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In evidence-based weight-loss programs weight regain is common after an initial weight reduction. Eating slowly significantly lowers meal energy intake and hunger ratings. Despite this knowledge, obese individuals do not implement this behaviour. We, thus tested the hypothesis of changing eating behaviour with an intra-oral medical device leading to constant weight reduction in overweight and obesity.
Six obese patients (6 men, age 56 ± 14, BMI 29 ± 2 kg / m2) with increased CVRF profile were included in this prospective study. All patients had been treated for obesity during the last 10 years in a single centre and had at least 3 frustrate evidence-based diets. Patients received a novel non-invasive intra-oral medical device to slow eating time. Further advice included not to count calories, to avoid any other form of diet, to take their time with their meals, and to eat whatever they liked.
This device was used only during meals for the first 4 to 8 weeks for a total of 88 [20–160] hours. Follow-up period was 23 [15–38] months. During this period, patients lost 11% [5–20%] (p<0.001) of their initial weight. At 12 months, all patients had lost >5%, and 67% (4/6) achieved a >10% bodyweight loss. In the course of the study, altered eating patterns were observed. There were no complications with the medical device. Of note, all patients continued to lose weight after the initial intervention period (p<0.001) and none of them had weight regain.
With this medical device, overweight and obese patients with a history of previously frustrating attempts to lose weight achieved a significant and sustained weight loss over two years. These results warrant the ongoing prospective randomised controlled trial to prove concept and mechanism of action.
Oxygenation-sensitive spin relaxation time T2′ and relaxation rate R2′ (1/T2′) are presumed to be markers of the cerebral oxygen extraction fraction (OEF) in acute ischemic stroke. In this study, we investigate the relationship of T2′/R2′ with dynamic susceptibility contrast-based relative cerebral blood flow (rCBF) in acute ischemic stroke to assess their plausibility as surrogate markers of the ischemic penumbra. Twenty-one consecutive patients with internal carotid artery and/or middle cerebral artery occlusion were studied at 3.0 T. A physiological model of the cerebral vasculature (VM) was used to process PWI raw data in addition to a conventional deconvolution technique. T2′, R2′, and rCBF values were extracted from the ischemic core and hypoperfused areas. Within hypoperfused tissue, no correlation was found between deconvolved rCBF and T2′ (r = −0.05, p = 0.788), or R2′ (r = 0.039, p = 0.836). In contrast, we found a strong positive correlation with T2′ (r = 0.444, p = 0.006) and negative correlation with R2′ (r = −0.494, p = 0.0025) for rCBFVM, indicating increasing OEF with decreasing CBF and that rCBF based on the vascular model may be more closely related to metabolic disturbances. Further research to refine and validate these techniques may enable their use as MRI-based surrogate markers of the ischemic penumbra for selecting stroke patients for interventional treatment strategies.
Einen schönen Einstieg in "Rechtspluralismus" bietet ein jüdischer Witz: Zum Rabbi kam ein Mann und lamentierte über seine Ehefrau. Sie erziehe die Kinder falsch und kümmere sich zu wenig um den Haushalt. Sie koche nicht gut und sonst allerlei gelinge ihr ebenfalls nicht. Daraufhin dachte der Rabbi kurz nach und sagte: "Ja, ja, sicher, Du hast Recht." Am Tag darauf kam die Frau zum Rabbi und beschwerte sich heftig über ihren Ehemann. Dieser kümmere sich zu Hause um gar nichts, liege nur faul herum und sonst sei auch nichts mit ihm anzufangen. Da dachte der Rabbi wieder kurz nach und antwortete: "Ja, ja, Du hast Recht." Beiden Gesprächen wohnte der Schüler des Rabbis bei. Dieser wunderte sich nun und fragte den Rabbi in vorwurfsvollem Ton: "Du kannst nicht geben Recht dem Einen und dann der Anderen. Das geht nicht, dass beide Recht haben." Da dachte der Rabbi wieder nach und sprach: "Ja, ja, Du hast auch Recht." ...
