837 research outputs found
Predicting the emergence of drug-resistant HSV-2: new predictions
BACKGROUND: Mathematical models can be used to predict the emergence and transmission of antiviral resistance. Previously it has been predicted that high usage of antivirals (in immunocompetent populations) to treat Herpes Simplex Virus type 2 (HSV-2) would only lead to fairly low levels of antiviral resistance. The HSV-2 predictions were based upon the assumption that drug-resistant strains of HSV-2 would be less infectious than drug-sensitive strains but that the drug-resistant strains would not be impaired in their ability to reactivate. Recent data suggest that some drug-resistant strains of HSV-2 are likely to be impaired in their ability to reactivate. Objectives: (1) To predict the effect of a high usage of antivirals on the prevalence of drug-resistant HSV-2 under the assumption that drug-resistant strains will be less infectious than drug-sensitive strains of HSV-2 and also have an impaired ability to reactivate. (2) To compare predictions with previous published predictions. METHODS: We generated theoretical drug-resistant HSV-2 strains that were attenuated (in comparison with drug-sensitive strains) in both infectivity and ability to reactivate. We then used a transmission model to predict the emergence and transmission of drug-resistant HSV-2 in the immunocompetent population assuming a high usage of antivirals. RESULTS: Our predictions are an order of magnitude lower than previous predictions; we predict that even after 25 years of high antiviral usage only 5 out of 10,000 immunocompetent individuals will be shedding drug-resistant virus. Furthermore, after 25 years, 52 cases of HSV-2 would have been prevented for each prevalent case of drug-resistant HSV-2. CONCLUSIONS: The predicted levels of drug-resistant HSV-2 for the immunocompetent population are so low that it seems unlikely that cases of drug-resistant HSV-2 will be detected
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Serving GODAE Data and Products to the Ocean Community
The Global Ocean Data Assimilation Experiment (GODAE [http://
www.godae.org]) has spanned a decade of rapid technological development. The ever-increasing volume and diversity of oceanographic data produced by in situ instruments, remote-sensing platforms, and computer simulations have driven
the development of a number of innovative technologies that are essential for connecting scientists with the data that they need. This paper gives an overview of the technologies that have been developed and applied in the course of GODAE, which now provide users of oceanographic data with the capability to discover, evaluate, visualize, download, and analyze data from all over the world. The key to this
capability is the ability to reduce the inherent complexity of oceanographic data by providing a consistent, harmonized view of the various data products. The challenges of data serving have been addressed over the last 10 years through the cooperative skills and energies of many individuals
The Emergence of HIV Transmitted Resistance in Botswana: “When Will the WHO Detection Threshold Be Exceeded?”
BACKGROUND: The Botswana antiretroviral program began in 2002 and currently treats 42,000 patients, with a goal of treating 85,000 by 2009. The World Health Organization (WHO) has begun to implement a surveillance system for detecting transmitted resistance that exceeds a threshold of 5%. However, the WHO has not determined when this threshold will be reached. Here we model the Botswana government's treatment plan and predict, to 2009, the likely stochastic evolution of transmitted resistance. METHODS: We developed a model of the stochastic evolution of drug-resistant strains and formulated a birth-death Master equation. We analyzed this equation to obtain an analytical solution of the probabilistic evolutionary trajectory for transmitted resistance, and used treatment and demographic data from Botswana. We determined the temporal dynamics of transmitted resistance as a function of: (i) the transmissibility (i.e., fitness) of the drug-resistant strains that may evolve and (ii) the rate of acquired resistance. RESULTS: Transmitted resistance in Botswana will be unlikely to exceed the WHO's threshold by 2009 even if the rate of acquired resistance is high and the strains that evolve are half as fit as the wild-type strains. However, we also found that transmission of drug-resistant strains in Botswana could increase to ∼15% by 2009 if the drug-resistant strains that evolve are as fit as the wild-type strains. CONCLUSIONS: Transmitted resistance will only be detected by the WHO (by 2009) if the strains that evolve are extremely fit and acquired resistance is high. Initially after a treatment program is begun a threshold lower than 5% should be used; and we advise that predictions should be made before setting a threshold. Our results indicate that it may be several years before the WHO's surveillance system is likely to detect transmitted resistance in other resource-poor countries that have significantly less ambitious treatment programs than Botswana
HIV Drug-resistant Strains as Epidemiologic Sentinels
The decrease in the proportion of drug resistance among newly infected HIV-1 patients may signal a worsening of the epidemic
Xenopus tropicalis egg extracts provide insight into scaling of the mitotic spindle
