A comparative performance evaluation framework for power based wind turbine fault detection methods

International audienc

Comparison of two types of 60 GHz photonic millimeter-wave generation and distribution of a 3 Gb/s OFDM signal

International audienceWe demonstrate and compare experimentally two set-ups achieving very high data rate (3 Gbps) wireless transmission in the 60 GHz window, both using Radio-over-Fiber (RoF) for reach extension with OFDM signal compliant to the IEEE 802.15.3.c pre-standard

Transmission Quality Measurement of Two Types of 60 GHz Millimeter-Wave Generation and Distribution Systems

International audienceIn this paper, we demonstrate and compare experimentally two techniques achieving very high-data-rates (> 1 Gb/s) wireless transmission in the 60 GHz window using radio over fiber (RoF) for reach extension. The first RoF link is based on a 10 GHz vertical-cavity surface-emitting laser and uses a multimode fiber. The radio signal is transported on an intermediate frequency of 4.5 GHz and electrically upconverted to 60 GHz after the optical link. The second uses an optical frequency upconversion from 4.5 to 60 GHz by direct modulation of a mode-locked Fabry-PEacuterot laser whose self-pulsating frequency is 54.8 GHz before transmission over a single-mode fiber. For both techniques, two different types of modulation were tested. The first one was an on-off keying at 1.5 Gb/s and the second one was an orthogonal frequency-division multiplexing-QPSK signal compliant to the IEEE 802.15.3.c prestandard (3.03 Gb/s). Radio propagation performance is also reported

Superconducting routing platform for large-scale integration of quantum technologies

To reach large-scale quantum computing, three-dimensional integration of scalable qubit arrays and their control electronics in multi-chip assemblies is promising. Within these assemblies, the use of superconducting interconnections, as routing layers, offers interesting perspective in terms of (1) thermal management to protect the qubits from control electronics self-heating, (2) passive device performance with significant increase of quality factors and (3) density rise of low and high frequency signals thanks to minimal dispersion. We report on the fabrication, using 200 mm silicon wafer technologies, of a multi-layer routing platform designed for the hybridization of spin qubit and control electronics chips. A routing level couples the qubits and the control circuits through one layer of Al0.995Cu0.005 and superconducting layers of TiN, Nb or NbN, connected between them by W-based vias. Wafer-level parametric tests at 300 K validate the yield of these technologies and low temperature electrical measurements in cryostat are used to extract the superconducting properties of the routing layers. Preliminary low temperature radio-frequency characterizations of superconducting passive elements, embedded in these routing levels, are presented

Shift from extracellular signal-regulated kinase to AKT/cAMP response element-binding protein pathway increases survival-motor-neuron expression in spinal-muscular-atrophy-like mice and patient cells

Spinal muscular atrophy (SMA), a recessive neurodegenerative disease, is characterized by the selective loss of spinal motor neurons. No available therapy exists for SMA, which represents one of the leading genetic causes of death in childhood. SMA is caused by a mutation of the survival-of-motor-neuron 1 (SMN1) gene, leading to a quantitative defect in the survival-motor-neuron (SMN) protein expression. All patients retain one or more copies of the SMN2 gene, which modulates the disease severity by producing a small amount of stable SMN protein. We reported recently that NMDA receptor activation, directly in the spinal cord, significantly enhanced the transcription rate of the SMN2 genes in a mouse model of very severe SMA (referred as type 1) by a mechanism that involved AKT/CREB pathway activation. Here, we provide the first compelling evidence for a competition between the MEK/ERK/Elk-1 and the phosphatidylinositol 3-kinase/AKT/CREB signaling pathways for SMN2 gene regulation in the spinal cord of type 1 SMA-like mice. The inhibition of the MEK/ERK/Elk-1 pathway promotes the AKT/CREB pathway activation, leading to (1) an enhanced SMN expression in the spinal cord of SMA-like mice and in human SMA myotubes and (2) a 2.8-fold lifespan extension in SMA-like mice. Furthermore, we identified a crosstalk between ERK and AKT signaling pathways that involves the calcium-dependent modulation of CaMKII activity. Together, all these data open new perspectives to the therapeutic strategy for SMA patients.This project was supported by the Association Française contre les Myopathies. J.B. is the recipients of a fellowship from the Ministry of Research and Technology, and F.Chal. is the recipient of a fellowship from AXA Research Fund/Garches Foundation.Peer reviewe

