Learning from the Extreme Poor: Participatory Approaches to Fostering Child Health in Madagascar

Very poor people are often considered ignorant and even incapable of thinking, because they have had no opportunity to gain skill in expression through education. The experience of contempt and exclusion is deep among the poorest, whether they live in rich or poor countries, and it often prevents them from participating in social programs. This note provides a summary of a study on access to health care conducted by the International Movement ATD Fourth World in Madagascar, with the aim to outline the organization's approach to reaching the very poor and building projects in close partnership with them.Extreme Poverty, Health Care, Community Development, Madagascar

Développement de modèles neutroniques pour le couplage thermohydraulique du MSFR et le calcul de paramètres cinétiques effectifs

In this PhD thesis, we describe the development of innovative neutronic models for their coupling with thermalhydraulics such that they combine precision and reasonable computational times. One of the main cases where this method is applied is the Molten Salt Fast Reactor (MSFR) whose combines a fast neutron spectrum with a thorium cycle. In this fourth generation reactor, the motion of the delayed neutron precursors and the associated phenomena have to be taken into account due to the liquid fuel circulation. The starting point for these developments was the preliminary design of this type of system where a dedicated multi-physical representation was needed to study the reactor performance in steady and transient conditions.As a first step, a stationary coupling was developed. A neutronic model based on a stochastic approach was associated to a CFD (Computational Fluid Dynamics) code to solve the Navier Stokes equations for turbulent flows and the transport of the delayed neutron precursors. The impact of this precursor motion is taken into account by reconstructing the prompt shower that they generate. This approach, called by shower, views the critical reactor as a prompt subcritical reactor that amplifies a source of delayed neutrons.A second step consisted in developing a neutronic model based on a time dependent version of the fission matrices (Transient Fission Matrix or TFM) so as to enable reactor transient studies. With the TFM model, an initial computation of the matrices with a stochastic code (MCNP, SERPENT) allows the characterization of the global spatial and time dependent neutronic response of the reactor with a precision close to that of a Monte Carlo calculation. The information thus obtained is then used to calculate transients, while retaining the advantage of reduced computational time. The TFM model, which can be used for various system concepts, also allows the evaluation of effective kinetic parameters such as the effective fraction of delayed neutrons or the effective generation time. The method was applied to various cases in order to verify it and demonstrate the approach for time dependent or kinetic parameter calculations.Finally, the TFM model was integrated in the OpenFOAM thermalhydraulic code. The coupling was first tested on a simple geometry numerical benchmark. Subsequently, it was applied to the MSFR to calculate normal (load-following) and accidental (reactivity insertion, over-cooling) transients.Le travail de cette thèse porte sur le développement de modèles neutroniques innovants pour le couplage avec la thermohydraulique, associant précision et temps de calcul raisonnable. Un des cas d'application principaux étant le réacteur à sel fondu, à spectre neutronique rapide et en cycle thorium MSFR (Molten Salt Fast Reactor), réacteur de 4ème génération à combustible liquide circulant, la prise en compte du mouvement des précurseurs de neutrons retardés et des phénomènes associés est nécessaire. Les études de conception de ce type de réacteur ont été le point de départ de ces développements, via le besoin d'une représentation multiphysique adaptée pour l'obtention d'une image globale et la réalisation d'études de transitoire.Dans un premier temps un couplage stationnaire a été développé, associant un modèle neutronique basé sur une approche stochastique, et un code de CFD (Computational Fluid Dynamics) résolvant les équations de Navier Stokes des écoulements turbulents ainsi que le transport des précurseurs de neutrons retardés. Ce modèle neutronique intègre l'effet lié au transport de ces précurseurs par une reconstruction de la gerbe prompte qu'ils génèrent. Cette approche dite par gerbe considère le réacteur critique comme un système sous-critique prompt amplifiant la source de neutrons retardés.Dans un second temps, un modèle neutronique basé sur une version temporelle des matrices de fission (Transient Fission Matrix ou TFM) a été développé afin de réaliser des études de transitoires. Le modèle TFM permet, en un premier calcul des matrices avec un code stochastique (MCNP, SERPENT), de réaliser une caractérisation de l'ensemble de la réponse neutronique spatiale et temporelle du réacteur avec une précision proche de celle du calcul Monte Carlo. Dans un second temps cette information est utilisée pour les calculs de transitoires tout en gardant un temps de calcul réduit. Le modèle TFM, utilisable pour différents types de systèmes, permet également le calcul de paramètres cinétiques effectifs tels que la fraction effective de neutrons retardés ou le temps de génération effectif. Différents cas d'application ont été utilisés afin de vérifier et d'illustrer cette approche sur des calculs temporels ou de paramètres cinétiques.Enfin le modèle TFM a été implémenté dans le code de thermohydraulique OpenFOAM. Ce couplage a été testé sur un benchmark numérique à géométrie simplifiée, puis des calculs sur le MSFR ont été réalisés, pour des transitoires normaux (suivis de charge) ou accidentels (insertions de réactivité, sur-refroidissements)

