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Research
A New Model to Investigate the Action of Radiation and Cigarette Smoke on Head and Neck Cancer CellsSmokers are at an increased risk of developing mucosal head and neck squamous cell cancers (HNSCCs) and have a worse prognosis when treated. The cellular and molecular mechanisms underlying the latter has not been established. We therefore developed an in vitro model to investigate the effects of radiation and smoking on mucosal HNSCCs.
Research
The relationship between non-communicable disease risk and mental wellbeing in adolescence: a cross-sectional study utilising objective measures in IndonesiaRisk factors for non-communicable diseases (NCDs, cardiovascular diseases, cancers, chronic respiratory diseases, diabetes, and mental disorders) arise in adolescence but are mostly framed as relevant to health in adulthood; little is known about the relationship between co-occurring NCD risks and mental wellbeing in young people.
Research
Role of COL5A1 in lung squamous cell Carcinoma: Prognostic Implications and therapeutic potentialLung squamous cell carcinoma (LUSC) is a significant health concern, characterized by a lack of specific therapies and limited treatment options for patients in advanced stages. This study aims to identify key molecules of prognostic importance in LUSC and provide an experimental foundation for their potential therapeutic applications.
News & Events
A decade of data confirms observation is safe for most newborns with neuroblastomaA landmark study led by Dr Hetal Dholaria, The Kids Research Institute Australia researcher and Perth Children’s Hospital Oncologist, has confirmed that a “wait and watch” approach for newborns diagnosed with neuroblastoma is not only safe, but effective over the long term.
News & Events
Crucial advancement in the treatment of childhood sarcomaCure Cancer and The Kids Research Institute Australia researcher Dr Ben Wylie announced new potential treatment in time for Childhood Sarcoma Awareness month.
Research
Fc-Engineered B7-H3 Antibody with Prolonged Serum Half-Life for Enhanced Cancer TherapyMonoclonal antibodies are revolutionizing the landscape of current cancer treatment, bringing hope to patients with incurable cancers. B7-H3 (CD276) is an attractive therapeutic target for antibody-based therapy due to its low or absent expression in normal tissues and high expression in various types of tumors, including prostate cancer, pancreatic cancer, and high-mortality esophageal squamous cell carcinoma (ESCC). In recent years, various B7-H3-targeting antibodies have been developed for cancer treatment, with a few making their way to clinical trials.
Research
Minimising Adverse Drug Reactions and Verifying Economic Legitimacy-Pharmacogenomics Implementation in Children (MARVEL- PIC): protocol for a national randomised controlled trialDNA-informed prescribing (termed pharmacogenomics, PGx) is the epitome of personalised medicine. Despite international guidelines existing, its implementation in paediatric oncology remains sparse.
Research
The MexTAg collaborative cross: host genetics affects asbestos related disease latency, but has little influence once tumours developThis study combines two innovative mouse models in a major gene discovery project to assess the influence of host genetics on asbestos related disease (ARD). Conventional genetics studies provided evidence that some susceptibility to mesothelioma is genetic. However, the identification of host modifier genes, the roles they may play, and whether they contribute to disease susceptibility remain unknown.
Research
Pharmacogenomics in pediatric oncology: Australian adolescent or young adult and caregiver perspectivesPreemptive pharmacogenomic (PGx) testing in pediatric oncology patients could reduce toxicity and improve efficacy of medications yet remains underutilized. Consumer identified implementation barriers have not been extensively explored nor included adolescent or young adult (AYA) patient perspectives. This study describes Australian pediatric oncology consumer perspectives on PGx testing, elucidating barriers to implementation.
Research
Disruption of ovarian function and induction of apoptosis in female mice by Brefeldin A: Mechanistic insights into reproductive toxicityThe investigation of ovarian development, dysfunction, and aging is essential for female reproductive health. Despite extensive research on the cellular functions of Brefeldin A (BFA) as an intracellular transport inhibitor, its specific effects and mechanisms on ovarian development/aging remain inadequately understood.