The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Supercritical-microfluidics technology for targeted delivery to the colon. This research will develop nanosystems to target delivery of drugs to the colon. Our nanosystems will permit the combination of clinically used chemotherapy drugs within a single dosage form. This will improve the efficiency of delivery to the colon while reducing unwanted side-effects. A novel supercritical microfluidics system will be developed to produce therapeutic nano-carriers in a continuous mode with lower labour ....Supercritical-microfluidics technology for targeted delivery to the colon. This research will develop nanosystems to target delivery of drugs to the colon. Our nanosystems will permit the combination of clinically used chemotherapy drugs within a single dosage form. This will improve the efficiency of delivery to the colon while reducing unwanted side-effects. A novel supercritical microfluidics system will be developed to produce therapeutic nano-carriers in a continuous mode with lower labour requirement, higher production rate and better quality control than conventional production methods. The new process will combine benefits from both supercritical fluid technology (green process) and microfluidics (high mass & heat transfer).Read moreRead less
The Systems Biochemistry of Adaptation in Cellular Protein Networks. A living cell must process and interpret a host of diverse signals using a complex network of interacting proteins inside the cell. The detailed molecular mechanisms by which cells exhibit adaptation to these signals remains a fundamental question in biology. This project aims to develop a novel mathematical framework for analysing the capacity of intracellular protein interactions to contribute to cellular adaptation, along ....The Systems Biochemistry of Adaptation in Cellular Protein Networks. A living cell must process and interpret a host of diverse signals using a complex network of interacting proteins inside the cell. The detailed molecular mechanisms by which cells exhibit adaptation to these signals remains a fundamental question in biology. This project aims to develop a novel mathematical framework for analysing the capacity of intracellular protein interactions to contribute to cellular adaptation, along with a novel methodology for validating mathematical models against experimental data. These innovations offer a completely fresh approach to identifying and modulating the adaptive capacities of living cells, which may contribute to overcoming the problem of drug resistance in future therapeutic development.
Read moreRead less
Micro-dissection of clathrins role in mitosis via chemical biology probes. This project aims to contribute to understanding the molecular mechanisms of the role of a key protein, clathrin, in cell division. In doing so it expects to reveal new approaches to stop uncontrolled cell division and proliferation, the hallmarks of cancer. The outcomes could in the long term inform breakthroughs in cancer treatment, significant enhancements in life quality and a reduction in cancer death rates.
Using Drosophila to analyse a master regulator of epithelial homeostasis. Aims:
This proposal aims to use genetic and cell biological analysis of the vinegar fly, Drosophila, to identify the function of the grainyhead gene in intestinal regeneration.
Significance:
This gene is conserved in all animal species and appears to be a master regulator of epithelial tissue development but it is unclear how it can both influence stem cell maintenance and production of functional cell types.
Expected out ....Using Drosophila to analyse a master regulator of epithelial homeostasis. Aims:
This proposal aims to use genetic and cell biological analysis of the vinegar fly, Drosophila, to identify the function of the grainyhead gene in intestinal regeneration.
Significance:
This gene is conserved in all animal species and appears to be a master regulator of epithelial tissue development but it is unclear how it can both influence stem cell maintenance and production of functional cell types.
Expected outcomes:
We will identify a new mechanism that governs tissue development, and introduce new imaging and genetic technologies to the Australian research community.
Benefit:
We expect potential economic and commercial interest in development of new gene analysis tools and biotechnological tissue manipulation applications.Read moreRead less
Comparative Effectiveness Of Breast Tomosynthesis And Mammography In Real-world Population Screening: Evidence To Underpin And Improve Breast Cancer Screening
Funder
National Health and Medical Research Council
Funding Amount
$1,851,430.00
Summary
This research addresses key evidence gaps in breast cancer screening by investigating tomosynthesis (3D mammography) versus standard 2D mammography screening to establish the effectiveness of tomosynthesis in Australia and internationally, including impact on cancers not detected at screening that progress clinically. Large-scale studies will be done in real world screening services including a prospective comparative study planned collaboratively with BreastScreen to guide screening policy.
Decoding miRNA regulated genetic circuits. This project will aim to develop a much better understanding of how the process of making proteins from genes is regulated, and will develop scientific software capable of predicting how a cell will respond to changes in this regulation. The results will have widespread use, including assistance in deciding the best treatments for genetic diseases.
A Vision Of Healthy Urban Design For NCD Prevention
Funder
National Health and Medical Research Council
Funding Amount
$608,911.00
Summary
We are living in a new city era with new risks for health, and new ways to understand them. This project will combine state-of-the art methods in computer vision and artificial intelligence alongside co-creation of a web-based toolkit for action for use by city planners and urban designers that demonstrate practical pathways Improving our understanding of the strengths and limitations of existing city designs to ensure they are safe, clean, healthy, and sustainable.
Optimizing Immunotherapy Treatment For Breast Cancer Patients
Funder
National Health and Medical Research Council
Funding Amount
$1,938,014.00
Summary
The first steps in introducing immunotherapy for breast cancer patients have been taken in 2019. However, there is much work to do optimize immunotherapy for all breast cancer patients. My research, involving both lab and clinical trials, will develop new treatment strategies and identify new biomarkers to distinguish responders and non-responders. This will allow individualised selection of patients for evaluation of different immunotherapy approaches, with the aim of improving their survival.
Reducing Colorectal Cancer Burden In Young Adults: Precision Prevention And Early Detection
Funder
National Health and Medical Research Council
Funding Amount
$1,449,800.00
Summary
Bowel cancer rate in young adults before age 50 is increasing worldwide including Australia. Since it is impossible to screen everyone, it is critical to identify who is likely to develop the disease, to optimise screening. Using the world's largest resource for young-onset bowel cancer, I will conduct studies to generate high-quality evidence to inform how to best prevent bowel cancer in young adults and translate into the policy and practice, to reduce colorectal cancer burden in young adults.
Growth Regulatory Transcriptional Networks And Novel Therapies In Vascular Pathobiology
Funder
National Health and Medical Research Council
Funding Amount
$576,760.00
Summary
Cardiovascular disease and cancer together account for the majority of all deaths. Underpinning both these conditions are cellular and molecular changes in our blood vessels. This Fellowship will enable Professor Khachigian to enhance our understanding of fundamental mechanisms regulating the pathogenesis of vascular disease, and by harnessing this new knowledge in preclinical and human trials, generate novel strategies to combat a range of diseases through strategic partnership, collaboration a ....Cardiovascular disease and cancer together account for the majority of all deaths. Underpinning both these conditions are cellular and molecular changes in our blood vessels. This Fellowship will enable Professor Khachigian to enhance our understanding of fundamental mechanisms regulating the pathogenesis of vascular disease, and by harnessing this new knowledge in preclinical and human trials, generate novel strategies to combat a range of diseases through strategic partnership, collaboration and training.Read moreRead less