180 research outputs found
Bayesian optimization of variable-size design space problems
Within the framework of complex system design, it is often necessary to solve
mixed variable optimization problems, in which the objective and constraint
functions can depend simultaneously on continuous and discrete variables.
Additionally, complex system design problems occasionally present a
variable-size design space. This results in an optimization problem for which
the search space varies dynamically (with respect to both number and type of
variables) along the optimization process as a function of the values of
specific discrete decision variables. Similarly, the number and type of
constraints can vary as well. In this paper, two alternative Bayesian
Optimization-based approaches are proposed in order to solve this type of
optimization problems. The first one consists in a budget allocation strategy
allowing to focus the computational budget on the most promising design
sub-spaces. The second approach, instead, is based on the definition of a
kernel function allowing to compute the covariance between samples
characterized by partially different sets of variables. The results obtained on
analytical and engineering related test-cases show a faster and more consistent
convergence of both proposed methods with respect to the standard approaches
Crise sismo-volcanique de Mayotte : réactivation et évolution en-direct d’une ride volcanique sur la pente est de l’île mise en lumière par la bathymétrie et la réflectivité multifaisceaux.
International audienc
Episode H5N8 d'influenza aviaire en France en 2016-2017 : quel rôle pour la faune sauvage ?
L'influenza aviaire (IA) est une menace permanente, qui arrive parfois en Europe par le biais des oiseaux migrateurs. Un dispositif de surveillance est en place en permanence pour surveiller les mortalités dans l'avifaune, et particulièrement celles des oiseaux d'eau migrateurs. En octobre 2016, un épisode d'IA H5N8 qui était surveillé depuis sa survenue en République de Touva (Fédération de Russie, avril 2016) s'est déclaré en Europe. Il a entraîné des pertes conséquentes dans certaines populations d'oiseaux sauvages en Europe, ainsi que dans des filières avicoles. La situation en France s'est révélée paradoxale : l'atteinte a été majeure dans la filière avicole de canards gras du Sud- Ouest, mais les cas dans la faune sauvage sont restés peu nombreux et circonscrits. Ce n'est pas faute d'avoir renforcé la surveillance, soit événementielle (analyse des oiseaux trouvés morts) soit active autour des foyers domestiques. Plus de 800 cadavres d'oiseaux sauvages ont été analysés, dont beaucoup d'anatidés, 90 ont été détectés infectés regroupés en 55 cas dans l'avifaune libre et captive, et dix sites stratégiques ont fait l'objet d'une recherche intensifiée des cadavres et n'ont permis de trouver aucun cas positif supplémentaire. Plus de 300 oiseaux commensaux des élevages domestiques foyers ont été analysés et se sont tous révélés négatifs. Les performances du système de surveillance ne semblent pas pouvoir être mises en cause, et il apparaît donc qu'il y a bien eu des différences de circulation du virus par rapport à nos voisins d'outre-Rhin, mal expliquées à ce stade mais la situation en France est similaire à celle observée en Italie et en Espagne cet hiver, et correspond assez bien à l'épisode H5N8 qui avait circulé en Europe fin 2014/début 2015, sans toucher la France. (Résumé d'auteur
Practical Works on Nanotechnology: Middle School to Undergraduate Students
Since its emergence a few decades ago, nanotechnology has been shown to be a perfect example of a crossroad between different fundamentals sciences. In the last 10 years, the continuous progress of classical top-down lithography and the use of alternative bottom-up elaboration methods has allowed new and smaller components to be created. Their combination has led to very complex and innovative architectures. At the same time, flexible, low-cost, and low-ecological-footprint devices have emerged. Thus, the diversity and multidisciplinary features present challenges in addressing these issues in educational programs
An eight‐channel Tx dipole and 20‐channel Rx loop coil array for MRI of the cervical spinal cord at 7 tesla
