1,158 research outputs found
'The difference in determinants of Chlamydia trachomatis and Mycoplasma genitalium in a sample of young Australian women.'
BACKGROUND Differences in the determinants of Chlamydia trachomatis ('chlamydia') and Mycoplasma genitalium (MG) genital infection in women are not well understood. METHODS A cohort study of 16 to 25 year old Australian women recruited from primary health care clinics, aimed to determine chlamydia and MG prevalence and incidence. Vaginal swabs collected at recruitment were used to measure chlamydia and MG prevalence, organism-load and chlamydia-serovar a cross-sectional analysis undertaken on the baseline results is presented here. RESULTS Of 1116 participants, chlamydia prevalence was 4.9% (95% CI: 2.9, 7.0) (n = 55) and MG prevalence was 2.4% (95% CI: 1.5, 3.3) (n = 27). Differences in the determinants were found - chlamydia not MG, was associated with younger age [AOR:0.9 (95% CI: 0.8, 1.0)] and recent antibiotic use [AOR:0.4 (95% CI: 0.2, 1.0)], and MG not chlamydia was associated with symptoms [AOR:2.1 (95% CI: 1.1, 4.0)]. Having two or more partners in last 12 months was more strongly associated with chlamydia [AOR:6.4 (95% CI: 3.6, 11.3)] than MG [AOR:2.2 (95% CI: 1.0, 4.6)] but unprotected sex with three or more partners was less strongly associated with chlamydia [AOR:3.1 (95%CI: 1.0, 9.5)] than MG [AOR:16.6 (95%CI: 2.0, 138.0)]. Median organism load for MG was 100 times lower (5.7 × 104/swab) than chlamydia (5.6 × 10⁶/swab) (p < 0.01) and not associated with age or symptoms for chlamydia or MG. CONCLUSIONS These results demonstrate significant chlamydia and MG prevalence in Australian women, and suggest that the differences in strengths of association between numbers of sexual partners and unprotected sex and chlamydia and MG might be due to differences in the transmission dynamics between these infections.This project was funded by the Commonwealth of Australia, as part of a National Chlamydia Pilot program that is currently running to test the effectiveness of a number of models for chlamydia testing in Australia. This project will assist in developing possible recommendations for a National Chlamydia Program. The analysis of MG was funded by the National Health and Research Council (research grant number 509144)
The contribution of TRPC1, TRPC3, TRPC5 and TRPC6 to touch and hearing
Transient receptor potential channels have diverse roles in mechanosensation. Evidence is accumulating that members of the canonical subfamily of TRP channels (TRPC) are involved in touch and hearing. Characteristic features of TRP channels include their high structural homology and their propensity to form heteromeric complexes which suggests potential functional redundancy. We previously showed that TRPC3 and TRPC6 double knockout animals have deficits in light touch and hearing whilst single knockouts were apparently normal. We have extended these studies to analyse deficits in global quadruple TRPC1, 3, 5 and 6 null mutant mice. We examined both touch and hearing in behavioural and electrophysiological assays, and provide evidence that the quadruple knockout mice have larger deficits than the TRPC3 TRPC6 double knockouts. Mechano-electrical transducer currents of cochlear outer hair cells were however normal. This suggests that TRPC1, TRPC3, TRPC5 and TRPC6 channels contribute to cutaneous and auditory mechanosensation in a combinatorial manner, but have no direct role in cochlear mechanotransduction
Identifying epileptogenic abnormality by decomposing intracranial EEG and MEG power spectra
Identifying abnormal electroencephalographic activity is crucial in diagnosis
and treatment of epilepsy. Recent studies showed that decomposing brain
activity into periodic (oscillatory) and aperiodic (trend across all
frequencies) components may illuminate drivers of changes in spectral activity.
Using iEEG data from 234 subjects, we constructed a normative map and
compared this with a separate cohort of 63 patients with refractory focal
epilepsy being considered for neurosurgery. The normative map was computed
using three approaches: (i) relative complete band power, (ii) relative band
power with the aperiodic component removed (iii) the aperiodic exponent.
Corresponding abnormalities were also calculated for each approach in the
separate patient cohort. We investigated the spatial profiles of the three
approaches, assessed their localizing ability, and replicated our findings in a
separate modality using MEG.
