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NCT07498829
PROTECT-C is a research study offering genetic testing to people to see whether they have a genetic change that increases their risk of breast, ovary, bowel, and/or womb cancer. This is regardless of whether they or their families have had cancer. Breast, ovary, bowel, and womb cancers make up half of all cancers in women. Around 15-20% (15 to 20 in 100 cases) of ovary and 3-4% (3 to 4 in 100 cases) of breast, womb, and bowel cancers are linked to cancer genes and may be prevented. People with a genetic change that puts them at increased risk of any of these cancers have ways to help them manage their risk through the NHS. This may include screening to find cancers earlier when they are easier to treat, and surgery or medication to prevent cancers from developing. This can save lives. Currently, genetic testing is only available on the NHS to people who meet certain criteria. For example, those who have had certain cancers, have a strong family history of cancer, or those with Jewish ancestry. But many people may not have a strong family history or meet NHS testing criteria. This means that this system of testing misses 50% to 80% of people (50 to 80 in 100 people) who have a genetic change. It is thought that only around 3 in 100 people overall who have a genetic change that increases their risk of cancer know about it. Given the effective screening and preventive options that are available, this represents a huge, missed opportunity to prevent cancers or find them earlier. The PROTECT-C study aims to evaluate the option of offering genetic testing to everyone who may want it. This is regardless of whether they or their families have had cancer. We will offer genetic testing to 5000 people. People may take part if they: * Are over the age of 18 years and * Are a woman, trans man, or non-binary person with female reproductive organs (ovaries, fallopian tubes, and/or a uterus) and * Have never had genetic testing for the cancer genes tested for in the study and * Do not have first-degree family members (e.g.: parent, sibling, child) or second-degree family members (e.g.: aunt, uncle, niece, nephew, grandchild, grandparent, half-sibling) with genetic changes in the cancer genes tested for in the study PROTECT-C is a completely digital study. The study team will give participants access to an app developed specifically for this study. They can download this app using a smartphone or tablet or access it on any internet browser using a computer or laptop. Before they can access the app, participants will need to complete a consent form. They will also be asked to fill in a short questionnaire about themselves and their health. The PROTECT-C app contains information to help participants decide if they would like to have genetic testing. If they decide to have genetic testing, they will complete a consent form for genetic testing on the app. The study team will send them a saliva based test kit in the post. The study will look at how many people decide to have genetic testing and how many of them are found to have a genetic change. It will evaluate their experience with using the app and how this approach to genetic testing affects their quality-of-life, satisfaction, and mental well-being. This will give us a better understanding of how well the app works as a way of offering genetic testing to people. The study is interested to see how people found to be at increased risk decide to manage their risk. We will assess the uptake of screening and prevention options. Few participants will be invited to have 1:1 interviews by the study team. This will evaluate their experience of making a decision about genetic testing and taking part in the study. Taking part in these interviews is optional. The study will also assess if this way of offering genetic testing to people is affordable for the NHS.
NCT07014553
The aim of this project is to determine the effect of the Web-Based Nurse Navigation Program on breast cancer screening behaviors (mammography, BSE, CBE) in women at high risk of breast cancer. The program to be developed within the scope of the project is named as "Web-Based Nurse Navigation Program (WeT-HNP)", which reflects the web-based and navigation concepts.
NCT04082117
A feasibility study incorporating an educational intervention with cancer genetic risk assessment (CGRA) in the UI Health mammography center
NCT06939049
The main objective of the SISTEMA project is to develop non-invasive diagnostic tests for the detection and quantification in blood of markers of Mesenchymal Epithelial Transition, a mechanism that characterises certain types of cancer such as breast and lung cancer. Cancer is still one of the leading causes of death in Western countries. In 2014, there were an estimated 1,665,540 new cancer cases and 585,720 deaths in the United States alone. The World Health Organisation (WHO) and Eurostat predict 1,323,600 deaths in Europe, a figure slightly down on previous statistics but still underlining the existence and seriousness of the problem. It is no coincidence that cancer is one of the main areas of investment in the European Horizon 2020 programme. In recent years, the hypothesis that the process of carcinogenesis is driven by the activation of a particular panel of genes/proteins that enable cancer cells to acquire malignant characteristics has become increasingly popular. This process goes by the name Epithelial Mesenchymal Transition (EMT) and characterises all human epithelial tumours. This process allows epithelial tumour cells to acquire mesenchymal characteristics giving them stem, invasive, and chemoresistant properties.
NCT06786949
Scientific evidence established about the effects of night work on health both in the short term (insomnia, excessive sleepiness, difficulty concentrating or lack of energy) and in the long term (moderately high risk of developing cardiovascular disease, type 2 diabetes, depression, cancer). In light of the scientific evidence, the IARC (International Agency for Research on Cancer) has listed night work as a probable human carcinogen (Group 2). With respect to current knowledge, the present study could provide valuable help in understanding the mechanisms by which circadian rhythm alteration acts at the genetic level in terms of promoting oncogenesis. Furthermore, by studying its association with other risk factors, understand whether there is a pattern of women more susceptible to its oncopromoting action.
