Barriers and enablers to participation in the National Cervical Screening Program experienced by young women and people with a cervix aged between 25 and 35.

ISSUE ADDRESSED: Cervical screening rates for young women aged between 25 and 35 are lower than older Australian women, however, little research has been conducted to understand why. This study aimed to identify and explore the barriers and enablers faced by young Victorians with a cervix to regular cervical screening. METHODS: This study used a mixed method exploratory design consisting of qualitative focus groups and a quantitative online survey. Four focus groups were conducted with 24 Victorians with a cervix aged between 25 and 35. Barriers, enablers and knowledge of cervical screening were explored. Focus groups were recorded and transcribed for thematic analysis of common themes. A supporting online survey was completed by 98 respondents. Summary statistics were analysed for differences in age. RESULTS: Focus groups and the online survey revealed four main factors that influence young people's cervical screening behaviour. These include past negative screening experiences, practitioner factors, priority placed on cervical screening, and cervical screening knowledge. These factors differ to the opinions of people older than 35, with young people focusing more on the psychological elements of cervical screening compared with practical factors. CONCLUSIONS: This research provides a unique insight into cervical screening barriers faced by women and people with a cervix aged between 25 and 35 as well as what factors motivate them to screen. SO WHAT?: These findings should be utilised to inform the design of public health campaign messaging targeting this age demographic. Findings can also assist practitioners to improve how they communicate with young people in a clinical setting.

Surface complexes of monomethyl phosphate stabilized by hydrogen bonding on goethite (α-FeOOH) nanoparticles.

Typically, a significant fraction of phosphorus in soils is composed of organic phosphates, and this fraction thus plays an important role in the global phosphorus cycle. Here we have studied adsorption of monomethyl phosphate (MMP) to goethite (α-FeOOH) as a model system in order to better understand the mechanisms behind adsorption of organic phosphates to soil minerals, and how adsorption affects the stability of these molecules. The adsorption reactions and stability of MMP on goethite were studied at room temperature as a function of pH, time and total concentration of MMP by means of quantitative batch experiments, potentiometry and infrared spectroscopy. MMP was found to be stable at the water-goethite interface within the pH region 3-9 and over extended periods of time, as well as in solution. The infrared spectra indicated that MMP formed three predominating pH-dependent surface complexes on goethite, and that these interacted monodentately with surface Fe. The complexes differed in hydrogen bonding interactions via the auxiliary oxygens of the phosphate group. The presented surface complexation model was based on the collective spectroscopic and macroscopic results, using the Basic Stern approach to describe the interfacial region. The model consisted of three monodentate inner sphere surface complexes where the MMP complexes were stabilized by hydrogen bonding to a neighboring surface site. The three complexes, which had equal proton content and thus could be defined as surface isomers, were distinguished by the distribution of charge over the 0-plane and ß-plane. In the high pH-range, MMP acted as a hydrogen bond acceptor whereas it was a hydrogen bond donor at low pH.

Variability in synovial inflammation in rheumatoid arthritis investigated by microarray technology.

In recent years microarray technology has been used increasingly to acquire knowledge about the pathogenic processes involved in rheumatoid arthritis. The present study investigated variations in gene expression in synovial tissues within and between patients with rheumatoid arthritis. This was done by applying microarray technology on multiple synovial biopsies obtained from the same knee joints. In this way the relative levels of intra-patient and inter-patient variation could be assessed. The biopsies were obtained from 13 different patients: 7 by orthopedic surgery and 6 by rheumatic arthroscopy. The data show that levels of heterogeneity varied substantially between the biopsies, because the number of genes found to be differentially expressed between pairs of biopsies from the same knee ranged from 6 to 2,133. Both arthroscopic and orthopedic biopsies were examined, allowing us to compare the two sampling methods. We found that the average number of differentially expressed genes between biopsies from the same patient was about three times larger in orthopedic than in arthroscopic biopsies. Using a parallel analysis of the tissues by immunohistochemistry, we also identified orthopedic biopsies that were unsuitable for gene expression analysis of synovial inflammation due to sampling of non-inflamed parts of the tissue. Removing these biopsies reduced the average number of differentially expressed genes between the orthopedic biopsies from 455 to 171, in comparison with 143 for the arthroscopic biopsies. Hierarchical clustering analysis showed that the remaining orthopedic and arthroscopic biopsies had gene expression signatures that were unique for each patient, apparently reflecting patient variation rather than tissue heterogeneity. Subsets of genes found to vary between biopsies were investigated for overrepresentation of biological processes by using gene ontology. This revealed representative 'themes' likely to vary between synovial biopsies affected by inflammatory disease.