The normative maps of relative complete band power and relative periodic band
power had similar spatial profiles. In the aperiodic normative map, exponent
values were highest in the temporal lobe. Abnormality estimated through the
complete band power robustly distinguished between good and bad outcome
patients. Neither periodic band power nor aperiodic exponent abnormalities
distinguished seizure outcome groups. Combining periodic and aperiodic
abnormalities improved performance, similar to the complete band power
approach.
Our findings suggest that sparing cerebral tissue that generates
abnormalities in either periodic or aperiodic activity may lead to a poor
surgical outcome. Both periodic and aperiodic abnormalities are necessary to
distinguish patient outcomes, with neither sufficient in isolation. Future
studies could investigate whether periodic or aperiodic abnormalities are
affected by the cerebral location or pathology
Effects of anterior temporal lobe resection on cortical morphology
Anterior temporal lobe resection (ATLR) is a surgical procedure to treat
drug-resistant temporal lobe epilepsy (TLE). Resection may involve large
amounts of cortical tissue. Here, we examine the effects of this surgery on
cortical morphology measured in independent variables both near the resection
and remotely.
We studied 101 individuals with TLE (55 left, 46 right onset) who underwent
ATLR. For each individual we considered one pre-surgical MRI and one follow-up
MRI 2 to 13 months after surgery. We used our newly developed surface-based
method to locally compute traditional morphological variables (average cortical
thickness, exposed surface area, and total surface area), and the independent
measures , , and , where measures white matter tension,
captures isometric scaling, and contains the remaining information about
cortical shape. Data from 924 healthy controls was included to account for
healthy ageing effects occurring during scans. A SurfStat random field theory
clustering approach assessed changes across the cortex caused by ATLR.
Compared to preoperative data, surgery had marked effects on all
morphological measures. Ipsilateral effects were located in the orbitofrontal
and inferior frontal gyri, the pre- and postcentral gyri and supramarginal
gyrus, and the lateral occipital gyrus and lingual cortex. Contralateral
effects were in the lateral occipital gyrus, and inferior frontal gyrus and
frontal pole.
The restructuring following ATLR is reflected in widespread morphological
changes, mainly in regions near the resection, but also remotely in regions
that are structurally connected to the anterior temporal lobe. The causes could
include mechanical effects, Wallerian degeneration, or compensatory plasticity.
The study of independent measures revealed additional effects compared to
traditional measures
Normative brain mapping using scalp EEG and potential clinical application
A normative electrographic activity map could be a powerful resource to understand normal brain function and identify abnormal activity. Here, we present a normative brain map using scalp EEG in terms of relative band power. In this exploratory study we investigate its temporal stability, its similarity to other imaging modalities, and explore a potential clinical application. We constructed scalp EEG normative maps of brain dynamics from 17 healthy controls using source-localised resting-state scalp recordings. We then correlated these maps with those acquired from MEG and intracranial EEG to investigate their similarity. Lastly, we use the normative maps to lateralise abnormal regions in epilepsy. Spatial patterns of band powers were broadly consistent with previous literature and stable across recordings. Scalp EEG normative maps were most similar to other modalities in the alpha band, and relatively similar across most bands. Towards a clinical application in epilepsy, we found abnormal temporal regions ipsilateral to the epileptogenic hemisphere. Scalp EEG relative band power normative maps are spatially stable across time, in keeping with MEG and intracranial EEG results. Normative mapping is feasible and may be potentially clinically useful in epilepsy. Future studies with larger sample sizes and high-density EEG are now required for validation
Volumetric and structural connectivity abnormalities co-localise in TLE
Patients with temporal lobe epilepsy (TLE) exhibit both volumetric and structural connectivity abnormalities relative to healthy controls. How these abnormalities inter-relate and their mechanisms are unclear. We computed grey matter volumetric changes and white matter structural connectivity abnormalities in 144 patients with unilateral TLE and 96 healthy controls. Regional volumes were calculated using T1-weighted MRI, while structural connectivity was derived using white matter fibre tractography from diffusion-weighted MRI. For each regional volume and each connection strength, we calculated the effect size between patient and control groups in a group-level analysis. We then applied hierarchical regression to investigate the relationship between volumetric and structural connectivity abnormalities in individuals. Additionally, we quantified whether abnormalities co-localised within individual patients by computing Dice similarity scores. In TLE, white matter connectivity abnormalities were greater when joining two grey matter regions with abnormal volumes. Similarly, grey matter volumetric abnormalities were greater when joined by abnormal white matter connections. The extent of volumetric and connectivity abnormalities related to epilepsy duration, but co-localisation did not. Co-localisation was primarily driven by neighbouring abnormalities in the ipsilateral hemisphere. Overall, volumetric and structural connectivity abnormalities were related in TLE. Our results suggest that shared mechanisms may underlie changes in both volume and connectivity alterations in patients with TLE
