A Multi-Centre Feasibility Study Of Online Adaptive Image Guided Radiotherapy For Muscle Invasive Bladder Cancer
Funder
National Health and Medical Research Council
Funding Amount
$580,152.00
Summary
Many studies have shown that the bladder can move, change in size and shape through a course of radiation therapy. As shown in a pilot study, with the online adaptive radiotherapy technique trained staff can daily match the radiation fields to the bladder position and size using a type of CT scan. Potential benefits are better cancer coverage with improved cancer control and less normal tissue irradiation. This study will determine if the technique will work across multiple Australian centres.
Value Of Androgen Deprivation And Bisphosphonate In Patients Treated By Radiotherapy For Localised Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$2,533,827.00
Summary
Following on from significant findings in the TROG 96.01 trial, the 03.04 trial, known as the RADAR trial was developed. This is a large-scale randomised controlled clinical trial currently conducted at 23 cancer treatment centres throughout Australia and New Zealand. The RADAR trial aims to recruit 1000 men with localised but inoperable prostate cancer. It was anticipated that the length of time required to enrol 1000 participants to the trial would be 5 years. However, because enrolment has ex ....Following on from significant findings in the TROG 96.01 trial, the 03.04 trial, known as the RADAR trial was developed. This is a large-scale randomised controlled clinical trial currently conducted at 23 cancer treatment centres throughout Australia and New Zealand. The RADAR trial aims to recruit 1000 men with localised but inoperable prostate cancer. It was anticipated that the length of time required to enrol 1000 participants to the trial would be 5 years. However, because enrolment has exceeded expectations and 728 patients have already been recruited, it is anticipated that the recruitment target will be reached in mid 2007. Patients are randomly assigned to receive one of four treatment options in the RADAR trial. The first option: Option A: Radiation Therapy and 6 months of Hormone Therapy (Leuprorelin acetate), is currently the standard of care. Option C is a further 12 months of hormone therapy after the current standard of care. Two of the options (B and D) are identical to options A and C except that subjects also receive 18 months of zoledronate (a 'bone' drug) in addition to hormone therapy and radiotherapy. The main goal of the RADAR trial is to determine whether 12 months of hormone therapy using Leuprorelin acetate starting immediately after standard therapy (ie 6 months of Leuprorelin acetate before and during radiotherapy) will reduce risk of return of the cancer, either within the prostate region or at remote sites in the body, and prolong life. An additional goal is to see whether 18 months of bisphosphonate therapy (bone density therapy) using zoledronate will reduce the risk of cancer returning in the bones as well as stopping dangerous bone thinning which can sometimes be caused by hormone therapy. The trial also seeks to determine whether the additional therapy given in this trial alters quality of life.Read moreRead less
Optimal Duration Of Neoadjuvant Androgen Deprivation Therapy In Localised Prostate Cancer Treated By Radiotherapy
Funder
National Health and Medical Research Council
Funding Amount
$422,335.00
Summary
The 96.01 trial aims to find out whether androgen deprivation (AD) administered prior to and during radiotherapy (i.e., neo-adjuvant AD) will improve outcomes in patients with locally advanced prostate cancer that is considered inoperable and is treated for cure by radiotherapy. The trial also aims to find out whether six months AD produces outcomes superior to those achieved by three months AD. The trial has been running since 1996 and involves 802 men who attend 19 cancer treatment centres acr ....The 96.01 trial aims to find out whether androgen deprivation (AD) administered prior to and during radiotherapy (i.e., neo-adjuvant AD) will improve outcomes in patients with locally advanced prostate cancer that is considered inoperable and is treated for cure by radiotherapy. The trial also aims to find out whether six months AD produces outcomes superior to those achieved by three months AD. The trial has been running since 1996 and involves 802 men who attend 19 cancer treatment centres across Australia and New Zealand. It would not have been possible without the continuous funding support of the NHMRC. So far this trial has shown that AD does prevent prostate cancer from returning after radiotherapy. This is very important because the need for treatment of recurrent cancer (usually AD for the rest of the patient's life) is halved by 6 months AD compared to standard treatment (radiotherapy alone). However, it is now necessary to observe the patients in this trial for another 5 years to find out whether AD also prolongs life, and whether 6 months AD is more effective than 3 months. Further patient follow up is also necessary to identify whether some men respond better to treatment than others. This is very important because it will enable treatment to be tailored to individual patients, in particular those who require more treatment than is given in this trial. This funding application is therefore to enable patient follow up on this large scale trial for another 5 years.Read moreRead less
Optimal Duration Of Neoadjuvant Androgen Deprivation Therapy In Localised Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$275,000.00
Summary
Each year approximately 8000 men in Australia and New Zealand develop prostate cancer which has not spread widely and which is amenable to attempted cure by surgery or radiation. Prostate cancer depends for its growth on the male hormone, testosterone, which circulates in the blood. As a result treatment which reduces testosterone level ('androgen deprivation' [AD] therapy) can produce shrinkage of prostate cancer. In fact AD has caused temporary but valued relief to millions of men with cancer ....Each year approximately 8000 men in Australia and New Zealand develop prostate cancer which has not spread widely and which is amenable to attempted cure by surgery or radiation. Prostate cancer depends for its growth on the male hormone, testosterone, which circulates in the blood. As a result treatment which reduces testosterone level ('androgen deprivation' [AD] therapy) can produce shrinkage of prostate cancer. In fact AD has caused temporary but valued relief to millions of men with cancer of the prostate that has spread throughout the body for the last five decades, worldwide. It remains uncertain however whether AD administered before surgery or radiation will benefit any of the 8000 men each year who develop localised cancer by shrinking the cancer first. In 1996 a trial involving 800 men across Australia and New Zealand commenced under the auspices of the Trans-Tasman Radiation Oncology Group (TROG) to answer the questions: 1 - Does either 3 or 6 months AD prior to radiotherapy reduce the chances of recurrence of the cancer after radiotherapy? 2 - Does such therapy reduce the volume of tissue requiring radiotherapy and hence the chances of long term side effects after radiotherapy? This grant will support collection of follow-up information from the trial and hence answers to the questions asked.Read moreRead less
Rectal Invivo Radiotherapy Dosimetry Using A Fibre Optic Array
Funder
National Health and Medical Research Council
Funding Amount
$438,963.00
Summary
For pelvic cancer patients too much radiation causes rectal problems which are hard to avoid. To reduce the problem we have developed a tiny dosimeter, which we will network to measure the radiation in the rectum as it is being received. This will tell us the maximum safe dose of radiation we can give before causing rectal complications. This will be an effective quality assurance and radiation safety tool.
