Spectroscopy in Ovarian Cancer
Ovarian CancerOvarian Neoplasms2 moreOvarian cancer is the eighth most common cause of cancer death in the world. Advanced stage at diagnosis is associated with lower survival rates, thus early detection appears to have an important role. Raman Spectroscopy is a non-invasive technique that uses the interaction of light to identify the composition of the sample tested. The aim of the project is to explore the use of spectroscopic techniques in the detection of ovarian cancer. There are two different assessments within the project: Identify ovarian cancer in blood - Raman spectroscopic analysis will be performed on blood plasma taken from patients with suspected ovarian cancer. Detect active cancer within post chemotherapy fibrotic tissue - Ex vivo Raman spectroscopic analysis of peritoneal, omental or ovarian tissues collected from patients undergoing surgical treatment for ovarian cancer. The results of the spectroscopy will be correlated to clinical outcome and histological diagnosis respectively.
Genetic Predisposition to Breast and Ovarian Cancer: Prospective Study of BRCAx Gene Mutation
Breast CancersOvarian CancersCohort of subjects carrying a BRCA gene mutation: genetic predispositions to breast and ovarian cancers
Clinical Pre-screening Protocol for Ovarian Cancer
Ovarian CancerThe pre-screening study is established to pre-screen tumor samples from ovarian cancer patients to identify if they, at a later stage of their disease, will benefit from treatment with any investigational cancer drugs available to Oncology Venture, when these drugs are approved for future clinical studies by local authorities.
The INFLUENCE of Cytoreduction on PRO in EOC
Epithelial Ovarian CancerBased on an improved understanding of how the extent of successful cytoreduction is influenced both by inherent tumor biological characteristics as well as the aggressiveness of the surgical approach this project aims to better define the value of cytoreduction and to use the knowledge gained to develop more individualized therapy and follow-up. This will be achieved through a translational biomedical research approach. Due to the research group's traditions clinical phenotyping, biomarker identification, and clinical trials will be the focus.
Cascade Genetic Testing for Hereditary Breast/Ovarian Cancer and Lynch Syndrome in Switzerland
Hereditary Breast and Ovarian CancerLynch SyndromeBreast, colorectal, ovarian, and endometrial cancers constitute approximately 30% of newly diagnosed cancer cases in Switzerland and affect more than 12,000 individuals annually. Several hundred of these patients are likely to carry known genetic mutations associated with HBOC or LS. Genetic testing for hereditary susceptibility to cancer can prevent many cancer deaths through early identification and engagement in high-risk management care that involves intensive surveillance, chemoprevention and/or prophylactic surgery. However, current rates of genetic testing indicate that many Swiss mutation carriers and their family members do not use cancer genetic services (counseling and/or testing), either due to lack of coordination of care or due to lack of communication about the mutation among family members. Cascade screening identifies and tests family members of a known mutation carrier. It determines whether asymptomatic family members are carriers of the identified mutation and proposes management options to reduce harmful outcomes. Robust evidence of basic science and descriptive population-based studies in Switzerland support the necessity of cascade screening for HBOC and LS. However, translation of this knowledge into public health interventions is lacking. Specific Aims of the CASCADE study are: Survey Index Patients diagnosed with HBOC or LS from clinic-based genetic testing records and determine their cancer status and surveillance practices; needs for coordination of medical care; psychosocial needs; patient-provider and patient-family communication needs; quality of life; willingness to serve as advocates for cancer genetic services for blood relatives. Survey first- and second-degree relatives, and first cousins identified from pedigrees and/or family history records of HBOC and LS Index Patients and determine their cancer and mutation status; cancer surveillance practices; needs for coordination of medical care; barriers and facilitators to using cancer genetic services; psychosocial needs; patient-provider and patient-family communication needs; quality of life; willingness to participate in a study designed to increase use of cancer genetic services. Explore the influence of patient-provider communication about genetic cancer risk on patient-family communication and the acceptability of a family-based communication, coping, and decision support intervention with focus group(s) of mutation carriers and blood relatives.
Laboratory Study of Cancer & Immune Cells in Ascites Fluid of Ovarian Cancer Patients to Test Alternative...
Ovarian CancerAscites samples from women undergoing surgery for ovarian cancer will be collected for use in translational research.
Leveraging Methylated DNA Markers (MDMs) in the Detection of Endometrial Cancer, Ovarian Cancer,...
Endometrial CancerCervical Cancer4 moreThe overarching objective of this project is to develop a pan-gynecologic cancer detection test using gynecologic (unique endometrial, cervical, and ovarian cancer) cancer-specific methylated DNA markers and high-risk human papilloma virus (HR-HPV) detected in vaginal fluid and/or plasma. This proposal defines Phase II MDM-based cancer detection studies in endometrial cancer (EC) and endometrial hyperplasia with atypia (AEH) in tampon-collected vaginal fluid and 2) ovarian cancer (OC) in plasma and tampon-collected vaginal fluid. Additionally, it defines necessary Phase I MDM-based cancer detection and exploratory aims to test novel cervical cancer (CC) MDMs and test the specificity of cancer-specific MDMs among various common benign gynecologic pathologies.er detection and exploratory aims to test novel cervical cancer MDMs and test the specificity of cancer-specific MDMs among various common benign gynecologic pathologies.
PET/MR Versus CECT Scans in Imaging Patients With Ovarian Cancer or Highly Suspected Ovarian Cancer...
Malignant Ovarian NeoplasmOvarian CarcinomaThis trial studies how well positron emission tomography/magnetic resonance (PET/MR) versus contrast enhanced computerized tomography (CECT) scans work in locating ovarian cancer tumors in patients with known or suspected ovarian cancer. PET, MR, and CECT scans use different methods to create images of areas inside the body. This trial is being done to see if PET/MR scans may help doctors locate ovarian cancer tumors, predict how well these tumors may be removed during surgery, and predict how patients respond to platinum-based chemotherapies compared to standard of care CECT scans.
Endocrine Disruptors and Life STILe in Breast Cancer Development
Breast CancerBRCA1 Mutation4 moreThe aim of the study is to evaluate the role of lifestyle and environmental factors ( environmental contaminants such as Cd) on the penetrance of BRCA1/2 genes in BRCAm patients with Breast cancer and/or Ovarian cancer and in BRCAm healthy women without cancer diagnosis
A Prospective Cohort Study of 68ga-FAPI-pet-ct Versus FDG-pet-ct for Ovarian Cancer
Ovarian CancerA study to discuss the advantage of Fapi PET- CT in the initial diagnosis staging and lesion determination of ovarian cancer,whether it can be a evaluation strategy as an R0 evaluation tool or a prediction tool of chemotherapy response and evaluation of prognosis.