Sexual exploitation in children: Nature, prevalence and distinguishing characteristics reported in young adulthood
The aim of this study was to explore the nature and extent of sexual exploitation in a university student sample, whilst being clear that sexual exploitation is sexual abuse. Overall, 47% of participants (96 out of 204) reported having been approached by an adult in a sexual manner when they were under the age of 16. The study predicted that a number of individual characteristics would increase a young person’s vulnerability for sexual exploitation. These included low self-esteem, external locus of control, social loneliness and insecure attachment. Results indicated lower levels of self-esteem among those who had been approached sexually, although it is not clear in terms of causality. There were no differences in scores for locus of control or loneliness. Relationship anxiety was significantly linked with children having engaged in sexual behaviours with an adult. The implications of these findings are discussed in terms of emerging individual characteristics relating to a risk of sexual exploitation
Identifying epileptogenic abnormalities through spatial clustering of MEG interictal band power
Successful epilepsy surgery depends on localising and resecting cerebral
abnormalities and networks that generate seizures. Abnormalities, however, may
be widely distributed across multiple discontiguous areas. We propose spatially
constrained clusters as candidate areas for further investigation, and
potential resection. We quantified the spatial overlap between the abnormality
cluster and subsequent resection, hypothesising a greater overlap in
seizure-free patients.
Thirty-four individuals with refractory focal epilepsy underwent pre-surgical
resting-state interictal MEG recording. Fourteen individuals were totally
seizure free (ILAE 1) after surgery and 20 continued to have some seizures
post-operatively (ILAE 2+). Band power abnormality maps were derived using
controls as a baseline. Patient abnormalities were spatially clustered using
the k-means algorithm. The tissue within the cluster containing the most
abnormal region was compared with the resection volume using the dice score.
The proposed abnormality cluster overlapped with the resection in 71% of ILAE
1 patients. Conversely, an overlap only occurred in 15% of ILAE 2+ patients.
This effect discriminated outcome groups well (AUC=0.82).
Our novel approach identifies clusters of spatially similar tissue with high
abnormality. This is clinically valuable, providing (i) a data-driven framework
to validate current hypotheses of the epileptogenic zone localisation or (ii)
to guide further investigation.Comment: 16 pages, 3 figure
MEG abnormalities and mechanisms of surgical failure in neocortical epilepsy
Objective:
Epilepsy surgery fails to achieve seizure freedom in 30%–40% of cases. It is not fully understood why some surgeries are unsuccessful. By comparing interictal magnetoencephalography (MEG) band power from patient data to normative maps, which describe healthy spatial and population variability, we identify patient-specific abnormalities relating to surgical failure. We propose three mechanisms contributing to poor surgical outcome: (1) not resecting the epileptogenic abnormalities (mislocalization), (2) failing to remove all epileptogenic abnormalities (partial resection), and (3) insufficiently impacting the overall cortical abnormality. Herein we develop markers of these mechanisms, validating them against patient outcomes.
Methods:
Resting-state MEG recordings were acquired for 70 healthy controls and 32 patients with refractory neocortical epilepsy. Relative band-power spatial maps were computed using source-localized recordings. Patient and region-specific band-power abnormalities were estimated as the maximum absolute z-score across five frequency bands using healthy data as a baseline. Resected regions were identified using postoperative magnetic resonance imaging (MRI). We hypothesized that our mechanistically interpretable markers would discriminate patients with and without postoperative seizure freedom.
Results:
Our markers discriminated surgical outcome groups (abnormalities not targeted: area under the curve [AUC] = 0.80, p = .003; partial resection of epileptogenic zone: AUC = 0.68, p = .053; and insufficient cortical abnormality impact: AUC = 0.64, p = .096). Furthermore, 95% of those patients who were not seizure-free had markers of surgical failure for at least one of the three proposed mechanisms. In contrast, of those patients without markers for any mechanism, 80% were ultimately seizure-free.
Significance:
The mapping of abnormalities across the brain is important for a wide range of neurological conditions. Here we have demonstrated that interictal MEG band-power mapping has merit for the localization of pathology and improving our mechanistic understanding of epilepsy. Our markers for mechanisms of surgical failure could be used in the future to construct predictive models of surgical outcome, aiding clinical teams during patient pre-surgical evaluations
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