NADPH oxidase 4 inhibition is a complementary therapeutic strategy for spinal muscular atrophy

IntroductionSpinal muscular atrophy (SMA) is a fatal neurodegenerative disorder, characterized by motor neuron (MN) degeneration and severe muscular atrophy and caused by Survival of Motor Neuron (SMN) depletion. Therapies aimed at increasing SMN in patients have proven their efficiency in alleviating SMA symptoms but not for all patients. Thus, combinational therapies are warranted. Here, we investigated the involvement of NADPH oxidase 4 (NOX4) in SMA-induced spinal MN death and if the modulation of Nox4 activity could be beneficial for SMA patients.MethodsWe analysed in the spinal cord of severe type SMA-like mice before and at the disease onset, the level of oxidative stress and Nox4 expression. Then, we tested the effect of Nox4 inhibition by GKT137831/Setanaxib, a drug presently in clinical development, by intrathecal injection on MN survival and motor behaviour. Finally, we tested if GKT137831/Setanaxib could act synergistically with FDA-validated SMN-upregulating treatment (nusinersen).ResultsWe show that NOX4 is overexpressed in SMA and its inhibition by GKT137831/Setanaxib protected spinal MN from SMA-induced degeneration. These improvements were associated with a significant increase in lifespan and motor behaviour of the mice. At the molecular level, GKT137831 activated the pro-survival AKT/CREB signaling pathway, leading to an increase in SMN expression in SMA MNs. Most importantly, we found that the per os administration of GKT137831 acted synergistically with a FDA-validated SMN-upregulating treatment.ConclusionThe pharmacological inhibition of NOX4 by GKT137831/Setanaxib is neuroprotector and could represent a complementary therapeutic strategy to fight against SMA

Monitoreo de servicios ecosistémicos en un observatorio de cafetales agroforestales. Recomendaciones para el sector cafetalero

Ocho años de estudio de la ecofisiología del café, a través de experimentación y de modelación y el monitoreo de los servicios del ecosistema (SE) en una gran finca cafetalera en Costa Rica, revelaron varias recomendaciones prácticas para los agricultores y los formuladores de políticas. El sistema de cultivo estudiado dentro de nuestro observatorio colaborativo (Coffee-Flux), corresponde a un sistema agroforestal (SAF) a base de café bajo la sombra de grandes árboles de Erythrina poeppigiana (16% de la cubierta del dosel). Una gran cantidad de SE y limitantes dependen de las propiedades locales del suelo (en este caso Andisoles), especialmente de la erosión/infiltración, el agua/carbono y la capacidad de almacenamiento de nutrientes. Por lo tanto, para la evaluación de SE, el tipo de suelo es crucial. Una densidad adecuada de árboles de sombra (bastante baja aquí por la condición de libre crecimiento), redujo la severidad de las enfermedades de las hojas con la posibilidad de reducir el uso de plaguicidas y fungicidas. Un inventario simple del área basal en el collar de las plantas de café permitió estimar la biomasa subterránea y la edad promedio de la plantación, para juzgar su valor de mercado y decidir cuándo reemplazarla. Las fincas de café probablemente estén mucho más cerca de la neutralidad de C que lo indicado en el protocolo actual de C-neutralidad, que solo considera árboles de sombra, no los cafetos ni el suelo. Se proponen evaluaciones más completas, que ncluyen árboles, café, hojarasca, suelo y raíces en el balance C del SAF. Los árboles de sombra ofrecen muchos SE si se gestionan adecuadamente en el contexto local. En comparación con las condiciones a pleno sol, los árboles de sombra pueden (i) reducir la erosión laminar en un factor de 2; (ii) aumentar la fijación de N y el % de N reciclado en el sistema, reduciendo así los requisitos de fertilizantes; (iii) reducir la severidad de enfermedades de las hojas; (iv) aumentar el secuestro de C; (v) mejorar el microclima y (vi) reducir sustancialmente los efectos del cambio climático. En nuestro estudio de caso, no se encontró ningún efecto negativo sobre el rendimiento del café

