For example, a change from proton-lead to proton-argon collisions would increase the integrated luminosity from monthly 0.8/nb to 9.4/nb in ATLAS and CMS. This is an increase of one order of magnitude and approximately a doubling of the integrated nucleon-nucleon luminosity. There may be a test operation with proton-oxygen collisions in 2023, which will last only a few days and will be operated with a low luminosity. The LHCf experiment (LHCb experiment) would achieve the desired integrated luminosity of 1.5/nb (2/nb) within 70h (35h) beam time.
Stickstoff (NO), Kohlenmonoxid (CO) und Schwefelwasserstoff (H2S) gehören zur Gruppe der Gasotransmitter. Dabei handelt es sich um kleine gasförmige Signalmoleküle, welche innerhalb des Körpers gebildet werden und dort wichtige physiologische Funktionen bei der Regulation der Apoptose, der Proliferation, der Entzündungsreaktion und der Genexpression übernehmen. Aufgrund ihrer Membranpermeabilität ist die Wirkung der Gasotransmitter nicht an die Interaktion mit spezifischen membranständigen Rezeptoren gebundenen. Je nach Organ, Gewebe und Konzentration können diese Mediatoren unterschiedliche Prozesse beeinflussen und teils sogar gegenteilige Wirkungen hervorrufen.H2S beispielsweise kann im Verlauf der Leukozytenadhäsion im Epithelium anti-inflammatorisch, bei Brandwunden oder rheumatischen Erkrankungen jedoch pro-inflammatorisch wirken. Im Kreislaufsystem hingegen bewirkt H2S durch die Aktivierung von ATP-abhängigen K+-Kanälen und die damit zusammenhängende Vasorelaxion der glatten Muskelzellen einen eindeutig protektiven Effekt.
H2S kann je nach Substrat und Zelltyp durch eines von 3 Enzymen gebildet werden. Die Cystathionin-γ-Lyase (CSE) und die Cystathionin-β-Synthase (CBS) nutzen L-Cystein als Substrat für die Synthese von H2S. Das dritte H2S-bildende Enzym, die 3-Mercaptopyruvate Sulfurtransferase (3-MST) verwendet α-Ketoglutarat als Substrat, welches zuvor von der Cystein-Aminotransferse (CAT) aus L-Cystein synthetisiert wurde. Während die beiden Enzyme CSE und CBS im Zytosol der Zelle zu finden sind, ist die 3-MST hauptsächlich in den Mitochondrien der Zelle zu finden. Im Gegensatz zur CBS, welche eher ein konstitutiv exprimiertes Protein ist, wird die Expression der CSE auf der Transkriptionsebene durch u.a. Entzündungsmediatoren wie TNF-α oder Wachstumsfaktoren wie PDGF-BB induziert.
Ein Ziel der Arbeit war es, die Wirkung von H2S bei der Wundheilung, bei entzündlichen glomerulären Erkrankungen der Niere und beim Schlaganfall zu untersuchen. Für diesephänotypische Analysen stand ein Knockoutmodell für die CSE zur Verfügung.
Zudem wurden in dieser Arbeit Untersuchungen mit einem Knockoutmodell für das zytoskeletäre Protein durchgeführt. Bei Clp36 (PDLIM1) handelt es sich um ein PDLIM-Protein (PDZ and LIM domain protein),welches durch die Gasotransmitter NO und H2S auf transkriptioneller und translationaler Ebene reguliert wird ist und aufgrund seiner Assoziation mit dem Zytoskelett dynamische Vorgänge der Zelle moduliert. Es ist bereits bekannt, dass Clp36 ein negativer Regulator des Glykoprotein VI (GPVI), welches eine wichtige Rolle bei der Aktivierung von Thrombozyten spielt, ist.
Beide Knockoutmodelle wurden in murinen Mesangiumzellen der Niere und in Krankheitsmodellen der Haut (kutane Wundheilung)und des Gehirns (Schlaganfall mit dem MCAO-Modell) analysiert.
Neben nicht signifikanten Effekten im MCAO-Modell, konnten sowohl Effekte des CSE-, als auch des CLP36-KOs auf die Migration und Proliferation und im Falle der CSE auch auf die Adhäsion der murinen Mesangiumzellen beobachtet werden. Die Depletion von Clp36 führte zu einer Verringerung der Migrations- und einer Erhöhung der Proliferationsrate, wohingegen die Depletion der CSE zu einer Erhöhung der Migrations-, Proliferations- und Adhäsionsrate führte. Die vielversprechendsten Ergebnisse konnten im Tiermodell der kutanen Wundheilung generiert werden. Untersucht wurde die Expression der H2S-produzierenden Enzyme CSE, CBS und 3-MST. Alle drei Enzyme zeigten im Tiermodell keine transkriptionelle Regulation und blieben auch während der akuten Entzündungsphase und der proliferativen Phase der Wundheilung unverändert. Es konnte jedoch gezeigt werden, dass die Expression der CSE in der späten Phase der Wundheilung signifikant anstieg, wenn die Proliferation innerhalb des Granulationsgewebes und der Neoepidermis geringer wurde. Die Vermutung, dass H2S in dieser Phase eine wichtige Rolle spielt, konnte durch die Analyse der CSE-KO Mäuse bekräftigt werden, da dort der Verlust der CSE offenbar durch die CBS kompensiert wurde.
