Prise en charge de l’atresie choanale

Introduction: L’atrésie choanale est une malformation congénitale rare mais non exceptionnelle. Le but de notre travail est d’étudier les caractéristiques épidémiologiques, cliniques et radiologiques de cette pathologie, et de discuter les différentes modalités thérapeutiques et leurs résultats respectifs.Matériel et méthodes: Notre étude rétrospective porte sur une série de 12 cas d’atrésie choanale opérés dans notre service entre 2002 et 2010. Tous les patients ont bénéficié d’un examen ORL et d’une tomodensitométrie du massif facial. Tous les patients ont été opérés sous anesthésie générale.Résultats: L’âge moyen était de 10,7 ans (3 jours - 31 ans) et le sex-ratio était de 2. L’atteinte était unilatérale dans 66,6% et bilatérale dans 33,3% des cas. Dans 16% des cas, l’atrésie rentrait dans le cadre d’un syndrome polymalformatif. La technique opératoire utilisée était la voie  endoscopique dans 10 cas et la voie transpalatine dans 2 cas. Le taux de succès global était de 75%. Trois cas de récidive ont été notés. Ils ont été réopérés par voie endonasale.Conclusion: L’endoscopie nasale et la TDM permettent le diagnostic positif de l’atrésie choanale. Le traitement de référence actuellement est la chirurgie par voie endonasale.Mots-clés: atrésie choanale, malformation, obstruction nasale, endoscopie, tomodensitométrie, chirurgie endonasal

Asymptotic Behavior for a Nematic Liquid Crystal Model with Different Kinematic Transport Properties

We study the asymptotic behavior of global solutions to hydrodynamical systems modeling the nematic liquid crystal flows under kinematic transports for molecules of different shapes. The coupling system consists of Navier-Stokes equations and kinematic transport equations for the molecular orientations. We prove the convergence of global strong solutions to single steady states as time tends to infinity as well as estimates on the convergence rate both in 2D for arbitrary regular initial data and in 3D for certain particular cases

Sleep as a model to understand neuroplasticity and recovery after stroke : observational, perturbational and interventional approaches

Our own experiences with disturbances to sleep demonstrate its crucial role in the recovery of cognitive functions. This importance is likely enhanced in the recovery from stroke; both in terms of its physiology and cognitive abilities. Decades of experimental research have highlighted which aspects and mechanisms of sleep are likely to underlie these forms of recovery. Conversely, damage to certain areas of the brain, as well as the indirect effects of stroke, may disrupt sleep. However, only limited research has been conducted which seeks to directly explore this bidirectional link between both the macro and micro-architecture of sleep and stroke. Here we describe a series of semi-independent approaches that aim to establish this link through observational, perturbational, and interventional experiments. Our primary aim is to describe the methodology for future clinical and translational research needed to delineate competing accounts of the current data. At the observational level we suggest the use of high-density EEG recording, combined analysis of macro and micro-architecture of sleep, detailed analysis of the stroke lesion, and sensitive measures of functional recovery. The perturbational approach attempts to find the causal links between sleep and stroke. We promote the use of transcranial magnetic stimulation combined with EEG to examine the cortical dynamics of the peri-infarct stroke area. Translational research should take this a step further using optogenetic techniques targeting more specific cell populations. The interventional approach focuses on how the same clinical and translational perturbational techniques can be adapted to influence long-term recovery of function

Principles of environmentally-sustainable anaesthesia: a global consensus statement from the World Federation of Societies of Anaesthesiologists