DNA Binding Ligands For Auger Therapy And Receptor Imaging
Funder
National Health and Medical Research Council
Funding Amount
$589,532.00
Summary
Our aim is to develop new technologies for very specific cancer radiotherapy and diagnostic imaging. The system involves the use of a protein linked to a radioactive DNA binding drug. The radioactivity we use has a very small range -a few millionths of a millimetre- allowing us to selectively kill cancer cells with minimal harm to healthy tissue. For diagnosis we use smaller amounts of radiation to obtain a clear image of the areas and extent of disease, which facilitates appropriate treatment.
Improving Outcomes Of Radiotherapy Treatments Through In-vivo Dosimetric Verification
Funder
National Health and Medical Research Council
Funding Amount
$379,855.00
Summary
Radiotherapy remains an important non-surgical treatment for over 50 % of cancer patients. This project aims to develop methods that will enable the optimisation of the patients' treatment as it progresses by non-invasively measuring the radiation dose delivered each day. This will increase the likelihood of curing the patient as well as reducing the side effects experienced due to the treatment. This will improve the patients' quality of life post-treatment.
A Randomised Controlled Trial Comparing Intraoperative To Conventional Radiotherapy In Women With Early Beast Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$874,046.00
Summary
With the advent of breast screening in Australia many women are diagnosed with small low risk cancers that can be treated with breast conserving therapy with good outcomes. Surgery and radiotherapy in this situation are used to minimise the risk of local recurrence. It is now being questioned whether we can tailor radiotherapy to suit individual patients rather than recommending the daily 6-7 weeks of standard external beam radiotherapy to all patients. This trial aims to answer this question as ....With the advent of breast screening in Australia many women are diagnosed with small low risk cancers that can be treated with breast conserving therapy with good outcomes. Surgery and radiotherapy in this situation are used to minimise the risk of local recurrence. It is now being questioned whether we can tailor radiotherapy to suit individual patients rather than recommending the daily 6-7 weeks of standard external beam radiotherapy to all patients. This trial aims to answer this question as a new device which can deliver radiotherapy intraoperatively in a single session has now been tested and proven safe to use in the breast. The main objective of this trial is to demonstrate that a single dose of radiotherapy delivered intraoperatively (IORT) gives an equivalent local control rate to standard external beam radiotherapy in women with early low risk breast cancer who are suitable for breast conserving therapy. Other objectives include comparing the two treatments with respect to; disease-free-overall survival, cosmetic outcome, patient satisfaction-preference, quality of life and cost benefit. If the study finds that IORT alone after breast conserving surgery is as effective in achieving local control as standard external beam radiotherapy, a major benefit to patients would be shorter treatment duration by avoiding the 6-7 weeks of standard radiotherapy. A reduction in the number of early breast cancer patients requiring access to standard radiotherapy would also benefit treatment centres and other cancer patients by reducing the waiting times for radiotherapy. Consumer groups have supported the concept from the beginning and there has been recent increase in level of support by originally unsupportive groups. Of great significance is this trial offers an opportunity to formally investigate the efficacy of delivering IORT in the safe confines of a clinical trial, before allowing it to become a standard treatment which is occurring in other countries.Read moreRead less
Proteomic Screening For Apoptotic Markers In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$531,696.00
Summary
The induction of apoptosis, or programmed cell death, is a key factor in the response of tumours to chemotherapeutic agents and ionising radiation; therefore biological markers that predict the clinical outcome to these therapies are needed. Over the past 2 years, our laboratory has developed techniques of protein analysis to evaluate changes in proteins during apoptosis caused by chemotherapeutic agents. Preliminary protein profiling studies of apoptosis induction in human breast cancer cell li ....The induction of apoptosis, or programmed cell death, is a key factor in the response of tumours to chemotherapeutic agents and ionising radiation; therefore biological markers that predict the clinical outcome to these therapies are needed. Over the past 2 years, our laboratory has developed techniques of protein analysis to evaluate changes in proteins during apoptosis caused by chemotherapeutic agents. Preliminary protein profiling studies of apoptosis induction in human breast cancer cell lines showed time-dependent decreases in two proteins, identified as S100A6 and ubiquitin. Both are known to be important in cell function. In the proposed project we will build on our preliminary findings to provide important new information central to the understanding of cancer cell biology and apoptosis in addition to evaluating the ability of anti-cancer treatments to induce apoptosis. Using a combination of protein analysis technologies, this project has the potential to provide reliable and novel biomarkers which will indicate the efficacy and selectivity of anti-cancer treatments in inducing tumour cell death. The knowledge gained in this project will aid clinical assessment of the response to cancer treatment(s) in patients in the form of specific screening assays, and may result in identification and development of effective new agents for cancer treatment and prevention. Furthermore, the outcomes of this project will increase our understanding of fundamental cancer cell biology and apoptosis.Read moreRead less