In immunhistochemischen Untersuchungen konnten insbesondere follikuläre Keratinozyten der Neo-Epidemis als Quelle der CSE-Expression identifiziert werden. Durch in-vitro Studien auf mRNA und Proteinebene in HaCaT Zellen wurde gezeigt, dass H2S die Keratinozyten-Differenzierung beeinflusst. Der langsam freisetzendeH2S-Donor GYY4137 konnte in humanen Keratinozyten zu einer signifikanten Erhöhung der Ca2+- induzierten Expression der frühen Keratinozyten-Differenzierungsmarker Cytokeratin 10 (CK10) und Involucrin (IVN) beitragen.
Im Laufe dieser Arbeit konnte der molekulare Mechanismus hinter diesen Beobachtungen noch nicht geklärt werden.
Durch weitere Versuche meiner Arbeitsgruppe konnte jedoch gezeigt werden, dass die GYY4137-abhängige Induktion der CK10-Expression durch eine verstärkte Bindung der RNA-Polymerase II an den CK10 Promotor zustande kommt.
The events of 1968/69 initiated a dispute between Adorno and Marcuse over the (alleged) separation of theory and praxis. While Marcuse “stood at the barricades” Adorno sought recluse in the “ivory tower”. Marcuse and German students perceived Adorno’s move as departure from fundamental postulates of critical theory as laid down in Horkheimer’s 1937 essay. Adorno died amidst the process of clarifying his differences with Marcuse and thus the “unlimited discussions” between the two remain unfinished. This paper sets to examine how both Marcuse and Adorno remained dedicated to the unity of theory and praxis, albeit in different ways. I argue that Adorno did not separate theory and praxis; instead, he perceived the gap between critical theory and concrete historical situation. Adorno rejected simple and unreflective translation of theory into praxis. Hence his attempt to recalibrate critical theory. Marcuse’s and Adorno’s differences lie in their different evaluation of the student movement and this (mis)evaluation was context related. My second argument is that Marcuse/Adorno disagreement is partly caused by the absence of the two from the concrete historical context.
In this review, we focus on the ubiquitination process within the endoplasmic reticulum associated protein degradation (ERAD) pathway. Approximately one third of all synthesized proteins in a cell are channeled into the endoplasmic reticulum (ER) lumen or are incorporated into the ER membrane. Since all newly synthesized proteins enter the ER in an unfolded manner, folding must occur within the ER lumen or co-translationally, rendering misfolding events a serious threat. To prevent the accumulation of misfolded protein in the ER, proteins that fail the quality control undergo retrotranslocation into the cytosol where they proceed with ubiquitination and degradation. The wide variety of misfolded targets requires on the one hand a promiscuity of the ubiquitination process and on the other hand a fast and highly processive mechanism. We present the various ERAD components involved in the ubiquitination process including the different E2 conjugating enzymes, E3 ligases, and E4 factors. The resulting K48-linked and K11-linked ubiquitin chains do not only represent a signal for degradation by the proteasome but are also recognized by the AAA+ ATPase Cdc48 and get in the process of retrotranslocation modified by enzymes bound to Cdc48. Lastly we discuss the conformations adopted in particular by K48-linked ubiquitin chains and their importance for degradation.
Background: Native T1 may be a sensitive, contrast-free, non-invasive cardiovascular magnetic resonance (CMR) marker of myocardial tissue changes in patients with pulmonary artery hypertension. However, the diagnostic and prognostic value of native T1 mapping in this patient group has not been fully explored. The aim of this work was to determine whether elevation of native T1 in myocardial tissue in pulmonary hypertension: (a) varies according to pulmonary hypertension subtype; (b) has prognostic value and (c) is associated with ventricular function and interaction.
Methods: Data were retrospectively collected from a total of 490 consecutive patients during their clinical 1.5 T CMR assessment at a pulmonary hypertension referral centre in 2015. Three hundred sixty-nine patients had pulmonary hypertension [58 ± 15 years; 66% female], an additional 39 had pulmonary hypertension due to left heart disease [68 ± 13 years; 60% female], 82 patients did not have pulmonary hypertension [55 ± 18; 68% female]. Twenty five healthy subjects were also recruited [58 ±4 years); 51% female]. T1 mapping was performed with a MOdified Look-Locker Inversion Recovery (MOLLI) sequence. T1 prognostic value in patients with pulmonary arterial hypertension was assessed using multivariate Cox proportional hazards regression analysis.