RÉSUMÉ: The quality of cervical spinal cord images can be improved by the use of tailored radiofrequency (RF) coil solutions for ultrahigh field imaging; however, very few commercial and research 7-T RF coils currently exist for the spinal cord, and in particular, those with parallel transmission (pTx) capabilities. This work presents the design, testing, and validation of a pTx/Rx coil for the human neck and cervical/upper thoracic spinal cord. The pTx portion is composed of eight dipoles to ensure high homogeneity over this large region of the spinal cord. The Rx portion is made up of twenty semiadaptable overlapping loops to produce high signal-to-noise ratio (SNR) across the patient population. The coil housing is designed to facilitate patient positioning and comfort, while also being tight fitting to ensure high sensitivity. We demonstrate RF shimming capabilities to optimize B1+ uniformity, power efficiency, and/or specific absorption rate efficiency. B1+ homogeneity, SNR, and g-factor were evaluated in adult volunteers and demonstrated excellent performance from the occipital lobe down to the T4-T5 level. We compared the proposed coil with two state-of-the-art head and head/neck coils, confirming its superiority in the cervical and upper thoracic regions of the spinal cord. This coil solution therefore provides a convincing platform for producing the high image quality necessary for clinical and research scanning of the upper spinal cord
JCO Clin Cancer Inform
PURPOSE: Many institutions throughout the world have launched precision medicine initiatives in oncology, and a large amount of clinical and genomic data is being produced. Although there have been attempts at data sharing with the community, initiatives are still limited. In this context, a French task force composed of Integrated Cancer Research Sites (SIRICs), comprehensive cancer centers from the Unicancer network (one of Europe's largest cancer research organization), and university hospitals launched an initiative to improve and accelerate retrospective and prospective clinical and genomic data sharing in oncology. MATERIALS AND METHODS: For 5 years, the OSIRIS group has worked on structuring data and identifying technical solutions for collecting and sharing them. The group used a multidisciplinary approach that included weekly scientific and technical meetings over several months to foster a national consensus on a minimal data set. RESULTS: The resulting OSIRIS set and event-based data model, which is able to capture the disease course, was built with 67 clinical and 65 omics items. The group made it compatible with the HL7 Fast Healthcare Interoperability Resources (FHIR) format to maximize interoperability. The OSIRIS set was reviewed, approved by a National Plan Strategic Committee, and freely released to the community. A proof-of-concept study was carried out to put the OSIRIS set and Common Data Model into practice using a cohort of 300 patients. CONCLUSION: Using a national and bottom-up approach, the OSIRIS group has defined a model including a minimal set of clinical and genomic data that can be used to accelerate data sharing produced in oncology. The model relies on clear and formally defined terminologies and, as such, may also benefit the larger international community
Force Generation upon T Cell Receptor Engagement
T cells are major players of adaptive immune response in mammals. Recognition of
an antigenic peptide in association with the major histocompatibility complex at
the surface of an antigen presenting cell (APC) is a specific and sensitive
process whose mechanism is not fully understood. The potential contribution of
mechanical forces in the T cell activation process is increasingly debated,
although these forces are scarcely defined and hold only limited experimental
evidence. In this work, we have implemented a biomembrane force probe (BFP)
setup and a model APC to explore the nature and the characteristics of the
mechanical forces potentially generated upon engagement of the T cell receptor
(TCR) and/or lymphocyte function-associated antigen-1 (LFA-1). We show that upon
contact with a model APC coated with antibodies towards TCR-CD3, after a short
latency, the T cell developed a timed sequence of pushing and pulling forces
against its target. These processes were defined by their initial constant
growth velocity and loading rate (force increase per unit of time). LFA-1
engagement together with TCR-CD3 reduced the growing speed during the pushing
phase without triggering the same mechanical behavior when engaged alone.
Intracellular Ca2+ concentration
([Ca2+]i) was monitored simultaneously
to verify the cell commitment in the activation process.
[Ca2+]i increased a few tens of seconds
after the beginning of the pushing phase although no strong correlation appeared
between the two events. The pushing phase was driven by actin polymerization.
Tuning the BFP mechanical properties, we could show that the loading rate during
the pulling phase increased with the target stiffness. This indicated that a
mechanosensing mechanism is implemented in the early steps of the activation
process. We provide here the first quantified description of force generation
sequence upon local bidimensional engagement of TCR-CD3 and discuss its
potential role in a T cell mechanically-regulated activation process
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