Sexual behaviour does not reflect HIV-1 prevalence differences: A comparison study of Zimbabwe and Tanzania

Background: Substantial heterogeneity in HIV prevalence has been observed within sub-Saharan Africa. It is not clear which factors can explain these differences. Our aim was to identify risk factors that could explain the large differences in HIV-1 prevalence among pregnant women in Harare, Zimbabwe, and Moshi, Tanzania. Methods. Cross-sectional data from a two-centre study that enrolled pregnant women in Harare (N = 691) and Moshi (N = 2654) was used. Consenting women were interviewed about their socio-demographic background and sexual behaviour, and tested for presence of sexually transmitted infections and reproductive tract infections. Prevalence distribution of risk factors for HIV acquisition and spread were compared between the two areas. Results. The prevalence of HIV-1 among pregnant women was 26% in Zimbabwe and 7% in Tanzania. The HIV prevalence in both countries rises constantly with age up to the 25-30 year age group. After that, it continues to rise among Zimbabwean women, while it drops for Tanzanian women. Risky sexual behaviour was more prominent among Tanzanians than Zimbabweans. Mobility and such infections as HSV-2, trichomoniasis and bacterial vaginosis were more prevalent among Zimbabweans than Tanzanians. Reported male pa

On the mechanisms governing gas penetration into a tokamak plasma during a massive gas injection

A new 1D radial fluid code, IMAGINE, is used to simulate the penetration of gas into a tokamak plasma during a massive gas injection (MGI). The main result is that the gas is in general strongly braked as it reaches the plasma, due to mechanisms related to charge exchange and (to a smaller extent) recombination. As a result, only a fraction of the gas penetrates into the plasma. Also, a shock wave is created in the gas which propagates away from the plasma, braking and compressing the incoming gas. Simulation results are quantitatively consistent, at least in terms of orders of magnitude, with experimental data for a D 2 MGI into a JET Ohmic plasma. Simulations of MGI into the background plasma surrounding a runaway electron beam show that if the background electron density is too high, the gas may not penetrate, suggesting a possible explanation for the recent results of Reux et al in JET (2015 Nucl. Fusion 55 093013)

Measuring revealed localisation economies

Localisation economies, Productivity, Growth, Sectoral specialisation, The Netherlands, D24, J24, O18, R11,

PNEUMOPERITÔNIO COM DIÓXIDO DE CARBONO ASSOCIADO A TRÊS POSIÇÕES PARA LAPAROSCOPIA EM CÃES PNEUMOPERITONEUM USING CARBON DIOXIDE ASSOCIATED WITH THREE POSITIONS FOR LAPAROSCOPY IN DOGS

Doze cães foram submetidos ao pneumoperitônio com dióxido de carbono, em pressão constante de 15mmHg, e posicionados em Trendelenburg, Trendelenburg reverso e decúbito horizontal. As variáveis de saturação de oxigênio na hemoglobina, freqüência cardíaca, freqüência respiratória, pressão arterial média, sistólica e diastólica, o pH, a pressão parcial de CO2 e a pressão parcial de O2 foram mensurados. Somente a freqüência cardíaca, a freqüência respiratória, o pH e a pressão parcial de CO2 apresentaram diferença estatisticamente significativa em relação ao tempo.<br>The present study evaluated the changes in abdominal insufflation with carbon dioxide, with constant pressure of 15mmHg. In this experiment 12 dogs, adult mongrels were used. After having installed the pneumoperitonium, the animals were positioned in Trendelenburg, reversed Trendelenburg and horizontal position. In each one of the mentioned positions, the dogs stayed for a period of 30 minutes, for evaluation of alterations in the variables of saturation of oxygen in the hemoglobin, heart rate, breathing rate, arterial blood pressure, pH, partial pressure of CO2 and partial pressure of O2. There was no influences of the positioning on the studied variables. The heart rate, breathing rate, pH and the partial pressure of CO2 had significant difference when compared at the time controls

JET experience on managing radioactive waste and implications for ITER

The reduced radiotoxicity and half-life of radioactive waste arisings from nuclear fusion reactors as compared to current fission reactors is one of the key benefits of nuclear fusion. As a result of the research programme at the Joint European Torus (JET), significant experience on the management of radioactive waste has been gained which will be of benefit to ITER and the nuclear fusion community.The successful management of radioactive waste is dependent on accurate and efficient tracking and characterisation of waste streams. To accomplish this all items at JET which are removed from radiological areas are identified and pre-characterised, by recording the radiological history, before being removed from or moved between radiological areas. This system ensures a history of each item is available when it is finally consigned as radioactive waste and also allows detailed forecasting of future arisings. All radioactive waste generated as part of JET operations is transferred to dedicated, on-site, handling facilities for further sorting, sampling and final streaming for off-site disposal. Tritium extraction techniques including leaching, combustion and thermal treatment followed by liquid scintillation counting are used to determine tritium content.Recent changes to government legislation and Culham specific disposal permit conditions have allowed CCFE to adopt additional disposal routes for fusion wastes requiring new treatment and analysis techniques. Facilities currently under construction include a water de-tritiation facility and a materials de-tritiation facility, both of which are relevant for ITER. The procedures used to manage radioactive waste from generation to off-site disposal have been assessed for relevance to ITER and a number have been shown to be significant. The procedures and de-tritiation factors demonstrated by radioactive waste treatment plants currently under construction will be important to tritium recovery and waste minimisation in ITER and DEMO