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Novel Targeted Onco-theranostic Nanoparticles For Personalised Therapy And Real-time Monitoring
Funder
National Health and Medical Research Council
Funding Amount
$437,034.00
Summary
I will develop novel specific cancer therapies using next generation nanoparticles. These particles will deliver highly potent drugs to cancerous tissue avoiding damage to healthy organs. My project has the potential to increase the quality of life and survival of patients suffering from the most invasive/malignant cancers, including breast and prostate cancer.
Delineating Mechanisms Of Acquired Resistance To Kinase Inhibitors And Devising Novel Strategies To Combat Therapeutic Resistance
Funder
National Health and Medical Research Council
Funding Amount
$437,034.00
Summary
Kinase inhibitors are some of the most successful anti-cancer agents that have emerged in the last 15 years. However, tumors become resistant to these drugs after showing initial response. Understanding mechanisms through which cancer cells become resistant to these drugs will allow us to develop effective strategies to counter it and achieve sustained responses to cancer therapy. I propose to build a research program to systematically study these mechanisms to improve cancer therapeutics.
Improving Cancer Survival By Optimising Drug Exposure At Sites Of Cancer Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$463,652.00
Summary
The metastatic spread of cancer is responsible for 90% of cancer related deaths. While the standard of care is to administer high doses of toxic drugs to kill the cancer, this often leads to life threatening side effects without guarantee of a cure. This work is aimed at identifying how nanometer sized chemotherapeutic ‘nanomedicines’ can be optimally developed to enhance drug targeting towards sites of tumour growth and metastasis and maximise therapeutic success whilst limiting side effects.
A Pharmacological Targeting Approach Implementing Albumin As A Carrier Of A Novel Chemotherapeutic
Funder
National Health and Medical Research Council
Funding Amount
$428,065.00
Summary
Novel agents that bind essential metals have emerged as a potential avenue for cancer therapy. My laboratory has developed potent anti-cancer agents, such as Dp44mT, that bind to the plasma protein, albumin. Notably, the uptake of Dp44mT into tumour cells was increased in the presence of albumin. My research will examine the mechanisms in the albumin-mediated increase in Dp44mT uptake into tumour cells, with the goal to develop albumin nanoparticles to selectively deliver our agents to tumours.
Overcoming Breast Cancer Heterogeneity And Resistance Using A Novel Therapeutic Approach Targeting The Metastasis Suppressor NDRG1.
Funder
National Health and Medical Research Council
Funding Amount
$431,000.00
Summary
Breast cancer (BrCa) is the leading cause of cancer death in women and current treatments suffer from development of resistance, leading to metastatic progression. I will assess a novel treatment strategy for BrCa, targeting a gene that is able to inhibit multiple key drivers of BrCa, using a novel potent and selective anti-cancer agent. This approach has the potential to overcome resistance to current therapies and alleviate the onset of metastasis, to improve prognosis for BrCa patients.
During injury or infection, our body’s immune system protects us by launching inflammation. But uncontrolled inflammation drives common diseases such as cancer, diabetes, Alzheimer’s and Parkinson's. This research program will reveal how the body deactivates inflammasomes – protein complexes at the heart of inflammation and disease – so we can design better drugs for treating patients with inflammation-driven disease.
Airway scarring, or airway fibrosis, is a pathological process by which the airway tissue is progressively replaced with scar tissue. This change makes it difficult for people to breathe. I have developed novel in-vitro models which enables us to understand why fibrosis is occurring, and in my research fellowship I aim to uncover new ways of treating fibrosis in lung diseases such as asthma and chronic obstructive pulmonary disease (COPD).
Microfluidic Strategy For Circulating Tumour Cells Analysis In Cancer Patients
Funder
National Health and Medical Research Council
Funding Amount
$429,180.00
Summary
My approach and ultimate goal over the next 4 years is to demonstrate the use of recently discovered “Nanoshearing” technology as a standard diagnostic tool for cancer patients undergoing systemic therapy and assess the impact of standard protocols in predicting response to therapy and patient outcomes. Data from this study could potentially define new standards of clinical practice, as they relate to follow-up screening for response to therapy and recurrence of disease.