QCD matter physics at FAIR
(2017)
The Compressed Baryonic Matter (CBM) experiment will be one of the major scientific pillars of the future Facility for Antiproton and Ion Research (FAIR) in Darmstadt. The goal of the CBM research program is to explore the QCD phase diagram in the region of high baryon densities using high-energy nucleus-nucleus collisions. This includes the study of the equation-of-state of nuclear matter at neutron star core densities, and the search for the deconfinement and chiral phase transitions. The CBM detector is designed to measure rare diagnostic probes such as hadrons including multi-strange (anti-) hyperons, lepton pairs, and charmed particles with unprecedented precision and statistics. Most of these particles will be studied for the first time in the FAIR energy range. In order to achieve the required precision, the measurements will be performed at very high reaction rates of 1 to 10 MHz. This requires very fast and radiation-hard detectors, a novel data read-out and analysis concept based on free streaming front-end electronics, and a high-performance computing cluster for online event selection. The status of FAIR and the physics program of the proposed CBM experiment will be discussed.
The phenomenon of jet quenching provides essential information about the properties of hot and dense matter created in ultra-relativistic heavy-ion collisions. Recent results from experiments at the Large Hadron Collider (LHC) show evidence for an unexpectedly similar suppression of both light and heavy flavor jets. Furthermore, the role of radiative energy loss of heavy quarks is still under active discussion within the theoretical community. By employing the parton cascade Boltzmann Approach to Multi-Parton Scatterings (BAMPS), which numerically solves the 3+1 D Boltzmann equation both for light and heavy flavor partons, we calculate the nuclear modification factor of inclusive and b-tagged reconstructed jets in 0–10% central sLHC=2.76ATeV Pb + Pb collisions. Based on perturbative QCD cross sections we find a suppression of both light and heavy flavor jets. While the inclusive jets are slightly too strong suppressed within Bamps in comparison with data, both elastic + radiative and only elastic interactions lead to a realistic b-tagged jet suppression. To further investigate light and heavy flavor energy loss we predict the R dependence of inclusive and b-tagged jet suppression. Furthermore, we propose the medium modification of b-tagged jet shapes as an observable for discriminating between different heavy quark energy loss scenarios.
The detailed biophysical mechanisms through which transcranial magnetic stimulation (TMS) activates cortical circuits are still not fully understood. Here we present a multi-scale computational model to describe and explain the activation of different pyramidal cell types in motor cortex due to TMS. Our model determines precise electric fields based on an individual head model derived from magnetic resonance imaging and calculates how these electric fields activate morphologically detailed models of different neuron types. We predict neural activation patterns for different coil orientations consistent with experimental findings. Beyond this, our model allows us to calculate activation thresholds for individual neurons and precise initiation sites of individual action potentials on the neurons’ complex morphologies. Specifically, our model predicts that cortical layer 3 pyramidal neurons are generally easier to stimulate than layer 5 pyramidal neurons, thereby explaining the lower stimulation thresholds observed for I-waves compared to D-waves. It also shows differences in the regions of activated cortical layer 5 and layer 3 pyramidal cells depending on coil orientation. Finally, it predicts that under standard stimulation conditions, action potentials are mostly generated at the axon initial segment of cortical pyramidal cells, with a much less important activation site being the part of a layer 5 pyramidal cell axon where it crosses the boundary between grey matter and white matter. In conclusion, our computational model offers a detailed account of the mechanisms through which TMS activates different cortical pyramidal cell types, paving the way for more targeted application of TMS based on individual brain morphology in clinical and basic research settings.
The detailed biophysical mechanisms through which transcranial magnetic stimulation (TMS) activates cortical circuits are still not fully understood. Here we present a multi-scale computational model to describe and explain the activation of different pyramidal cell types in motor cortex due to TMS. Our model determines precise electric fields based on an individual head model derived from magnetic resonance imaging and calculates how these electric fields activate morphologically detailed models of different neuron types. We predict neural activation patterns for different coil orientations consistent with experimental findings. Beyond this, our model allows us to calculate activation thresholds for individual neurons and precise initiation sites of individual action potentials on the neurons’ complex morphologies. Specifically, our model predicts that cortical layer 3 pyramidal neurons are generally easier to stimulate than layer 5 pyramidal neurons, thereby explaining the lower stimulation thresholds observed for I-waves compared to D-waves. It also shows differences in the regions of activated cortical layer 5 and layer 3 pyramidal cells depending on coil orientation. Finally, it predicts that under standard stimulation conditions, action potentials are mostly generated at the axon initial segment of cortical pyramidal cells, with a much less important activation site being the part of a layer 5 pyramidal cell axon where it crosses the boundary between grey matter and white matter. In conclusion, our computational model offers a detailed account of the mechanisms through which TMS activates different cortical pyramidal cell types, paving the way for more targeted application of TMS based on individual brain morphology in clinical and basic research settings.