Results: Patients with pulmonary artery hypertension had elevated T1 in the right ventricular (RV) insertion point (pulmonary hypertension patients: T1 = 1060 ± 90 ms; No pulmonary hypertension patients: T1 = 1020 ± 80 ms p < 0.001; healthy subjects T1 = 940 ± 50 ms p < 0.001) with no significant difference between the major pulmonary hypertension subtypes. The RV insertion point was the most successful T1 region for discriminating patients with pulmonary hypertension from healthy subjects (area under the curve = 0.863) however it could not accurately discriminate between patients with and without pulmonary hypertension (area under the curve = 0.654). T1 metrics did not contribute to prediction of overall mortality (septal: p = 0.552; RV insertion point: p = 0.688; left ventricular free wall: p = 0.258). Systolic interventricular septal angle was a significant predictor of T1 in patients with pulmonary hypertension (p < 0.001).
Conclusions: Elevated myocardial native T1 was found to a similar extent in pulmonary hypertension patient subgroups and is independently associated with increased interventricular septal angle. Native T1 mapping may not be of additive value in the diagnostic or prognostic evaluation of patients with pulmonary artery hypertension.
Rechtsaspekte des Forschungsdatenmanagements werfen nach wie vor viele Fragen für Forschende und Nachnutzende auf: Wer darf welche Daten zu welchen Zwecken erheben und verarbeiten? Wem können die Daten "zugeordnet" werden? Wer darf entscheiden, ob und wann sie veröffentlicht werden? Welche Lizenzen sind geeignet?
Um den Unsicherheiten im rechtlichen Umgang mit Forschungsdaten zu begegnen, hat HeFDI auf Basis des Gutachtens des DataJus-Projekts (https://tu-dresden.de/gsw/jura/igetem/jfbimd13/ressourcen/dateien/dateien/DataJus/DataJus_Zusammenfassung_Gutachten_12-07-18.pdf?lang=de) die hier publizierte Handreichung zusammengestellt. Die Handreichung dient dazu, Forschenden und Forschungsdatenmanager*innen einen gut verständlichen Zugang zu Rechtsfragen hinsichtlich Forschungsdaten zu ermöglichen. Das anschaulich konzipierte Material kann sowohl in Schulungen zum Datenmanagement als auch in konkreten Beratungsprozessen eingesetzt werden.
In einem ersten Schritt hat HeFDI die Themenfelder (I) Urheber- und Leistungsschutzrechte an Forschungsdaten sowie (II) Entscheidungsbefugnis über den Umgang mit Forschungsdaten in der hier publizierten Handreichung zusammengefasst.
Das vorliegende Material umfasst zum einen eine animierte Präsentation in editierbarem Format. Gleichzeitig stellt HeFDI den Inhalt der Präsentation sowohl editierbar als auch im PDF-Format als Druckvorlage für ein Handout o. Ä. im DIN A4-Format zur Verfügung.
Brain aging is one of the major risk factors for the development of several neurodegenerative diseases. Therefore, mitochondrial dysfunction plays an important role in processes of both, brain aging and neurodegeneration. Aged mice including NMRI mice are established model organisms to study physiological and molecular mechanisms of brain aging. However, longitudinal data evaluated in one cohort are rare but are important to understand the aging process of the brain throughout life, especially since pathological changes early in life might pave the way to neurodegeneration in advanced age. To assess the longitudinal course of brain aging, we used a cohort of female NMRI mice and measured brain mitochondrial function, cognitive performance, and molecular markers every 6 months until mice reached the age of 24 months. Furthermore, we measured citrate synthase activity and respiration of isolated brain mitochondria. Mice at the age of three months served as young controls. At six months of age, mitochondria-related genes (complex IV, creb-1, β-AMPK, and Tfam) were significantly elevated. Brain ATP levels were significantly reduced at an age of 18 months while mitochondria respiration was already reduced in middle-aged mice which is in accordance with the monitored impairments in cognitive tests. mRNA expression of genes involved in mitochondrial biogenesis (cAMP response element-binding protein 1 (creb-1), peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC1-α), nuclear respiratory factor-1 (Nrf-1), mitochondrial transcription factor A (Tfam), growth-associated protein 43 (GAP43), and synaptophysin 1 (SYP1)) and the antioxidative defense system (catalase (Cat) and superoxide dismutase 2 (SOD2)) was measured and showed significantly decreased expression patterns in the brain starting at an age of 18 months. BDNF expression reached, a maximum after 6 months. On the basis of longitudinal data, our results demonstrate a close connection between the age-related decline of cognitive performance, energy metabolism, and mitochondrial biogenesis during the physiological brain aging process.
