View clinical trials related to Endometrial Cancer.
Filter by:The SISTER study is a randomized trial, looking at various modalities of social support for Black patients undergoing treatment for endometrial cancer. There are three study arms: group support, 1:1 peer support, and enhanced usual care. The primary outcome is treatment completion, and the secondary outcome is social isolation.
This is a Phase 1, open-label, multicenter, dose-escalation and expansion study evaluating the safety, tolerability, PK, pharmacodynamics, and clinical antitumor activity of XB002 administered IV q3w alone and in combination with nivolumab to subjects with advanced solid tumors.
Adjuvant radiotherapy (RT) plays an important role in reducing the risks of local recurrence after surgery in uterine cancers. Standard adjuvant pelvic radiation treatment targets the pelvic lymph nodes, the post-operative bed, and the upper vagina and is typically treated with intensity modulated radiation therapy (IMRT) which has been shown to improve patient reported gastrointestinal (GI) and genitourinary (GU) toxicities. Although pelvic radiation has been shown to be effective at decreasing locoregional recurrences, patient quality of life and experience can be significantly impacted as pelvic RT comprises of daily radiation for 25 daily treatments, which can be a substantial burden on patients with this disease. Hypofractionated radiotherapy to a dose of 30 Gy in 5 fractions (6 Gy given every other day) for adjuvant radiation treatment in uterine cancer is hypothesized to result in similar rates of acute gastrointestinal toxicities as conventional fractionated radiation.
Advanced technology has enabled radiation oncologists to more accurately and precisely target radiation to areas at risk while maximally sparing healthy tissue. A secondary result of these technologic advances has been the increased utilization of hypofractionationed treatment protocols, since the combined ability to better visualize and precisely deliver radiation to target volumes has allowed radiation oncologists to leverage the therapeutic ratio toward higher target doses whilst maintaining safe doses to the pertinent organs-at-risk. The spectrum of hypofractionation ranges from what are considered moderate (ie. 2- 5 Gy / fraction) into the realm of what is more commonly referred to as stereotactic body (SBRT), generally >5 Gy / fraction. There is growing evidence demonstrating both safety and efficacy for SBRT. The investigators propose that these advantages are translatable to the adjuvant treatment of endometrial cancer. The investigators submit that a prescription dose of 30 Gy in 5 fractions. Through precision delivery and careful dosimetry the treatment should be safe and well tolerated with minimal impact on patient quality of life.
This phase I/II trial evaluates the highest safe dose, side effects, and possible benefits of tegavivint in treating patients with solid tumors that has come back (recurrent) or does not respond to treatment (refractory). Tegavivint interferes with the binding of beta-catenin to TBL1, which may help stop the growth of tumor cells by blocking the signals passed from one molecule to another inside a cell that tell a cell to grow.
Through this clinical trial, the investigators aim to verify the usefulness and stability of sentinel lymph node mapping in endometrial cancer of clinical stage I-II.
The TCGA project identified four distinct prognostic groups of endometrial carcinoma (EC) based on molecular alterations: (i) the ultramutated subtype that encompasses POLE mutated (POLE) cases; (ii) the hypermutated subtype, characterized by MisMatch Repair deficiency (MMRd); (iii) the copy-number high subtype, with p53 abnormal/mutated features (p53abn); (iv) the copy-number low subtype, known as No Specific Molecular Profile (NSMP). Although the prognostic value of TCGA molecular classification, NSMP carcinomas present a wide variability in molecular alterations and biological aggressiveness. Given that the study aims to evaluate the miRNA expression profile to identify novel potential biomarkers to better stratify the EC patients, taking into account the molecular status
To assess the feasibility of an expedited referral process for the obese endometrial cancer or EIN patient from her gynecologic oncologist to the Brigham Center for Metabolic and Bariatric Surgery (CMBS) in order to undergo concurrent weight loss surgery and hysterectomy within 8 weeks of first appointment with a gynecologic oncologist (or 12 weeks for EIN patients).
In this prospective study, we aimed to investigate whether serum and abdominal washing fluid CA-125 levels correlated with postoperative histopathological parameters in patients with endometrial carcinoma.
This project is about exploring a novel method to detect ovarian and uterine cancers earlier and better. More precisely, a high-performance radioactive estrogen analog will be used to visualize hormone-sensitive uterine and ovarian tumors using PET imaging. Not only this imaging methodology could improve the whole-body assessment of those diseases, but will also hint clinicians about the optimal course of therapy to undertake. The lead investigator's team designed in the past years an innovative radioactive estrogen derivative tracer (4FMFES) for the medical imaging modality termed Positron Emission Tomography (PET). The compound was first shown to be safe for human use. Recently, a clinical trial demonstrated that 4FMFES-PET is superior to any existing comparable tracer for detection of hormone-sensitive breast cancer patients. 4FMFES is particularly useful to pinpoint unsuspected metastases early, which allowed better breast cancer patient management and staging. 4FMFES and standard FDG PET imaging were shown to be complementary in breast cancer, the use of both techniques together providing a detection rate nearing 100%. Since ovarian and uterine cancers are about as likely to be targeted by 4FMFES as breast cancer, the use of this novel precision imaging method will be adapted to those other indications. In general, the sooner a cancer is diagnosed and treated, the better the outcome of a patient will be. Gynecological cancers lack precise screening and detection tools. In particular, while a majority of uterine cancers are relatively well managed, patients burdened with metastatic burden have a much worse prognosis, and precise and early detection of those lesions will greatly help clinicians to better treat those complicated cases. As for ovarian cancers, they are usually devoid of clinical symptoms until late onset, which partly explain the high mortality rate of this disease. Hence, for both diseases, a precision, whole-body imaging technique will allow earlier assessment, followed by earlier intervention, resulting in improved survival rate and better quality of life for patients.