Box C/D snoRNAs are known to guide site-specific ribose methylation of ribosomal RNA. Here, we demonstrate a novel and unexpected role for box C/D snoRNAs in guiding 18S rRNA acetylation in yeast. Our results demonstrate, for the first time, that the acetylation of two cytosine residues in 18S rRNA catalyzed by Kre33 is guided by two orphan box C/D snoRNAs–snR4 and snR45 –not known to be involved in methylation in yeast. We identified Kre33 binding sites on these snoRNAs as well as on the 18S rRNA, and demonstrate that both snR4 and snR45 establish extended bipartite complementarity around the cytosines targeted for acetylation, similar to pseudouridylation pocket formation by the H/ACA snoRNPs. We show that base pairing between these snoRNAs and 18S rRNA requires the putative helicase activity of Kre33, which is also needed to aid early pre-rRNA processing. Compared to yeast, the number of orphan box C/D snoRNAs in higher eukaryotes is much larger and we hypothesize that several of these may be involved in base-modifications.
Coccolithophores are an abundant phytoplankton group that exhibit remarkable diversity in their biology, ecology and calcitic exoskeletons (coccospheres). Their extensive fossil record is a testament to their important biogeochemical role and is a valuable archive of biotic responses to environmental change stretching back over 200 million years. However, to realise the full potential of this archive for (palaeo-)biology and biogeochemistry requires an understanding of the physiological processes that underpin coccosphere architecture. Using culturing experiments on four modern coccolithophore species (Calcidiscus leptoporus, Calcidiscus quadriperforatus, Helicosphaera carteri and Coccolithus braarudii) from three long-lived families, we investigate how coccosphere architecture responds to shifts from exponential (rapid cell division) to stationary (slowed cell division) growth phases as cell physiology reacts to nutrient depletion. These experiments reveal statistical differences in coccosphere size and the number of coccoliths per cell between these two growth phases, specifically that cells in exponential-phase growth are typically smaller with fewer coccoliths, whereas cells experiencing growth-limiting nutrient depletion have larger coccosphere sizes and greater numbers of coccoliths per cell. Although the exact numbers are species-specific, these growth-phase shifts in coccosphere geometry demonstrate that the core physiological responses of cells to nutrient depletion result in increased coccosphere sizes and coccoliths per cell across four different coccolithophore families (Calcidiscaceae, Coccolithaceae, Isochrysidaceae and Helicosphaeraceae), a representative diversity of this phytoplankton group. Building on this, the direct comparison of coccosphere geometries in modern and fossil coccolithophores enables a proxy for growth phase to be developed that can be used to investigate growth responses to environmental change throughout their long evolutionary history. Our data also show that changes in growth rate and coccoliths per cell associated with growth-phase shifts can substantially alter cellular calcite production. Coccosphere geometry is therefore a valuable tool for accessing growth information in the fossil record, providing unprecedented insights into the response of species to environmental change and the potential biogeochemical consequences.
We review the recent developments of analytic solutions in transverse magneto-hydrodynamics under Bjorken expansion. It is found that the time dependence of magnetic fields can either increase or reduce the energy density depending on the decay exponent of magnetic fields. Moreover, perturbative solutions under weak magnetic fields with spatial inhomogeneity results in transverse flow, where the directions of flow also depend on the decay exponent of magnetic fields in time.
We study the charmonium coherent photoproduction and hadroproduction consistently with modifications from both cold and hot nuclear matters. The strong electromagnetic fields from fast moving nucleus interact with the other target nucleus, producing abundant charmonium in the extremely low transverse momentum region pT<0.1 GeV/c. This results in significative enhancement of J/ψ nuclear modification factor in semi-central and peripheral collisions. In the middle pT region such as pT<3∼5 GeV/c, J/ψ final yield is dominated by the combination process of single charm and anti-charm quarks moving in the deconfined matter, c+c¯→J/ψ+g. In the higher pT region, J/ψ production are mainly from parton initial hard scatterings at the beginning of nucleus–nucleus collisions and decay of B hadrons. We include all of these production mechanisms and explain the experimental data well in different colliding centralities and transverse momentum regions.
