A National Case-Control Study Of The Causes Of Childhood Brain Tumours
Funder
National Health and Medical Research Council
Funding Amount
$1,159,259.00
Summary
Childhood brain tumours are the second most common childhood cancer (~20%) after leukaemia (~35%) and are the leading cause of cancer death among children. Children who survive a brain tumour are often left with physical and mental problems as a result of treatment. This can have a significant impact on the child, family and community. Greater understanding of the causes of childhood brain tumours may lead to preventative measures. Most children with brain tumours are very young, suggesting that ....Childhood brain tumours are the second most common childhood cancer (~20%) after leukaemia (~35%) and are the leading cause of cancer death among children. Children who survive a brain tumour are often left with physical and mental problems as a result of treatment. This can have a significant impact on the child, family and community. Greater understanding of the causes of childhood brain tumours may lead to preventative measures. Most children with brain tumours are very young, suggesting that factors to which parents are exposed may affect future children. For this reason, it is important to study the parents as well as the child. This study will investigate environmental exposures known to be harmful, such as parental cigarette smoking and exposure to pesticides and other chemicals. Such exposures are also thought to increase the risk of other childhood cancers like Acute Lymphoblastic Leukaemia. We will also investigate whether dietary factors - including vitamin supplements - in the parents or the child can reduce the risk of a child developing a brain tumour. This study also examines genetic factors which can influence the body's ability to deal with toxins. Some genetic variations, combined with diet and lifestyle factors, may alter the risk of developing some cancers. These interactions need to be examined in greater detail for childhood brain tumours. This national study will examine specific genes and analyse them in conjunction with rigorous assessment of exposures throught to be related to the development of childhood brain tumours. Results obtained from children with brain tumours and their parents will be compared with those from healthy 'control' children and their parents. This is the first study to assess gene-environment interactions in relation to the risk of childhood brain tumours.Read moreRead less
Risk Factors, Screening, Prophylaxis And Outcomes In Individuals From Breast Cancer Families: KConFab Follow-Up Study
Funder
National Health and Medical Research Council
Funding Amount
$510,675.00
Summary
Having a strong family history of breast cancer is one of the most important risk factors for the disease. Two major genes, BRCA1 and BRCA2, have been identified which, when abnormal, result in an inherited tendency towards developing breast cancer. Women with a strong family history of breast cancer can undergo testing for these gene abnormalities via Family Cancer Centres around Australia. However, once a gene abnormality is found, little is known about the best ways to prevent cancer or detec ....Having a strong family history of breast cancer is one of the most important risk factors for the disease. Two major genes, BRCA1 and BRCA2, have been identified which, when abnormal, result in an inherited tendency towards developing breast cancer. Women with a strong family history of breast cancer can undergo testing for these gene abnormalities via Family Cancer Centres around Australia. However, once a gene abnormality is found, little is known about the best ways to prevent cancer or detect it early. The Kathleen Cuningham Consortium for Research into Familial Aspects of Breast Cancer (kConFab) has been recruiting families with exceptionally strong histories of breast cancer since 1997. kConFab is funded to collect epidemiological information and biological specimens on such individuals only at the time of their initial recruitment. In 2000 the NHMRC recognised the importance of undertaking clinical follow-up of this precious cohort of individuals, and provided funding through a 3 year project grant to commence the first round of 3 yearly follow-up on this cohort (NHMRC Project Grant #145684). The first 2 years of this follow-up has been completed successfully and the current is application is for a renewal of funding (to commence in 2004) to enable us to undertake further follow-up of the now much larger cohort. In the short term we will examine the screening and preventive surgery behaviours of high risk women within this study to determine whether they are optimal. The ultimate aim of this long term follow-up of individuals in kConFab is to determine what factors impact on the development of cancer in well individuals with a genetic predisposition to breast cancer.Read moreRead less
Modulation Of Cytoskeletal Structure By Progesterone Receptor Isoforms
Funder
National Health and Medical Research Council
Funding Amount
$337,650.00
Summary
