Early diagnosis of melanoma remains extremely challenging. Currently there are no validated blood-based biomarkers for early diagnosis. Therefore, a reliable screening test is an unmet medical need. Autoantibodies are emerging as promising biomarkers for early cancer detection. In a proof of principle experiment we identified five autoantibodies that provide 95% sensitivity / specificity. Now we will confirm and validate our findings and develop a clinical test for melanoma diagnosis.
Liquid Biopsy For Personalised Monitoring Of Melanoma Patients
Funder
National Health and Medical Research Council
Funding Amount
$820,888.00
Summary
Despite the success of recent melanoma treatments, therapies are effective long term in only a proportion of patients. Here we will progress preliminary findings in collaboration with biotechnology and pathology companies to develop highly effective companion biomarkers that will aid treatment decisions throughout disease course. Our team will spearhead translation of these markers into the clinic for routine monitoring of melanoma patients.
Preclinical Development Of Q2361, A Transforming New Drug For Skin Cancer Prevention In Organ Transplant Recipients
Funder
National Health and Medical Research Council
Funding Amount
$724,957.00
Summary
Patients that receive organ transplants need additional medications in order to prevent organ rejection. Unfortunately, these drugs carry an unwanted side-effect - they permit the development of skin cancer. Currently, other than surgery, little can be done to help these patients. Our preliminary data suggest that a new drug may prevent these skin cancers from forming. This project aims to deliver key insights into the influence of this drug and its role in skin cancer prevention.
Skin Patch Technology For Fast And Simple Monitoring Of Disease
Funder
National Health and Medical Research Council
Funding Amount
$826,064.00
Summary
Micropatch kits will be developed to capture and detect disease-related biomarkers from the skin for diagnostic monitoring, without the need for needles, trained practitioners or expensive laboratory infrastructure
Development Of An Intra-Operative Tool For Tumour Margin Assessment During Surgery
Funder
National Health and Medical Research Council
Funding Amount
$599,472.00
Summary
The objective of this study is to develop and evaluate a surgical probe that uses novel terahertz technology to guide surgical excision. As an example, approximately 3,000 breast cancer patients per year require a second surgical procedure because of tumour identified close to the edge of tissue removed during surgery. There is a clinical need for an accurate, real-time and non-destructive technique to assess tumour margins during surgery. This tool could also be used for any surgery that requir ....The objective of this study is to develop and evaluate a surgical probe that uses novel terahertz technology to guide surgical excision. As an example, approximately 3,000 breast cancer patients per year require a second surgical procedure because of tumour identified close to the edge of tissue removed during surgery. There is a clinical need for an accurate, real-time and non-destructive technique to assess tumour margins during surgery. This tool could also be used for any surgery that requires preservation of normal tissue.Read moreRead less