A História da Alimentação: balizas historiográficas

Os M. pretenderam traçar um quadro da História da Alimentação, não como um novo ramo epistemológico da disciplina, mas como um campo em desenvolvimento de práticas e atividades especializadas, incluindo pesquisa, formação, publicações, associações, encontros acadêmicos, etc. Um breve relato das condições em que tal campo se assentou faz-se preceder de um panorama dos estudos de alimentação e temas correia tos, em geral, segundo cinco abardagens Ia biológica, a econômica, a social, a cultural e a filosófica!, assim como da identificação das contribuições mais relevantes da Antropologia, Arqueologia, Sociologia e Geografia. A fim de comentar a multiforme e volumosa bibliografia histórica, foi ela organizada segundo critérios morfológicos. A seguir, alguns tópicos importantes mereceram tratamento à parte: a fome, o alimento e o domínio religioso, as descobertas européias e a difusão mundial de alimentos, gosto e gastronomia. O artigo se encerra com um rápido balanço crítico da historiografia brasileira sobre o tema

Étude des voies de signalisation impliquées dans le contrôle de l'expression de SMN dans des modèles murins d'Amyotrophie Spinale Infantile

L'amyotrophie spinale infantile (SMA) est une maladie génétique autosomique récessive de l'enfant pour laquelle aucun traitement efficace n'existe. La SMA est caractérisée par la perte spécifique des motoneurones spinaux conduisant à une faiblesse musculaire sévère. Le décès des patients survient lorsque les muscles vitaux sont touchés. Cette maladie est causée par la mutation du gène Survival of Motor Neuron 1 (Smn1) conduisant à une diminution importante de l expression de la protéine Survival of Motor Neuron (SMN). Tous les patients possèdent un ou plusieurs gènes copie de Smn1, le gène Smn2. Ces copies modulent la sévérité de la maladie en produisant une faible quantité de transcrits SMN complets, en particulier possédant l exon 7, un exon alternatif qui code pour un domaine important pour que la protéine SMN soit fonctionnelle et stable. Des résultats récents, obtenus au laboratoire, indiquent que l'exercice physique retarde la mort des motoneurones, conduit à une augmentation du taux de maturation postnatale des unités motrices et déclenche l expression du gène Smn2 chez des souris mimant la SMA de type II. Les premières données moléculaires suggèrent que les effets de l'exercice physique pourraient être relayés par la signalisation dépendante 1) des récepteurs au NMDA (Biondi et coll., J Neurosci, 2008) et/ou 2) du récepteur à IGF-1. Dans notre étude, nous avons d abord testé les effets de l activation directe des récepteurs au NMDA (NMDAR) dans un contexte de SMA. Nous montrons qu une activation adéquate de ces récepteurs dans plusieurs modèles souris mimant les SMA sévères accélère la maturation postnatale des unités motrices, limite l'apoptose dans la moelle épinière et active l expression du gène Smn2 favorisant l'expression de la protéine SMN. Ces effets bénéfiques sont dépendants du niveau d activation des NMDARs et suggèrent que l'accélération de la maturation postnatale des unités motrices, induite par le NMDA, est indépendante du niveau d expression de la protéine SMN. De manière importante, l activation pharmacologique des NMDARs augmente fortement la durée de vie de deux modèles différents de souris mimant la SMA de type sévère. L'analyse des cascades de signalisation intracellulaire a révélé une altération inattendue des profils d activation des voies de signalisation ERK et AKT/CREB, qui se rééquilibrent quand les NMDARs sont activés (Branchu et coll., J Neurosci, 2010).Comme la kinase ERK est constitutivement suractivée dans la moelle épinière des souris mimant la SMA, nous avons ensuite examiné son rôle potentiel dans la régulation de l'expression des gènes Smn2. Nous avons démontré que l'inhibition pharmacologique de la voie de signalisation MEK/ERK/Elk-1, notamment avec un médicament anti-cancéreux actuellement en essai clinique de phase 2, est bénéfique pour les souris mimant la SMA de type I. Nous avons identifié une relation croisée entre les voies de signalisation ERK et AKT impliquant la modulation, calcium-dépendante, de l'activité CaMKII. Ainsi, l'inhibition pharmacologique de ERK durant la phase symptomatique de la maladie chez ces souris, entraîne l'activation de la voie CaMKII/AKT/CREB et conduit à une augmentation significative de l expression de la protéine SMN dans les motoneurones suite à une augmentation de la transcription du gène Smn2. Ces modifications