Ovarian hormones are fundamental regulators of normal cell growth and differentiation, and crucial to the development and progression of breast cancer. We have recently shown that the ovarian hormone progesterone can influence the expression of proteins in the cell scaffolding, known as the cytoskeleton. The cytoskeleton is responsible for maintaining cell shape, and there is growing evidence that alterations in the cytoskeleton can actually cause normal cells to become cancerous. We have shown ....Ovarian hormones are fundamental regulators of normal cell growth and differentiation, and crucial to the development and progression of breast cancer. We have recently shown that the ovarian hormone progesterone can influence the expression of proteins in the cell scaffolding, known as the cytoskeleton. The cytoskeleton is responsible for maintaining cell shape, and there is growing evidence that alterations in the cytoskeleton can actually cause normal cells to become cancerous. We have shown that progesterone affects the levels of a cytoskeletal protein called tropomyosin, which plays a pivotal role in cell shape maintenance. We have hypothesised that this effect may be important in the cell shape changes in breast cancer that lead to metastasis. In this grant, we will investigate the role of the progesterone receptor in controlling the expression of the cytokeleton; we will investigate whether cell shape changes caused by progesterone cause more aggressive behaviour in breast cancer cells and we will determine whether there are changes in cytokeletal proteins in breast tumours. This will provide a rational basis for further studies aimed at delineating the significance of hormonal regulation of cell architecture.Read moreRead less
Genome-wide Expression Analysis In Advanced Gastric Cancer
Funder
National Health and Medical Research Council
Funding Amount
$326,761.00
Summary
Gastric cancer is the fourth ranked cancer by mortality in Australia. Therapy of gastric cancer is unsatisfactory for two reasons; firstly, how normal stomach cells become cancerous is not well defined. We know long-term infection with the bacteria Helicobacter can lead to these cancers, as can severe acid reflux. The cancers produced by these very different agents look remarkably similar, but must be arising through different pathways. Research to date has not yielded great insight. Secondly, e ....Gastric cancer is the fourth ranked cancer by mortality in Australia. Therapy of gastric cancer is unsatisfactory for two reasons; firstly, how normal stomach cells become cancerous is not well defined. We know long-term infection with the bacteria Helicobacter can lead to these cancers, as can severe acid reflux. The cancers produced by these very different agents look remarkably similar, but must be arising through different pathways. Research to date has not yielded great insight. Secondly, existing therapy, especially chemotherapy, tends to provide a Oone size fits all? solution. Whatever the cause, removal at surgery is the best option for treatment. After this, patients are often treated with chemotherapy. Although improvements in patient comfort have been made, very few patients are cured as a result of this treatment. We need more information with which to match the right patient with the right therapy. We will perform high-throughput analysis of comprehensive arrays of human genes that are affected in gastric cancer. Biopsies from cancerous and normal tissue will be obtained when patients have surgery. This tissue will have the RNA (the Omessage? from each gene) labelled with chemical tags and then applied to DNA Omicrochips?. Each microchip contains about 5000 gene targets; the RNA binds the matching DNA and produces a light reaction. We can read the light output from these 5000 (or more) signals, and perform complex statistical analysis on the results. This will result in several specific Ogene expression profiles? which we will analyse to see which profiles match each situation. Profiles matching reflux-induced cancer and Helicobacter-induced cancer can be compared. This will suggest what unique processes are occurring in the cancer cells. Profiles of patients responding well to therapy may allow the use of Otailor-made? therapy. In the future, insight into cancer pathways should also allow the design of new and more successful therapies.Read moreRead less
Primary central nervous system (CNS) tumours, arising in the brain and spinal cord, are the leading cause of cancer-related deaths in children less than 15 years of age. Medulloblastomas and other primitive neuroectodermal tumours (PNETs) are the most common form of primary childhood brain tumours, accounting for 25-30% of cases. Despite notable recent advances in our understanding of the molecular genetic basis of malignancies, the pathogenesis of CNS PNETs remains obscure. To address this prob ....Primary central nervous system (CNS) tumours, arising in the brain and spinal cord, are the leading cause of cancer-related deaths in children less than 15 years of age. Medulloblastomas and other primitive neuroectodermal tumours (PNETs) are the most common form of primary childhood brain tumours, accounting for 25-30% of cases. Despite notable recent advances in our understanding of the molecular genetic basis of malignancies, the pathogenesis of CNS PNETs remains obscure. To address this problem, we propose to apply a novel combinatorial approach for the identification of PNET tumour suppressor genes utilising both representational difference analysis (RDA) and microarray expression profiling. Data from this study will help to elucidate the molecular pathways that are compromised in the initiation and growth of PNETs. This information will have direct implications for the development of improved diagnostic and prognostic indicators necessary for the design of more effective therapeutic strategies for the treatment of PNET patients.Read moreRead less