Vascular gene expression in atherosclerotic plaque-prone regions analyzed by representational difference analysis.

OBJECTIVES: Atherosclerotic plaques are known to develop and progress where the endothelium is subjected to turbulent blood flow. We have applied cDNA representational difference analysis (RDA) to study vascular gene expression in mouse aorta in a model for atherosclerosis. METHODS: Gene expression profiles were investigated in plaque-prone and plaque-resistant localizations in the ascending aorta and arch in 8-week-old ApoE-/- and LDLR-/- mice. Total RNA was extracted and two rounds of subtraction were performed; the difference products were characterized in detail by shotgun cloning and analysis of more than 2,700 gene sequences. RESULTS: The identified differentially expressed gene sequences include both genes with known involvement in vascular gene expression and genes previously not implicated in vascular processes. For example, CD36 and caveolin, previously reported for their participation in the progression of atherosclerosis, were found to have an increased expression in vessel localizations thought to be especially susceptible to plaque formation. CONCLUSIONS: This report provides new in vivo information of expressed genes that can be useful for further investigations of the molecular mechanisms in focal localization of atherosclerosis.

Shotgun sequencing and microarray analysis of RDA transcripts.

Monitoring of differential gene expression is an important step towards understanding of gene function. We describe a comparison of the representational difference analysis (RDA) subtraction process with corresponding microarray analysis. The subtraction steps are followed in a quantitative manner using a shotgun cloning and sequencing procedure that includes over 1900 gene sequences. In parallel, the enriched transcripts are spotted onto microarrays facilitating large scale hybridization analysis of the representations and the difference products. We show by the shotgun procedure that there is a high diversity of gene fragments represented in the iterative RDA products (92-67% singletons) with a low number of shared sequences (<9%) between subsequent subtraction cycles. A non redundant set of 1141 RDA clones were immobilized on glass slides and the majority of these clones (97%) gave repeated good fluorescent signals in a subsequent hybridization of the labelled and amplified original cDNA. We observed only a low number of false positives (<2%) and a more than twofold differential expression for 32% (363) of the immobilized RDA clones. In conclusion, we show that by random sequencing of the difference products we obtained an accurate transcript profile of the individual steps and that large-scale confirmation of the obtained transcripts can be achieved by microarray analysis.

Recombinant adenovirus vector activates and protects human monocyte-derived dendritic cells from apoptosis.

The aim of this study was to examine the effect of two of the most commonly used viral vectors, that is, retrovirus and adenovirus, on the antigen presentation of dendritic cells (DCs). DCs were generated from CD34(+) hematopoietic precursors and CD14(+) monocytes of the same prostate cancer patients. Adenoviral transduction of monocyte-derived DCs (MO-DCs) resulted in upregulation of CD80, CD86, and CD83 expression. Adenovirus-transduced MO-DCs were also more potent stimulators of allogeneic lymphocytes, produced increased amounts of the cytokines tumor necrosis factor alpha and interleukin 12 p70, and exhibited increased expression of NF-kappaB and antiapoptotic molecules Bcl-X(L) and Bcl-2. Enhanced expression of the antiapoptotic molecules correlated with increased resistance of adenovirus-transduced MO-DCs to spontaneous as well as Fas-mediated cell death. In contrast to the adenoviral construct, no significant transduction of MO-DCs with the retrovirus could be obtained. Transduction of CD34(+) cell-derived DCs with the retrovirus or the adenovirus did not significantly alter expression of the costimulatory molecules or cytokines studied. At lower stimulation ratios, CD34(+) cell-derived DCs transduced with retrovirus were less potent in their ability to stimulate allogeneic lymphocytes in comparison with nontransduced DCs. Our results indicate that adenoviral vectors may be more suitable for gene delivery to DCs for immunotherapy.