sont corrélées avec une augmentation remarquable de la durée de vie et de la mobilité des souris et une neuroprotection des motoneurones spinaux. De plus, l inhibition de ERK dans des cellules musculaires différenciées provenant de patients atteints de SMA de type II induit également une augmentation de l activité de la voie AKT/CREB et de l expression de SMN (Branchu et coll., J Neurosci, en révision positive). Enfin, nous avons montré que l'exercice physique est capable de diminuer l'expression du récepteur à l'IGF-1 (IGF-1R), qui est surexprimé dans la moelle épinière des souris mimant la SMA sévère...Spinal muscular atrophy (SMA) is a severe autosomal recessive disease in childhood for which no efficient therapy is currently available. SMA is characterized by the specific loss of spinal motor neurons leading to a severe muscular weakness and death when vital muscles are affected. This disease is caused by mutation of the survival of motor neuron 1 (Smn1) gene leading to a deficiency of the Survival of Motor Neuron (SMN) protein expression. All patients retain one or more copies of the Smn2 gene, which modulates the disease severity by allowing a small amount of full-length SMN transcripts and stable SMN protein to be produced. Recent results in our laboratory indicate that physical exercise delays motor neuron death, leads to an increase in the motor-units postnatal maturation rate and trigger Smn2 gene expression in motor neurons. Furthermore, on the one hand, exercise is capable of specifically enhancing the expression of the gene encoding NR2A, the major activating subunit of the NMDA receptor in motor neurons. This subunit is known to be dramatically down-regulated in the spinal cord of severe SMA-like mice. Accordingly, inhibiting NMDA-receptor activity abolishes the exercise-induced effects on muscle development, motor neuron protection and life span gain (Biondi et al., J Neurosci, 2008). Thus, we tried to restore NMDA-receptor function as a therapeutic approach to SMA treatment. We demonstrated that an adequate NMDA receptor activation in severe SMA-like mouse model significantly accelerated motor-unit postnatal maturation, counteracted apoptosis in the spinal cord, and induced a marked increase in SMN expression resulting from a modification of Smn2 gene transcription pattern. These beneficial effects are dependent on the level of NMDA receptor activation since a treatment with high doses of NMDA led to an acceleration of the motor unit maturation but favored the apoptotic process and decreased SMN expression. Thus, these results suggest that the NMDA-induced acceleration of motor-unit postnatal maturation occurred independently of SMN. The NMDA receptor activating treatment strongly extended the life span in two different severe SMA-like mouse models. The analysis of the intracellular signaling cascades that lay downstream the activated NMDA receptor revealed an unexpected competition between the MEK/ERK/Elk-1 and the AKT/CREB signaling pathways for Smn2 gene regulation. Actually, the reactivation of the AKT/CREB pathway, thought calcium influx and the phosphorylation of CaMKII, opposed to MEK/ERK/Elk-1 inhibition, induces an enhanced SMN expression (Branchu et al., J Neurosci, 2010). On the other hand, exercise is capable of strongly decreasing the expression of IGF-1 receptor (IGF-1R); which is over-expressed in the spinal cord of severe SMA-like mice. We report that this reduction is also correlated with a reactivation of the AKT/CREB pathway and a MEK/ERK/Elk-1 inhibition. Therefore we generated an IGF-1R+/- SMA-like mouse model to investigate the functional link between IGF-1R expression level and the intracellular signaling pathway triggered in SMA spinal cord. We provided the first evidence that reducing the IGF-1R expression level is neuroprotective for SMA motor neurons, accelerates motor-unit postnatal maturation and leads to a remarkable increase in SMN expression and lifespan. The analysis of the intracellular signaling cascades revealed the same competition for Smn2 gene regulation. However, the activation of AKT/CREB is calcium-independent. In addition, we showed a drastic reduction of STAT3 phosphorylation and SOCS-1 and -3 expressions, which are over-expressed in SMA spinal cord and known to positively modulate ERK phosphorylation and negatively AKT (Data not published). Taken together all these data suggest new perspectives to therapeutic strategy, based on specific pharmacological correction, for SMA...PARIS5-Bibliotheque electronique (751069902) / SudocSudocFranceF