Integrating Conventional Mesothelioma Therapies With Immuno- And Gene-therapies
Funder
National Health and Medical Research Council
Funding Amount
$804,916.00
Summary
Asbestos-induces cancers are some of the most aggressive cancers know to medicine. Unfortunately, treatments are not very effective and it is unusual for these cancers to be cured, particularly mesothelioma. Because recent scientific studies have suggested that combinations of therapy which include immunotherapy, ie treatments aimed at stimulating the bodies anti-cancer immune responses to attack the cancer, can be effective, we plan to develop this work in order to determine exactly which combi ....Asbestos-induces cancers are some of the most aggressive cancers know to medicine. Unfortunately, treatments are not very effective and it is unusual for these cancers to be cured, particularly mesothelioma. Because recent scientific studies have suggested that combinations of therapy which include immunotherapy, ie treatments aimed at stimulating the bodies anti-cancer immune responses to attack the cancer, can be effective, we plan to develop this work in order to determine exactly which combinations are likely to be the most effective and therefore the most suitable for clinical trial in patients.Read moreRead less
Identification And Molecular Characterisation Of High-risk Premalignant Breast Lesions
Funder
National Health and Medical Research Council
Funding Amount
$560,382.00
Summary
Understanding the full repertoire of genetic events that underlie the development of breast cancer may allow development of prevention strategies. This study will analyse genetic data of benign breast lesions that may be non-obligate precursors of breast cancer. Importantly, clinical management of these lesions is difficult. A reliable method of predicting the risk of progression to cancer would be a significant advance, with benefits to individual patients and also the health system.
KConFab Follow-Up Project: A Prospective Study Of Non-Genetic Risk Modifiers In Women At High Risk For Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$726,351.00
Summary
Having a strong family history for breast cancer is one of the most important risk factors for the disease. Two major genes, BRCA1 and BRCA2, have been identified which, when abnormal, result in an inherited tendency towards developing breast cancer. Women with a strong family history of breast cancer can undergo testing for these genes via Family Cancer Centres around Australia. However in only about 20% of families with a strong family history will a gene abnormality be discovered. Women from ....Having a strong family history for breast cancer is one of the most important risk factors for the disease. Two major genes, BRCA1 and BRCA2, have been identified which, when abnormal, result in an inherited tendency towards developing breast cancer. Women with a strong family history of breast cancer can undergo testing for these genes via Family Cancer Centres around Australia. However in only about 20% of families with a strong family history will a gene abnormality be discovered. Women from families in which no abnormality has been discovered remian at high risk because they may have an abnormality in an as yet undiscovered gene which can't yet be tested for. Little is currently known bout the best ways to prevent cancer in women who are at high risk. The Kathleen Cuningham Consortium for Research Into Familial Aspects of Breast Cancer (kConFab) has been recruiting families with exceptionally strong hostories of breast cancer since 1997. kConFab is funded to collect risk factor information on such individuals only at the time of their initial recruitment. In 2000 and again in 2003, the NHMRC recognised the importance of undertaking clinical follow-up of this precious cohort of individuals and provided funding through consecutive project grants to do so. The current application is to enable us to continue that follow-up for a further 5 years. As well as continuing the follow-up, we will use the data already collected to examine the effect of prophylactic surgery, breastfeeding and use of the oral contraceptive pill as well as cigarette smoking and alcohol use on breast cancer risk in high-risk women. The results of this study will provide high-risk women with better information about what modifications they might make to their lifestyles to reduce their cancer risk.Read moreRead less
Cancers can induce fluid build up within the chest cavity leading to breathlessness impairing quality of life. These three studies are focused on improving MPE care. The PLEASE study aims to determine the mechanism of breathlessness and provide predictors for patient selection for fluid drainage. The AMPLE-2 trial will determine the optimal drainage regime to improve patient related outcomes. The FRAME study will evaluate the safety, tolerability and efficacy of a novel therapy in mesothelioma.