Kinetics of circulating endothelial progenitor cells in patients undergoing carotid artery surgery
(2016)
Aim: Endothelial progenitor cells (EPCs) are primitive cells found in the bone marrow and peripheral blood (PB). In particular, the potential of EPCs to differentiate into mature endothelial cells remains of high interest for clinical applications such as bio-functionalized patches for autologous seeding after implantation. The objective of this study was to determine EPCs’ kinetics in patients undergoing carotid artery thromboendarterectomy (CTEA) and patch angioplasty.
Methods: Twenty CTEA patients were included (15 male, mean age 76 years). PB samples were taken at 1 day preoperatively, and at 1, 3, and 5 days postoperatively. Flow cytometric analysis was performed for CD34, CD133, KDR, and CD45. Expression of KDR, SDF-1α, and G-CSF was analyzed by means of enzyme-linked immunosorbent assay.
Results: Fluorescence-activated cell sorting analysis revealed 0.031%±0.016% (% of PB mononuclear cells) KDR+ cells and 0.052%±0.022% CD45-/CD34+/CD133+ cells, preoperatively. A 33% decrease of CD45–/CD34+/CD133+ cells was observed at day 1 after surgery. However, a relative number (compared to initial preoperative values) of CD45-/CD34+/CD133+ cells was found on day 3 (82%) and on day 5 (94%) postoperatively. More profound upregulated levels of CD45–CD34+/CD133+ cells were observed for diabetic (+47% compared to nondiabetic) and male (+38% compared to female) patients. No significant postoperative time-dependent differences were found in numbers of KDR+ cells and the concentrations of the cytokines KDR and G-CSF. However, the SDF-1α levels decreased significantly on day 1 postoperatively but returned to preoperative levels by day 3.
Conclusion: CTEA results in short-term downregulation of circulating EPCs and SDF-1α levels. Rapid return to baseline levels might indicate participation of EPCs in repair mechanisms following vascular injury.
Acne‐like skin reactions frequently occur in patients undergoing treatment with drugs inhibiting the epidermal growth factor receptor. Recently, the effects of vitamin K1 containing cream (Reconval K1) as prophylactic skin treatment in addition to doxycycline were explored in a double‐blind randomized phase II trial (EVITA) in patients with metastatic colorectal cancer receiving cetuximab. EVITA demonstrated a trend towards less severe skin rash in Reconval K1‐treated patients using the tripartite WoMo skin reaction grading score as a thorough tool for quantification of drug related skin reactions. This gender‐specific analysis of the EVITA trial evaluated the application of the WoMo score for assessment of epidermal growth factor receptor (EGFR)‐related skin toxicities according to treatment arm and gender. To show the robustness of results parametric and non‐parametric statistical analyses were conducted. All three parts of the WoMo score independently demonstrated the superiority of the treatment arm (Reconval K1) regarding a significant reduction in acneiform skin reactions in women. Men did not benefit from Reconval K1 cream at any time point in none of the WoMo score analyses. The treatment effect in women was confirmed by the use of skin rash categories based on the final WoMo overall score and mixed effect longitudinal multiple linear regression analysis. The WoMo score represents a sensitive tool for studies exploiting treatments against EGFR mediated acne‐like skin rash. Part C of the WoMo score seems to be sufficient for quantification of drug related skin toxicities in further studies. Standard WoMo skin reaction score values for future studies are provided.
Microstructural abnormalities in white matter (WM) are often reported in Alzheimer’s disease (AD) and may reflect primary or secondary circuitry degeneration (i.e., due to cortical atrophy). The interpretation of diffusion tensor imaging (DTI) eigenvectors, known as multiple indices, may provide new insights into the main pathological models supporting primary or secondary patterns of WM disruption in AD, the retrogenesis, and Wallerian degeneration models, respectively. The aim of this review is to analyze the current literature on the contribution of DTI multiple indices to the understanding of AD neuropathology, taking the retrogenesis model as a reference for discussion. A systematic review using MEDLINE, EMBASE, and PUBMED was performed. Evidence suggests that AD evolves through distinct patterns of WM disruption, in which retrogenesis or, alternatively, the Wallerian degeneration may prevail. Distinct patterns of WM atrophy may be influenced by complex interactions which comprise disease status and progression, fiber localization, concurrent risk factors (i.e., vascular disease, gender), and cognitive reserve. The use of DTI multiple indices in addition to other standard multimodal methods in dementia research may help to determine the contribution of retrogenesis hypothesis to the understanding of neuropathological hallmarks that lead to AD.