View clinical trials related to Endometrial Cancer.
Filter by:The investigators are interested in understanding how the patient has been doing since their surgery for endometrial cancer and if they are experiencing any symptoms related to lymphedema (swelling) in the your lower body. The investigators hope that information from the patient and others will help them improve care for women treated for endometrial cancer.
The investigators hypothesize that SLND (unlike lymphadenectomy) decreases complications such as hemorrhage, lower extremity lymphedema and lymphocyst formation while enhancing quality of life in EC patients with low risk for nodal involvement. The investigators also hypothesize that SLND is an effective method of staging these patients. Studies have shown that SLN mapping identifies positive lymph nodes in women with newly diagnosed EC and this prognostic information obtained from SLND could guide selection of adjuvant treatment and improve overall survival. Using SLND as an alternative to lymphadenectomy may also have additional medical and economic impacts, such as, decreasing prolonged hospitalization and associated costs by shortening overall surgery duration.
The aim of the study is to compare one-step nucleic acid amplification method (OSNA) with histological ultrastaging examination in the sentinel lymph node assessment in patients with endometrial cancer. The molecular biologic method OSNA is a modern way of metastatic spread detection in lymphatic nodes using quantitative reverse transcription polymerase chain reaction. Cytokeratin 19 (CK 19) was selected based on previous studies as the optimal mRNA marker (detected by OSNA). The intraoperative identification and rapid assessment of sentinel lymph nodes by OSNA could help to improve the standards of care in endometrial cancer patients.
The purpose of this study of MCS110 with PDR001 was to characterize the safety, tolerability, pharmacokinetics (PK), pharmacodynamics (PD), and antitumor activity of the combination of MCS110 with PDR001 in adult patients with solid tumors.
The endometrial cancers are among the most common malignancies in postmenopausal women with an incidence on the rise. It is most often a endometrioid adenocarcinoma (grade I, II, III). Other histological types are represented mainly by the clear cell carcinoma, papillary serous carcinoma, the carcinosarcoma. The main risk factors for endometrial cancer are age, obesity, diabetes, hypertension, hormone replacement therapy with estrogen and tamoxifen. Endometrial hyperplasia usually precedes endometrial cancer is classified by degree of cytologic atypia. Tumor grade quantifies the degree of differentiation and significantly influences the prognosis. Most research has been applied to define the role of estrogen in these cancers, however an accumulation of data indicate that the general process of tumorigenesis is closely related to immune and inflammatory microenvironment of the tumor. In fact, the microenvironment may be seen as a prognostic parameter of tumors or even predictive of therapeutic response. Recognized as the key molecules responsible for leukocyte recruitment into the tissues, the chemokine-receptor pairs are key players in the immune response, including the anti-tumor immune response but also the inflammatory response. The chemokine-receptor pairs are also involved in many other basic processes such as proliferation, survival or cell death. The objective of this study was to evaluate the prognostic value of the expression of the chemokine fractalkine (FKN) and its receptor CX3CR1 for the development of endometrioid adenocarcinomas. Chemokine FKN has the particularity to exist in two forms, a soluble (FKNs), like all chemokines and membrane form (FKNm). The FKNs, resulting from proteolytic cleavage of the FKNm, is provided with chémoattractantes properties. FKNm the present adhesion molecule properties. The role of FKN in cancer biology is complex. To date, the role of FKN in endometrial cancer has not been reported. Similarly, the precise role of FKN in the physiology of the endometrium is unknown. Nevertheless, fractalkine is one of the most expressed in endometrial chemokines. The expression of FKN and its CX3CR1 receptor is detected in the endometrium at all stages of the menstrual cycle. The respective levels of expression of each are fluctuating and largely dependent on the cycle of stage suggesting a possible control by estrogen and progesterone control described elsewhere ovarian level and endothelial. The cells of the endometrial glandular epithelium, macrophages, neutrophils and NK cells infiltrated in this tissue as well as the endothelial cells of blood vessels express FKN. Interestingly, all the cells mentioned above express CX3CR1, except for NK cells and unlike most tissues, the CD8 cells, present in the endometrium, do not express CX3CR1. In addition, the strongest expression of FKN and CX3CR1 cells by endometrial epithelial coincides with the maximum activity of the glandular epithelium suggesting a possible autocrine loop promoting cell proliferation of the endometrium. Concurrently with the peak of fractalkine, an accumulation of monocytes / macrophages and neutrophils is observed in the endometrium. It appears, moreover, that the balance between the soluble and membrane forms of FKN is important for positioning, infiltration and activity of immune cells within the endometrium. Current knowledge on the involvement of FKN / CX3CR1 axis in the physiology of the endometrium, although incomplete, point unequivocally the potential role of this ligand pair / receptor in the physiology of the tissue and also suggest that a malfunction of this axis could easily cause various diseases. Chronic inflammation of a tissue, largely dependent on macrophage infiltration rate, generally represents the tumor development. The endometrium is subjected to physiologically cyclic and regular inflammatory episodes, mirrors for the expression of chemokines and leukocyte infiltration. However, prolonged leukocyte infiltration establishing chronic or prolonged inflammation of the endometrium could help shape a favorable microenvironment in tumor development. Curiously, the axis FKN / CX3CR1 is involved in the development of several inflammatory diseases, including obesity and diabetes are also risk factors for endometrial cancer. A change in the expression of FKN and / or CX3CR1 is potentially capable of altering the inflammatory physiological cycle of the endometrium and therefore likely to be an element to consider in the evaluation of cancer risk factors of the endometrium. The assumption is that the FKN / CX3CR1 couple could intervene in the pathophysiology of endometrioid adenocarcinomas.
This is a preoperative window, phase 0 study of short-term atorvastatin treatment in obese women who are to undergo surgical staging for endometrial cancer.
The purpose of this study is to evaluate the safety of treatment with carboplatin and Abraxane in this patient population and determine the nature and degree of toxicities following treatment. The single stage open label Phase II feasibility study is designed to estimate the proportion of patients who can tolerate the proposed regimen for 6 cycles with no more than two dose level reductions.
This randomized double-blind, placebo-controlled phase 2 trial is evaluating superiority of Letrozole-palbociclib combination versus letrozole-placebo combination in ER positive endometrioid adenocarcinoma of endometrium
This study will evaluate the role of addition of an anti-angiogenic agent (Nintedanib/placebo) to conventional combination chemotherapy as concomitant and maintenance treatment in primary advanced or with first relapse of endometrial cancer.
In this study, the researchers want to learn more about Vigil and durvalumab in advanced women's cancers: 1) how much of Vigil in combination with durvalumab (MEDI4736) can be given with an acceptable level of side effects, 2) the effects of Vigil and durvalumab in combination (good and bad), 3) if Vigil will cause changes in cancer cells that may help durvalumab attack the cancer, and 4) whether or not Vigil and durvalumab will slow your cancer or stop your cancer from getting worse. Combining Vigil with durvalumab will allow the former to induce (or increase) the infiltration of activated T cells into tumors, and in addition, to enhance PD-L1 (programmed cell death ligand 1) expression. Consequently, the response rate of historically low or un-responsive cancer will be increased with the combination of Vigil and anti PD-L1.