The African clawed frog Xenopus laevis has been instrumental to investigations of both development and cell biology, but the utility of this model organism for genetic and proteomic studies is limited by its long generation time and unsequenced pseudotetraploid genome. Xenopus tropicalis, which is a small, faster-breeding relative of X. laevis, has recently been adopted for research in developmental genetics and functional genomics, and has been chosen for genome sequencing. We show that X. tropicalis egg extracts reconstitute the fundamental cell cycle events of nuclear formation and bipolar spindle assembly around exogenously added sperm nuclei. Interestingly, X. tropicalis spindles were ∼30% shorter than X. laevis spindles, and mixing experiments revealed a dynamic, dose-dependent regulation of spindle size by cytoplasmic factors. Measurements of microtubule dynamics revealed that microtubules polymerized slower in X. tropicalis extracts compared to X. laevis, but that this difference is unlikely to account for differences in spindle size. Thus, in addition to expanding the range of developmental and cell biological experiments, the use of X. tropicalis provides novel insight into the complex mechanisms that govern spindle morphogenesis
Interplay between HIV/AIDS Epidemics and Demographic Structures Based on Sexual Contact Networks
In this article, we propose a network spread model for HIV epidemics, wherein
each individual is represented by a node of the transmission network and the
edges are the connections between individuals along which the infection may
spread. The sexual activity of each individual, measured by its degree, is not
homogeneous but obeys a power-law distribution. Due to the heterogeneity of
activity, the infection can persistently exist at a very low prevalence, which
has been observed in real data but can not be illuminated by previous models
with homogeneous mixing hypothesis. Furthermore, the model displays a clear
picture of hierarchical spread: In the early stage the infection is adhered to
these high-risk persons, and then, diffuses toward low-risk population. The
prediction results show that the development of epidemics can be roughly
categorized into three patterns for different countries, and the pattern of a
given country is mainly determined by the average sex-activity and transmission
probability per sexual partner. In most cases, the effect of HIV epidemics on
demographic structure is very small. However, for some extremely countries,
like Botswana, the number of sex-active people can be depressed to nearly a
half by AIDS.Comment: 23 pages, 12 figure
Live attenuated HIV vaccines: Predicting the tradeoff between efficacy and safety
The utility of live attenuated vaccines for controlling HIV epidemics
is being debated. Live attenuated HIV vaccines (LAHVs) could be
extremely effective in protecting against infection with wild-type
strains, but may not be completely safe as the attenuated strain
could cause AIDS in some vaccinated individuals. We present a
theoretical framework for evaluating the consequences of the
tradeoff between vaccine efficacy (in terms of preventing new
infections with wild-type strains) and safety (in terms of vaccine-
induced AIDS deaths). We use our framework to predict, for
Zimbabwe and Thailand, the epidemiological impact of 1,000
different (specified by efficacy and safety characteristics) LAHVs.
We predict that paradoxically: (i) in Zimbabwe (where transmission
is high) LAHVs would significantly decrease the AIDS death rate,
but (ii) in Thailand (where transmission is low) exactly the same
vaccines (in terms of efficacy and safety characteristics) would
increase the AIDS death rate. Our results imply that a threshold
transmission rate exists that determines whether any given LAHV
has a beneficial or a detrimental impact. We also determine the
vaccine perversity point, which is defined in terms of the fraction
of vaccinated individuals who progress to AIDS as a result of the
vaccine strain. Vaccination with any LAHV that causes more than
5% of vaccinated individuals to progress to AIDS in 25 years would,
even 50 years later, lead to perversity (i.e., increase the annual AIDS
death rate) in Thailand; these same vaccines would lead to decreases in the annual AIDS death rate in Zimbabwe.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83498/1/PNAS-sb.pd
Creating a proof-of-concept climate service to assess future renewable energy mixes in Europe: an overview of the C3S ECEM project
The EU Copernicus Climate Change Service (C3S) European Climatic Energy Mixes (ECEM) has produced, in close collaboration with prospective users, a proof-of-concept climate service, or Demonstrator, designed to enable the energy industry and policy makers assess how well different energy supply mixes in Europe will meet demand, over different time horizons (from seasonal to long-term decadal planning), focusing on the role climate has on the mixes. The concept of C3S ECEM, its methodology and some results are presented here.
The first part focuses on the construction of reference data sets for climate variables based on the ERA-Interim reanalysis. Subsequently, energy variables were created by transforming the bias-adjusted climate variables using a combination of statistical and physically-based models. A comprehensive set of measured energy supply and demand data was also collected, in order to assess the robustness of the conversion to energy variables. Climate and energy data have been produced both for the historical period (1979–2016) and for future projections (from 1981 to 2100, to also include a past reference period, but focusing on the 30 year period 2035–2065). The skill of current seasonal forecast systems for climate and energy variables has also been assessed.
The C3S ECEM project was designed to provide ample opportunities for stakeholders to convey their needs and expectations, and assist in the development of a suitable Demonstrator. This is the tool that collects the output produced by C3S ECEM and presents it in a user-friendly and interactive format, and it therefore constitutes the essence of the C3S ECEM proof-of-concept climate service
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