233 research outputs found
Enabling retention: processes and strategies for improving student retention in university-based enabling programs: final report 2013
This project was funded by the Australian Teaching and Learning Council Ltd and, latterly, the Australian Government Office for Learning and Teaching, to investigate the nature and causes of student attrition in enabling programs and, in particular, to determine any similarities and differences in these processes in undergraduate programs, and to recommend measures to enhance student retention. The project was undertaken by academics from five Australian universities prominent in the delivery of enabling programs: The University of Newcastle (lead institution), the University of Southern Queensland, the University of South Australia, the University of New England and Edith Cowan University. These programs represent a cross-section of Australian university-based enabling programs
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Tropical cyclone projections: changing climate threats for Pacific island defense installations
Potential changing climate threats in the tropical and subtropical North Pacific Ocean were assessed, using coupled ocean-atmosphere and atmosphere-only general circulation models, to explore their response to projected increasing greenhouse gas emissions. Tropical cyclone occurrence, described by frequency and intensity, near islands housing major U.S. defense installations was the primary focus. Four island regions-Guam and Kwajalein Atoll in the tropical northwestern Pacific, Okinawa in the subtropical northwestern Pacific, and Oahu in the tropical north-central Pacific-were considered, as they provide unique climate and geographical characteristics that either enhance or reduce the tropical cyclone risk. Guam experiences the most frequent and severe tropical cyclones, which often originate as weak systems close to the equator near Kwajalein and sometimes track far enough north to affect Okinawa, whereas intense storms are the least frequent around Oahu. From assessments of models that simulate well the tropical Pacific climate, it was determined that, with a projected warming climate, the number of tropical cyclones is likely to decrease for Guam and Kwajalein but remain about the same near Okinawa and Oahu; however, the maximum intensity of the strongest storms may increase in most regions. The likelihood of fewer but stronger storms will necessitate new localized assessments of the risk and vulnerabilities to tropical cyclones in the North Pacific
Reference values for and cross-validation of time to exhaustion on a modified Balke protocol in Norwegian men and women
acceptedVersio
Targeted high throughput sequencing in clinical cancer Settings: formaldehyde fixed-paraffin embedded (FFPE) tumor tissues, input amount and tumor heterogeneity
<p>Abstract</p> <p>Background</p> <p>Massively parallel sequencing technologies have brought an enormous increase in sequencing throughput. However, these technologies need to be further improved with regard to reproducibility and applicability to clinical samples and settings.</p> <p>Methods</p> <p>Using identification of genetic variations in prostate cancer as an example we address three crucial challenges in the field of targeted re-sequencing: Small nucleotide variation (SNV) detection in samples of formalin-fixed paraffin embedded (FFPE) tissue material, minimal amount of input sample and sampling in view of tissue heterogeneity.</p> <p>Results</p> <p>We show that FFPE tissue material can supplement for fresh frozen tissues for the detection of SNVs and that solution-based enrichment experiments can be accomplished with small amounts of DNA with only minimal effects on enrichment uniformity and data variance.</p> <p>Finally, we address the question whether the heterogeneity of a tumor is reflected by different genetic alterations, e.g. different foci of a tumor display different genomic patterns. We show that the tumor heterogeneity plays an important role for the detection of copy number variations.</p> <p>Conclusions</p> <p>The application of high throughput sequencing technologies in cancer genomics opens up a new dimension for the identification of disease mechanisms. In particular the ability to use small amounts of FFPE samples available from surgical tumor resections and histopathological examinations facilitates the collection of precious tissue materials. However, care needs to be taken in regard to the locations of the biopsies, which can have an influence on the prediction of copy number variations. Bearing these technological challenges in mind will significantly improve many large-scale sequencing studies and will - in the long term - result in a more reliable prediction of individual cancer therapies.</p
Transcriptional correlates of the pathological phenotype in a Huntington’s disease mouse model
Huntington disease (HD) is a fatal neurodegenerative disorder without a cure that is caused by an
aberrant expansion of CAG repeats in exon 1 of the huntingtin (HTT) gene. Although a negative
correlation between the number of CAG repeats and the age of disease onset is established, additional
factors may contribute to the high heterogeneity of the complex manifestation of symptoms
among patients. This variability is also observed in mouse models, even under controlled genetic
and environmental conditions. To better understand this phenomenon, we analysed the R6/1 strain
in search of potential correlates between pathological motor/cognitive phenotypical traits and
transcriptional alterations. HD-related genes (e.g., Penk, Plk5, Itpka), despite being downregulated
across the examined brain areas (the prefrontal cortex, striatum, hippocampus and cerebellum),
exhibited tissue-specific correlations with particular phenotypical traits that were attributable to
the contribution of the brain region to that trait (e.g., striatum and rotarod performance, cerebellum
and feet clasping). Focusing on the striatum, we determined that the transcriptional dysregulation
associated with HD was partially exacerbated in mice that showed poor overall phenotypical scores,
especially in genes with relevant roles in striatal functioning (e.g., Pde10a, Drd1, Drd2, Ppp1r1b).
However, we also observed transcripts associated with relatively better outcomes, such as Nfya
(CCAAT-binding transcription factor NF-Y subunit A) plus others related to neuronal development,
apoptosis and differentiation. In this study, we demonstrated that altered brain transcription can be
related to the manifestation of HD-like symptoms in mouse models and that this can be extrapolated to
the highly heterogeneous population of HD patients
Bacterial Stressors in Minimally Processed Food
Stress responses are of particular importance to microorganisms, because their habitats are subjected to continual changes in temperature, osmotic pressure, and nutrients availability. Stressors (and stress factors), may be of chemical, physical, or biological nature. While stress to microorganisms is frequently caused by the surrounding environment, the growth of microbial cells on its own may also result in induction of some kinds of stress such as starvation and acidity. During production of fresh-cut produce, cumulative mild processing steps are employed, to control the growth of microorganisms. Pathogens on plant surfaces are already stressed and stress may be increased during the multiple mild processing steps, potentially leading to very hardy bacteria geared towards enhanced survival. Cross-protection can occur because the overlapping stress responses enable bacteria exposed to one stress to become resistant to another stress. A number of stresses have been shown to induce cross protection, including heat, cold, acid and osmotic stress. Among other factors, adaptation to heat stress appears to provide bacterial cells with more pronounced cross protection against several other stresses. Understanding how pathogens sense and respond to mild stresses is essential in order to design safe and effective minimal processing regimes
Medical Students' Exposure to and Attitudes about the Pharmaceutical Industry: A Systematic Review
A systematic review of published studies reveals that undergraduate medical
students may experience substantial exposure to pharmaceutical marketing, and
that this contact may be associated with positive attitudes about marketing
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