Variation of oxygenation conditions on a hydrocarbonoclastic microbial community reveals Alcanivorax and Cycloclasticus ecotypes

Deciphering the ecology of marine obligate hydrocarbonoclastic bacteria (MOHCB) is of crucial importance for understanding their success in occupying distinct niches in hydrocarbon-contaminated marine environments after oil spills. In marine coastal sediments, MOHCB are particularly subjected to extreme fluctuating conditions due to redox oscillations several times a day as a result of mechanical (tide, waves and currents) and biological (bioturbation) reworking of the sediment. The adaptation of MOHCB to the redox oscillations was investigated by an experimental ecology approach, subjecting a hydrocarbon-degrading microbial community to contrasting oxygenation regimes including permanent anoxic conditions, anoxic/oxic oscillations and permanent oxic conditions. The most ubiquitous MOHCB, Alcanivorax and Cycloclasticus, showed different behaviors, especially under anoxic/oxic oscillation conditions, which were more favorable for Alcanivorax than for Cycloclasticus. The micro-diversity of 16S rRNA gene transcripts from these genera revealed specific ecotypes for different oxygenation conditions and their dynamics. It is likely that such ecotypes allow the colonization of distinct ecological niches that may explain the success of Alcanivorax and Cycloclasticus in hydrocarbon-contaminated coastal sediments during oil-spills

Dynamics of bacterial assemblages and removal of polycyclic aromatic hydrocarbons in oil-contaminated coastal marine sediments subjected to contrasted oxygen regimes

To study the impact of oxygen regimes on the removal of polycylic aromatic hydrocarbons (PAHs) in oil-spill-affected coastal marine sediments, we used a thin-layer incubation method to ensure that the incubated sediment was fully oxic, anoxic, or was influenced by oxic-anoxic switches without sediment stirring. Hydrocarbon content and microbial assemblages were followed during 60 days to determine PAH degradation kinetics and microbial community dynamics according to the oxygenation regimes. The highest PAH removal, with 69 % reduction, was obtained at the end of the experiment under oxic conditions, whereas weaker removals were obtained under oscillating and anoxic conditions (18 and 12 %, respectively). Bacterial community structure during the experiment was determined using a dual 16S rRNA genes/16S rRNA transcripts approach, allowing the characterization of metabolically active bacteria responsible for the functioning of the bacterial community in the contaminated sediment. The shift of the metabolically active bacterial communities showed that the selection of first responders belonged to Pseudomonas spp. and Labrenzia sp. and included an unidentified Deltaproteobacteria—irrespective of the oxygen regime—followed by the selection of late responders adapted to the oxygen regime. A novel unaffiliated phylotype (B38) was highly active during the last stage of the experiment, at which time, the low-molecular-weight (LMW) PAH biodegradation rates were significant for permanent oxic- and oxygen-oscillating conditions, suggesting that this novel phylotype plays an active role during the restoration phase of the studied ecosystem

Learning from the Extreme Poor: Participatory Approaches to Fostering Child Health in Madagascar

Very poor people are often considered ignorant and even incapable of thinking, because they have had no opportunity to gain skill in expression through education. The experience of contempt and exclusion is deep among the poorest, whether they live in rich or poor countries, and it often prevents them from participating in social programs. This note provides a summary of a study on access to health care conducted by the International Movement ATD Fourth World in Madagascar, with the aim to outline the organization's approach to reaching the very poor and building projects in close partnership with them

Learning from the Extreme Poor: Participatory Approaches to Fostering Child Health in Madagascar

Very poor people are often considered ignorant and even incapable of thinking, because they have had no opportunity to gain skill in expression through education. The experience of contempt and exclusion is deep among the poorest, whether they live in rich or poor countries, and it often prevents them from participating in social programs. This note provides a summary of a study on access to health care conducted by the International Movement ATD Fourth World in Madagascar, with the aim to outline the organization's approach to reaching the very poor and building projects in close partnership with them

Meiotic Cells Counteract Programmed Retrotransposon Activation via RNA-Binding Translational Repressor Assemblies

International audienceRetrotransposon proliferation poses a threat to germline integrity. While retrotransposons must be activated in developing germ cells in order to survive and propagate, how they are selectively activated in the context of meiosis is unclear. We demonstrate that the transcriptional activation of Ty3/Gypsy retrotransposons and host defense are controlled by master meiotic regulators. We show that budding yeast Ty3/Gypsy co-opts binding sites of the essential meiotic transcription factor Ndt80 upstream of the integration site, thereby tightly linking its transcriptional activation to meiotic progression. We also elucidate how yeast cells thwart Ty3/Gypsy proliferation by blocking translation of the retrotransposon mRNA using amyloid-like assemblies of the RNA-binding protein Rim4. In mammals, several inactive Ty3/Gypsy elements are undergoing domestication. We show that mammals utilize equivalent master meiotic regulators (Stra8, Mybl1, Dazl) to regulate Ty3/Gypsy-derived genes in developing gametes. Our findings inform how genes that are evolving from retrotransposons can build upon existing regulatory networks during domestication

