Title: ‘Indigenous Counselling And Nicotine (ICAN) QUIT In Pregnancy’ - A Cluster Randomised Trial To Implement Culturally Competent Evidence-based Smoking Cessation For Pregnant Aboriginal And Torres Strait Islander Smokers
Funder
National Health and Medical Research Council
Funding Amount
$2,259,016.00
Summary
‘ICAN QUIT in Pregnancy’ tackles smoking through training health providers caring for expectant mothers of Indigenous babies in real-world primary care settings. The intervention was co-developed with Aboriginal communities. We will assess how many Indigenous women, cared for by the trained services, quit smoking, compared to the women that receive usual care. We anticipate that babies born to mothers in the intervention group will have less respiratory illness in their first six months.
Translating Evidence Based Smoking Cessation Care For Pregnant Indigenous Smokers
Funder
National Health and Medical Research Council
Funding Amount
$181,065.00
Summary
Smoking is a major cause of poor health in mothers and babies, yet smoking rates remain high in Indigenous pregnant women. This fellowship supports a trial of a culturally competent targeted intervention for Indigenous pregnant women who smoke. The intervention provides webinar training of health providers in participating Aboriginal Medical Services. A control group will use their standard care practices. Smoking rates of the women cared for by health providers in each group will be compared.
Melanotransferrin: A “Missing Link” And A Novel Pharmacological Target For Treatment
Funder
National Health and Medical Research Council
Funding Amount
$613,848.00
Summary
Despite >30 years of research, the precise function of the protein, melanotransferrin (MTf), is unknown. However, we have breakthrough evidence that MTf stimulates WNT signalling as a major driver in cancer progression. We will investigate this hypothesis, which will underpin new cancer therapies. Indeed, we designed a new class of drugs that target the WNT pathway via up-regulating the WNT inhibitor, NDRG1. This drug (DpC) inhibits MTf expression to block tumour cell growth and metastasis.
Transient Tissue ‘priming’ Via FAK Inhibition To Impair Pancreatic Cancer Progression And Improve Sensitivity To Gemcitabine/Abraxane
Funder
National Health and Medical Research Council
Funding Amount
$643,848.00
Summary
The success of cancer drugs is dependent on many factors including the properties of the tumour tissue. As a tumour grows it changes the tissue around it, and this affects response to treatment. Combining classical biology with engineering to generate 3D models that mimic tumours, along with cutting-edge imaging technology and mouse models, we will target FAK-controlled cancer cell pathways that sense tissue changes, together with already approved cancer drugs to improve patient outcome.
Therapeutic Targeting Of Cell Cycle Checkpoint Aberrations In Pancreatic Cancer: Personalised Medicine In Action
Funder
National Health and Medical Research Council
Funding Amount
$634,354.00
Summary
Less than 5% of people with pancreatic cancer (PC) survive 5 years, and the odds of patients beating this disease have remained unchanged for 50 years. Consequently, there is an urgent need to develop novel treatment approaches for this highly aggressive cancer. Our study aims to define novel therapeutic strategies for PC utilising specific anti-proliferative therapies and a personalised “companion biomarker” directed strategy.
Achieving Targeted Delivery Of Drugs To Uterine Muscle In Women For The Prevention Of Preterm Labour
Funder
National Health and Medical Research Council
Funding Amount
$469,008.00
Summary
We have patented liposomes targeted to the uterus, which enable us to deliver drugs specifically to the muscle cells of the uterus, increasing safety. The liposomes can be loaded with drugs that either block or promote contractions, creating a versatile drug delivery system that could treat premature labour or postpartum haemorrhage which are major clinical problems. We seek support to demonstrate their effectiveness in mouse and primate models of preterm labour prior to human studies.
Invasive fungal infections are a serious, escalating health issue. They cause severe disease with high death rates and are very costly to the health system. Current drugs often have suboptimal efficacy and cause side effects. New drugs are needed urgently. Many fungi, including the AIDS-related pathogen, Cryptococcus neoformans, secrete phospholipase B (Plbp) to facilitate infection. We will identify and investigate the Plbp secretion pathway as a novel anti-fungal drug target.
Tracking The Impact Of Drug Regulatory Actions: Consumer Health Outcomes, Risk-benefit Issues And Policy Framework.
Funder
National Health and Medical Research Council
Funding Amount
$439,324.00
Summary
This study will explore what happens in the community when a medicine is withdrawn from the market or discredited due to safety concerns. It will examine the impacts of two recent cases of medicine withdrawal or serious long-term safety concern, on a large cohort of women with high utilisation rates who were monitored during the time the medicines were discredited. The study will be an important guide to future regulatory, media and provider responses when medicines are discredited.
Solving Delivery Of Gene Therapy For Control Of Human Immunodeficiency Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$765,439.00
Summary
Antiretroviral therapy free control of Human Immunodeficiency Virus (HIV) infection requires control of the viral reservoir. We have a unique approach, aimed at enforcing HIV latency by targeting highly conserved regions in the viral promoter. These constructs completely silence viral transcription for long periods of time. We intend to develop & assess vectors that are specifically targeted to the reservoir and which can enforce viral latency despite immune activation or viral variation.
The Use Of Gene-Silencing Nanodrugs To Inhibit Lung Cancer Growth
Funder
National Health and Medical Research Council
Funding Amount
$452,950.00
Summary
Lung cancer accounts for the most cancer deaths worldwide. This research proposal will use state-of-the-art nanomedicines designed to penetrate lung tumours and suppress a gene which drives cancer growth and resistance to chemotherapy drugs. Our results could underpin new approaches that revolutionise more effective and less toxic treatments for a highly lethal malignancy.