Mobilization of hematopoietic stem cells (HSCs) from the bone marrow to the peripheral blood is a complex mechanism that involves adhesive and chemotactic interactions of HSCs as well as their bone marrow microenvironment. In addition to a number of non-genetic factors, genetic susceptibilities also contribute to the mobilization outcome. Identification of genetic factors associated with HSC yield is important to better understand the mechanism behind HSC mobilization. In the present study, we enrolled 148 Korean participants (56 healthy donors and 92 patients) undergoing HSC mobilization for allogeneic or autologous HSC transplantation. Among a total of 53 polymorphisms in 33 candidate genes, one polymorphism (rs11264422) in relaxin/insulin-like family peptide receptor 4 (RXFP4) gene was significantly associated with a higher HSC yield after mobilization in Koreans. However, in a set of 101 Europeans, no association was found between circulating CD34+ cell counts and rs11264422 genotype. Therefore, we suggest that the ethnic differences in subjects’ genetic background may be related to HSC mobilization. In conclusion, the relaxin—relaxin receptor axis may play an important role in HSC mobilization. We believe that the results of the current study could provide new insights for therapies that use relaxin and HSC populations, as well as a better understanding of HSC regulation and mobilization at the molecular level.
No presente artigo analisamos a ideia de solidariedade na teoria da justiça de Axel Honneth. Honneth em sua obra atualiza a teoria hegeliana da eticidade e concebe a existência de esferas de liberdade, sendo que uma delas é a liberdade social, na qual se situam relações pessoais, mercado e instituições políticas. Em O Direito da Liberdade Honneth desenvolve uma teoria em que busca analisar os problemas de desenvolvimento da democracia nas sociedades contemporâneas, e erige a solidariedade como um dos pressupostos normativos para a construção de uma democracia virtuosa, ancorada na participação cidadã.
O presente estudo tem como objetivo investigar a ideia de reconhecimento jurídico na teoria de Axel Honneth, o que se dará mediante análise da obra Luta por Reconhecimento. Honneth, ancorado nas teorias de Hegel e Mead, estabelece o papel do direito como esfera de reconhecimento individual e seu potencial de asseguramento do autorrespeito. Empreende-se uma reconstrução da teoria honnethiana no atinente aos papéis desempenhados pelo direito na teoria da Luta por Reconhecimento de Axel Honneth, para em seguida, a partir da leitura que o autor desenvolve da teoria de Thomas Marshall, analisar o papel desempenhado pelos direitos subjetivos fundamentais como medium de sedimentação e ampliação de novas formas de reconhecimento e cidadania.
Information theory provides a formal framework within which information processing and its disorders can be described. However, information theory has rarely been applied to modeling aspects of the cognitive neuroscience of schizophrenia. The goal of this article is to highlight the benefits of an approach based on information theory, including its recent extensions, for understanding several disrupted neural goal functions as well as related cognitive and symptomatic phenomena in schizophrenia. We begin by demonstrating that foundational concepts from information theory—such as Shannon information, entropy, data compression, block coding, and strategies to increase the signal-to-noise ratio—can be used to provide novel understandings of cognitive impairments in schizophrenia and metrics to evaluate their integrity. We then describe more recent developments in information theory, including the concepts of infomax, coherent infomax, and coding with synergy, to demonstrate how these can be used to develop computational models of schizophrenia-related failures in the tuning of sensory neurons, gain control, perceptual organization, thought organization, selective attention, context processing, predictive coding, and cognitive control. Throughout, we demonstrate how disordered mechanisms may explain both perceptual/cognitive changes and symptom emergence in schizophrenia. Finally, we demonstrate that there is consistency between some information-theoretic concepts and recent discoveries in neurobiology, especially involving the existence of distinct sites for the accumulation of driving input and contextual information prior to their interaction. This convergence can be used to guide future theory, experiment, and treatment development.