Vertical organization of microbial communities in Salineta hypersaline wetland, Spain

Microbial communities inhabiting hypersaline wetlands, well adapted to the environmental fluctuations due to flooding and desiccation events, play a key role in the biogeochemical cycles, ensuring ecosystem service. To better understand the ecosystem functioning, we studied soil microbial communities of Salineta wetland (NE Spain) in dry and wet seasons in three different landscape stations representing situations characteristic of ephemeral saline lakes: S1 soil usually submerged, S2 soil intermittently flooded, and S3 soil with halophytes. Microbial community composition was determined according to different redox layers by 16S rRNA gene barcoding. We observed reversed redox gradient, negative at the surface and positive in depth, which was identified by PERMANOVA as the main factor explaining microbial distribution. The Pseudomonadota, Gemmatimonadota, Bacteroidota, Desulfobacterota, and Halobacteriota phyla were dominant in all stations. Linear discriminant analysis effect size (LEfSe) revealed that the upper soil surface layer was characterized by the predominance of operational taxonomic units (OTUs) affiliated to strictly or facultative anaerobic halophilic bacteria and archaea while the subsurface soil layer was dominated by an OTU affiliated to Roseibaca, an aerobic alkali-tolerant bacterium. In addition, the potential functional capabilities, inferred by PICRUSt2 analysis, involved in carbon, nitrogen, and sulfur cycles were similar in all samples, irrespective of the redox stratification, suggesting functional redundancy. Our findings show microbial community changes according to water flooding conditions, which represent useful information for biomonitoring and management of these wetlands whose extreme aridity and salinity conditions are exposed to irreversible changes due to human activities

Photoperiod affects the phenotype of mitochondrial complex I mutants

Plant mutants for genes encoding subunits of mitochondrial Complex I (CI, NADH:ubiquinone oxidoreductase), the first enzyme of the respiratory chain, display various phenotypes depending on growth conditions. Here, we examined the impact of photoperiod, a major environmental factor controlling plant development, on two Arabidopsis thaliana CI mutants: a new insertion mutant interrupted in both ndufs8.1 and ndufs8.2 genes encoding the NDUFS8 subunit, and the previously characterized ndufs4 CI mutant. In long day (LD) condition, both ndufs8.1 and ndufs8.2 single mutants were indistinguishable from Col-0 at phenotypic and biochemical levels, whereas the ndufs8.1 ndufs8.2 double mutant was devoid of detectable holo-CI assembly/activity, showed higher AOX content/activity and displayed a growth-retardation phenotype similar to that of the ndufs4 mutant. Although growth was more affected in ndufs4 than ndufs8.1 ndufs8.2 under short day (SD) condition, both mutants displayed a similar impairment of growth acceleration after transfer to LD as compared to the WT. Untargeted and targeted metabolomics showed that overall metabolism was less responsive to the SD-to-LD transition in mutants than in the WT. The typical LD acclimation of carbon, nitrogen-assimilation and redox-related parameters was not observed in ndufs8.1 ndufs8. Similarly, NAD(H) content, that was higher in SD condition in both mutants than in Col-0, did not adjust under LD. We propose that altered redox homeostasis and NAD(H) content/redox state control the phenotype of Complex I mutants and photoperiod acclimation in Arabidopsis

Somatosensory Evoked Potentials suppression due to remifentanil during spinal operations; a prospective clinical study

<p>Abstract</p> <p>Background</p> <p>Somatosensory evoked potentials (SSEP) are being used for the investigation and monitoring of the integrity of neural pathways during surgical procedures. Intraoperative neurophysiologic monitoring is affected by the type of anesthetic agents. Remifentanil is supposed to produce minimal or no changes in SSEP amplitude and latency. This study aims to investigate whether high doses of remifentanil influence the SSEP during spinal surgery under total intravenous anesthesia.</p> <p>Methods</p> <p>Ten patients underwent spinal surgery. Anesthesia was induced with propofol (2 mg/Kg), fentanyl (2 mcg/Kg) and a single dose of cis-atracurium (0.15 mg/Kg), followed by infusion of 0.8 mcg/kg/min of remifentanil and propofol (30-50 mcg/kg/min). The depth of anesthesia was monitored by Bispectral Index (BIS) and an adequate level (40-50) of anesthesia was maintained. Somatosensory evoked potentials (SSEPs) were recorded intraoperatively from the tibial nerve (P37) 15 min before initiation of remifentanil infusion. Data were analysed over that period.</p> <p>Results</p> <p>Remifentanil induced prolongation of the tibial SSEP latency which however was not significant (p > 0.05). The suppression of the amplitude was significant (p < 0.001), varying from 20-80% with this decrease being time related.</p> <p>Conclusion</p> <p>Remifentanil in high doses induces significant changes in SSEP components that should be taken under consideration during intraoperative neuromonitoring.</p