NCT05848856
Chronic diseases such as heart disease, cancer, and diabetes are the leading causes of death and disability in the United States. Six in ten adults have one chronic disease; 4 in 10 have two or more. These are also leading drivers of the nation's $4.1 trillion in annual health care costs. Cardiovascular disease is the number one cause of death for men and women, cancer is the second largest, with breast cancer being the second largest cause of death in women. Diabetes is the 8th highest cause of death for both men and women. Routine screening, a focus on prevention, early detection, and patient engagement with proposed care plans, effective surveillance and follow up are some of the most effective ways to reduce the burden of chronic diseases across an individual's lifetime and at the population level. Estimating dollar costs associated with non-compliance with screening and health management recommendations is complex and variable depending on the specific context, disease, and condition. But there is much evidence to indicate that a significant amount of these annual costs can be mitigated if compliance with health management recommendations increases, and health problems are prevented or detected early. Access to screening and noncompliance with health management recommendations impact the entire population, but more disparities exist in racial and ethnic minorities and in the historically underserved for cancer, obesity, diabetes and cardiovascular disease. The overall cost of these disparities in the U.S. has been estimated at around 1.24 trillion U.S. Dollars. The RISC Registry seeks to pursue the intersection of breast cancer, metabolic, and cardiovascular risk in women and study the application of individualized multi-condition risk assessments, risk-informed or personalized screening, prevention and follow up care approaches in a broad cross section of patients. It pursues the hypothesis that these approaches accompanied by population appropriate methods of clinician and patient engagement may increase understanding and compliance with breast cancer, obesity, and metabolic/cardiovascular/cardiometabolic risk screening, surveillance and follow up recommendations by empowering women to make healthier choices. In doing so, these methods may identify ways to address disparities in screening and patient care and ultimately promote early detection or even reversal of adverse health conditions, improve overall personal health, and reduce overall health care costs. The primary focus is cancer, cardiovascular and metabolic health screening with a focus on utilization of Precision Screening. (Precision Screening attempts to separate those who will benefit from screening from those that may not, through use of information on disease risk.) The study will start by focusing on women and risk for these diseases and health conditions.
NCT02155777
Use of oral contraceptives (OCs) reduces a woman's risk of ovarian cancer very significantly and the protective effect continues for at least 25 years after use of OCs is stopped; the mechanisms of how this occurs are not understood. We are proposing here to directly study the effect of OCs on the fallopian tube and inclusion cysts within the ovary - sites from which most ovarian cancers are thought to arise - in order to better understand the mechanistic basis for OC protection against ovarian cancer. We think the protection results from reduced cell proliferation. It will lay the foundation for further studies to ensure that the protection against ovarian cancer afforded by 'traditional' OCs is not lost with alterations in OC formulation, and, if possible, to guide development of OC formations to improve further on the protection afforded by OCs.
NCT02266641
Parental one-carbon nutrient intake (folic acid and choline) and the genetic polymorphisms of one-carbon metabolic enzyme were interact with regulating embryonic one-carbon metabolic environment, affect fetal DNA and RNA biosynthesis and methyl modification of the genome molecule, to promote the individual nutrient growth factor of growth and development. Inadequate maternal one-carbon nutrient intake combined with genetic polymorphisms of one-carbon enzymatic mutation, causing one-carbon malnutrition, change fetal methyl metabolic nutrition environment. It not only leads to fetal growth mutation - such as folate and choline deficiency, increasing the risk of fetal neural tube defect but also induce abnormal modifying of fetuses's post-genomic methylation markers, may alter imprinted genes function of progenitors, recompile threshold sensitivity or domain in regulation of metabolic reactions of offspring, resulting in long-lasting effect, increasing the risk of chronic diseases of offspring such as cancer. According to the National Nutrition Survey results show that a considerable proportion of the Taiwanese people had poor one-carbon nutritional status. 48% of women intake 66% below the recommended intake reference value of folate. Whether inadequate parental one-carbon nutrients intake combined with genetic polymorphisms of one-carbon enzymatic mutation will cause one-carbon malnutrition of fetus, affecting fetal growth and modifying the risk of cancer development relationship of offspring. It is due to the lack of local ethnic data and empirical scientific reference at home and abroad, so it can not plan an effective maternal and children nutrient education and prevention strategies about methyl nutrition for early cancer prevention for Taiwanese. Therefore, indigenous people is the intended population of study in this project, screening of healthy pregnant women with high risk factor for cancer and obese pregnant women, and detection of one-carbon nutrient intake and biochemical assessment of the nutritional status of the study group. Supplying nutrition education intervention or multivitamin supplement to improve the poor nutritional status of persons. Using related DNA methylation imprint marker about offspring growth and modifying development of cancer as assessment, this project explores the appropriate one-carbon nutrient intake in parents and children and the assessments in regulation of growth and reducing the cancer-related risk.
NCT01172886
Healthy women and women with breast cancer have been enrolled in our nested case-control study between 2008 and 2009 in order to evaluate the association between metabolic syndrome and breast cancer, analyzing anthropometric parameters blood pressure, assessing serum HDL-C, triglyceride, fasting plasma glucose, insulin, testosterone and uric acid levels and administering a questionnaire about physical activity, food intake, tobacco use, alcohol abuse, personal and familial history of disease. Our data support the hypothesis that metabolic syndrome may be an indicator of breast cancer risk in postmenopausal women. The change of the hormonal arrangement in postmenopausal, along with an increase in visceral adiposity, probably favour the hormone dependent cell proliferation, which drives tumorigenesis. Adjustments in lifestyle with physical activity intensification and healthy diet may represent modifiable factors on which sporadic breast cancer primary prevention may work on.