Bromus racemosus L. is a rather rare grass species of moist meadows. It has strongly decreased in the course of the 20th century due to intensification of agricultural grassland management, and is therefore included in Red Lists of several European countries. Its winter annual life-cycle is remarkable for a species of permanent grasslands.
The aim of this study is to determine the habitat preference and optimal management of B. racemosus in the Netherlands and surrounding countries. Vegetation, soil and hydrological data from 28 sites in the Netherlands have been compared with B. racemosus cover, and with vegetation data from surrounding countries. The results indicate that B. racemosus is characteristic of Molinio-Arrhenatheretea meadows with good mineralisation and aftermath grazing. The optimum lies in grasslands of the alliance Alopecurion pratensis (Deschampsion cespitosae), but the species ranges from wetter Calthion palustris meadows to drier Arrhenatherion elatioris and Cynosurion cristati grasslands. It prefers intermediate nutrient levels and hydrological conditions (mesic sites), but within this range the highest cover is found in relatively nutrient rich and dry sites. Because of the absence of a seedbank and a low dispersal capability, B. racemosus is vulnerable to changes in grassland management. A management of mowing after 15 June and aftermath grazing is most suitable, since it enables fruit ripening and the maintenance of an open sward, needed for germination and development. The risk of extinction is likely to be higher in flat polders than in floodplain sites with natural relief, where the species may shift between belts in different years.
Im Jahr 1926 erschien in der 'Revista de Occidente', einer von José Ortega y Gasset in Madrid herausgegebenen Zeitschrift mit kulturpolitischer und philosophischer Ausrichtung, eine merkwürdige Publikation unter dem rätselhaften Titel "Cancionero apócrifo de Abel Martín. Recopilación y estudio de Juan de Mairena." Auf den ersten Blick scheint es so, als fungiere Antonio Machado hier lediglich als Herausgeber einer von Juan de Mairena kompilierten Sammlung, welche wiederum der Autorschaft eines Abel Martín zugeschrieben wird. Trotz der rätselhaften doppelten Herausgeberfiktion hatte das damalige Lesepublikum offenbar keine Probleme damit, Antonio Machado als den eigentlichen Autor der genannten "apokryphen" Prosa- und Gedichttexte zu identifizieren. Denn die Namen Juan de Mairena und Abel Martín bezeichnen nicht etwa reale Dichterpersönlichkeiten der damaligen Epoche oder der spanischen Literatur- geschichte, sondern sie sind – wie die damaligen Leser durch Ausschlussverfahren selbst erraten konnten – Konstrukte von Machados Phantasie, fiktive Autorprojektionen, deren Erfindung und Gestaltung er mit erstaunlichem gedanklichen Aufwand und Akribie betrieben hatte. Abel Martín und sein 'Schüler' Mairena gehören zu einem ganzen Spektrum von imaginierten Dichtern und Philosophen, deren fingierte Werke ihr Erfinder Machado als "apokryph" bezeichnete. Die bemerkenswerte Praktik, eigene Hervorbringungen, Lyrik und Prosa, nicht unter dem eigenen Namen zu publizieren, sondern einem Kreis fingierter Autorpersönlichkeiten zuzuordnen, hebt sich von dem gewöhnlichen Gebrauch von Pseudonymen, von künstlerischen Decknamen, deutlich ab. Zumal der Autor in jenem Zeitraum in den 1910er und 1920er Jahren keineswegs mehr ein Unbekannter war.
