Search
Showing results for "mental health aboriginal"
Type 1 interferons (T1IFNs) are typically expressed in low concentrations under homeostatic conditions, but upon pathogenic insult or perturbation of the pathway, these critical immune signaling molecules can become either protectors from or drivers of pathology. While essential for initiating antiviral defense and modulating inflammation, dysregulation of T1IFN signaling can contribute to immunopathology, making it and its associated pathways prime targets for immune evasion and disruption by pathogens.
Vanessa Timo Fear Lassmann BSc (Hons), PhD BSc (Hons) MSc PhD Head, Translational Genetics Team Feilman Fellow; Head, Precision Health Research and
Christopher Blyth MBBS (Hons) DCH FRACP FRCPA PhD Centre Head, Wesfarmers Centre of Vaccines and Infectious Diseases; Co-Head, Infectious Diseases
Help us discover a way to expand protection for the next generation.
Research reveals that friendly bacteria may help reduce flu symptoms, offering new insights into potential treatments and enhancing our understanding of immune health.
Two outstanding researchers from the Wal-yan Respiratory Research Centre have been awarded a 2022 Innovation Fellowship supported by the WA Government's Future Health Research and Innovation (FHRI) Fund.
This study is aiming to investigate how sun exposure and time outside impacts the health of your child’s eye and eye growth, over a period of rapid growth in their lives.
Patient-reported outcome measures (PROMs) are recommended for capturing meaningful outcomes in clinical trials. The use of PROMs for children with acute lower respiratory infections (ALRIs) has not been systematically reported. We aimed to identify and characterise patient-reported outcomes and PROMs used in paediatric ALRI studies and summarise their measurement properties.
The need for coronavirus 2019 (COVID-19) vaccination in different age groups and populations is a subject of great uncertainty and an ongoing global debate. Critical knowledge gaps regarding COVID-19 vaccination include the duration of protection offered by different priming and booster vaccination regimens in different populations, including homologous or heterologous schedules.
The method outlined in this article is a customization of the whole exhaust exposure method generated by Mullins et al. (2016) using reprogrammed primary human airway epithelial cells as described by Martinovich et al. (2017). It has been used successfully to generate recently published data (Landwehr et al. 2021). The goal was to generate an exhaust exposure model where exhaust is collected from a modern engine, real-world exhaust concentrations are used and relevant tissues exposed to assess the effects of multiple biodiesel exposures.