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The Infectious Disease Implementation Research Team is a multi-disciplinary group researching the best way to implement infectious disease prevention and treatment strategies to improve the wellbeing of children and teenagers.
The Strep A Translation team aim to understand the epidemiology of Strep A infections in Australia and the world. Alongside this, they explore the implementation of endgame recommendations, health economics and new horizons.
The mission of the Vaccine Trials Group is to improve the health of the community through immunisation and the prevention of infectious diseases.
The Indigenous Genomics Group aims to build Indigenous leadership in genomic and data sciences, precision health, and ethics to improve health equity and the wellbeing of Indigenous people, families and communities.
The research of the Translational Genetics team is focussed on providing molecular analysis of genetic variants (gene mutations), to better inform the early and accurate diagnosis of children living with genetic and rare diseases.
The aim of the Translational Intelligence team is to understand how individual bases in our genome predispose, alter and interact in normal and disease contexts.
By investigating the way that breastmilk guides children’s immune trajectory, we provide evidence-based recommendations for the development of happy healthy kids
In 1996, the ISPCAN Working Group on Child Maltreatment Data (ISPCAN-WGCMD) was established to provide an international forum in which individuals, who deal with child maltreatment data in their respective professional roles, can share concerns and solutions.
Cranial radiation therapy is essential in treating many pediatric cancers, especially brain tumors; however, its use comes with the risk of developing second malignancies. Cranial radiation-induced gliomas (RIGs) are aggressive high-grade tumors with a dismal prognosis, for which no standard therapy exists. A definitive molecular signature for RIGs has not yet been established. We sought to address this gap by performing a systematic review and meta-analysis of the molecular features of cranial RIGs.