The Earth’s mean surface temperature is already approximately 1.1°C higher than pre-industrial levels. Exceeding a mean 1.5°C rise by 2050 will make global adaptation to the consequences of climate change less possible. To protect public health, anaesthesia providers need to reduce the contribution their practice makes to global warming. We convened a Working Group of 45 anaesthesia providers with a recognised interest in sustainability, and used a three-stage modified Delphi consensus process to agree on principles of environmentally sustainable anaesthesia that are achievable worldwide. The Working Group agreed on the following three important underlying statements: patient safety should not be compromised by sustainable anaesthetic practices; high-, middle- and low-income countries should support each other appropriately in delivering sustainable healthcare (including anaesthesia); and healthcare systems should be mandated to reduce their contribution to global warming. We set out seven fundamental principles to guide anaesthesia providers in the move to environmentally sustainable practice, including: choice of medications and equipment; minimising waste and overuse of resources; and addressing environmental sustainability in anaesthetists’ education, research, quality improvement and local healthcare leadership activities. These changes are achievable with minimal material resource and financial investment, and should undergo re-evaluation and updates as better evidence is published. This paper discusses each principle individually, and directs readers towards further important references

Exploiting Mitochondrial Dysfunction for Effective Elimination of Imatinib-Resistant Leukemic Cells

Challenges today concern chronic myeloid leukemia (CML) patients resistant to imatinib. There is growing evidence that imatinib-resistant leukemic cells present abnormal glucose metabolism but the impact on mitochondria has been neglected. Our work aimed to better understand and exploit the metabolic alterations of imatinib-resistant leukemic cells. Imatinib-resistant cells presented high glycolysis as compared to sensitive cells. Consistently, expression of key glycolytic enzymes, at least partly mediated by HIF-1α, was modified in imatinib-resistant cells suggesting that imatinib-resistant cells uncouple glycolytic flux from pyruvate oxidation. Interestingly, mitochondria of imatinib-resistant cells exhibited accumulation of TCA cycle intermediates, increased NADH and low oxygen consumption. These mitochondrial alterations due to the partial failure of ETC were further confirmed in leukemic cells isolated from some imatinib-resistant CML patients. As a consequence, mitochondria generated more ROS than those of imatinib-sensitive cells. This, in turn, resulted in increased death of imatinib-resistant leukemic cells following in vitro or in vivo treatment with the pro-oxidants, PEITC and Trisenox, in a syngeneic mouse tumor model. Conversely, inhibition of glycolysis caused derepression of respiration leading to lower cellular ROS. In conclusion, these findings indicate that imatinib-resistant leukemic cells have an unexpected mitochondrial dysfunction that could be exploited for selective therapeutic intervention

Grundlagen ubiquitärer Systeme und deren Anwendung in der "Smart Factory"

The profileration of small mobile devices and everyday objects with integrated sensors and actuators provides the basis for a large variety of novel applications. With capabilities for wireless communication and determining the own position, these devices are ideally suited for location- and context-aware systems that are the focus of research in the Nexus project at the University of Stuttgart. The use of these technologies in a factory environment, e.g. a decentralized manufacturing resource management system as presented in this article, opens up a totally new application area

Thalamic influence on slow wave slope renormalization during sleep.

OBJECTIVE Slow waves are thought to mediate an overall reduction in synaptic strength during sleep. The specific contribution of the thalamus to this so-called synaptic renormalization is unknown. Thalamic stroke is associated with daytime sleepiness, along with changes to sleep electroencephalography and cognition making it a unique "experiment of nature" to assess the relationship between sleep rhythms, synaptic renormalization, and daytime functions. METHODS Sleep was studied by polysomnography and high-density electroencephalography over 17 nights in patients with thalamic (n = 12) and 15 nights in patients with extra-thalamic (n = 11) stroke. Sleep electroencephalography overnight slow wave slope changes, and their relationship with subjective daytime sleepiness, cognition, and other functional tests were assessed. RESULTS Thalamic and extra-thalamic patients did not differ in terms of age, sleep duration or apnea-hypopnea index. Conversely, overnight slope changes were reduced in a large cluster of electrodes in thalamic compared to extra-thalamic stroke patients. This reduction was related to increased daytime sleepiness. No significant differences were found in other functional tests between the two groups. INTERPRETATION In patients with thalamic stroke a reduction in overnight slow wave slope change and increased daytime sleepiness was found. Sleep- and wake-centered mechanisms for this relationship are discussed. Overall, this study suggests a central role of the thalamus in synaptic renormalization. This article is protected by copyright. All rights reserved