Dem Apokryphen einen Themenschwerpunkt im Rahmen einer komparatistischen Zeitschrift zu widmen ist eine Entscheidung, die auf den ersten Blick erstaunen mag. Ist doch das Wort "apokryph" ein in der heutigen Alltagssprache wenig geläufiger Begriff, der, auf das Register der Theologie verweisend, speziellen Fragen und fachwissenschaftlichen Debatten der Religionsgeschichte vorbehalten zu sein scheint. Wenn wir gleichwohl Begriff und Phänomen des Apokryphen als Schwerpunktthema des Jahrbuchs 'Komparatistik' zur Diskussion stellen wollen, so deshalb, weil der damit angesprochene Sachverhalt von Prozessen der Auswahl, Marginalisierung und Ausgrenzung im Rahmen kultureller und textueller Überlieferung ein Problemfeld markiert, das im Bereich der Literaturgeschichte vielfältige Resonanzen und Parallelen findet und in systematischer Hinsicht über Verfahren und Mechanismen literarischer Traditionsbildung Aufschluss zu geben verspricht. Weit davon entfernt, nur ein spezialdiskursives Sonderphänomen zu sein, erweist sich das Apokryphe bei näherem Hinsehen als eine Figur, an der sich grundsätzliche Fragen der Formation von Text- und Wissensbeständen, der literarischen Autorität und Kanonbildung beobachten lassen. Apokryphe Texte, so ließe sich in einer vorläufigen, im Folgenden noch zu präzisierenden Beschreibung formulieren, sind Texte, die sich am Rande der großen Traditionen religiöser und kultureller Bewegungen situieren. Es sind Texte oder Textensembles, die es, wie sich im Rückblick bemerken lässt, nicht geschafft haben, in das Inventar jener Schriften aufgenommen zu werden, die als anerkannt, bewahrenswert oder wahr gelten. Als Einstieg bietet es sich an, zunächst von den Bedeutungsdimensionen des Ausdrucks apokryph auszugehen, die dieser im Kontext der religionsgeschichtlichen Tradition angenommen hat und der für das heute übliche Verständnis des Begriffs bestimmend ist. Der religiöse bzw. theologische Begriffsgebrauch greift auf das altgriechische Wort ἀπόκρυφος (apókryphos) zurück, um dieses vor allem in einer seiner beiden Bedeutungsschichten zum Einsatz zu bringen, nämlich als Bezeichnung eines Gegenstands bzw. Textes, der als 'unecht', 'zweifelhaft', 'nicht-authentisch' zu gelten habe. Der Begriff apokryph führt hier also eine Unterscheidung ein zwischen dem, was als gesichert, gültig und autorisiert anzusehen ist und dem, was solche Geltung zu besitzen nicht oder nur unter dem Vorbehalt des Zweifelhaften beanspruchen kann. Bei dem Begriffspaar gültig vs. apokryph haben wir es also mit einer Figur der Verknappung zu tun, die ein gegebenes Textensemble oder eine kulturelle Überlieferung einem mitunter radikalen Verfahren der Auswahl und Reduktion unterzieht.
The yeast bc1 complex (complex III) and cytochrome oxidase (complex IV) are mosaics of core subunits encoded by the mitochondrial genome and additional nuclear-encoded proteins imported from the cytosol. Both complexes build in the mitochondrial inner membrane various supramolecular assemblies. The formation of the individual complexes and their supercomplexes depends on the activity of dedicated assembly factors. We identified a so far uncharacterized mitochondrial protein (open reading frame YDR381C-A) as an important assembly factor for complex III, complex IV, and their supercomplexes. Therefore, we named this protein Cox interacting (Coi) 1. Deletion of COI1 results in decreased respiratory growth, reduced membrane potential, and hampered respiration, as well as slow fermentative growth at low temperature. In addition, coi1Δ cells harbour reduced steady-state levels of subunits of complexes III and IV as well as of the assembled complexes and supercomplexes. Interaction of Coi1 with respiratory chain subunits seems transient, as it appears to be a stoichiometric subunit neither of complex III nor of complex IV. Collectively, this work identifies a novel protein that plays a role in the assembly of the mitochondrial respiratory chain.
Most event studies rely on cumulative abnormal returns, measured as percentage changes in stock prices, as their dependent variable. Stock price reflects the value of the operating business plus non-operating assets minus debt. Yet, many events, in particular in marketing, only influence the value of the operating business, but not non-operating assets and debt. For these cases, the authors argue that the cumulative abnormal return on the operating business, defined as the ratio between the cumulative abnormal return on stock price and the firm-specific leverage effect, is a more appropriate dependent variable. Ignoring the differences in firm-specific leverage effects inflates the impact of observations pertaining to firms with large debt and deflates those pertaining to firms with large non-operating assets. Observations of firms with high debt receive several times the weight attributed to firms with low debt. A simulation study and the reanalysis of three previously published marketing event studies shows that ignoring the firm-specific leverage effects influences an event study's results in unpredictable ways.