View clinical trials related to Ovary Cancer.
Filter by:Prospective, multi-center, non-randomized study to assess the ability of the Cytuity device to collect cell samples from the fallopian tube that can be evaluated for the presence or absence of malignancy.
This is an open-label, single arm study to explore whether 18F-ALF-NOTA-PRGD2 PET/CT scan can predict the efficacy and adverse events of apatinib in patients with malignancies. Integrin αvβ3 has been shown to play an important role in angiogenesis and up-regulated obviously in various types of tumor cells and activated endothelial cells. The arginine-glycine-aspartic acid (RGD) tripeptide sequence can bind to integrin αvβ3 with high affinity and specificity. The 18F-ALF-NOTA-PRGD2 will highly combine with αvβ3, and thus will monitor the antiangiogenic status.In the current study, investigators propose to evaluate the feasibility of 18F-RGD PET/CT in monitoring efficacy and adverse events of apatinib in malignancies.
The purpose of the trial is to evaluate efficacy and safety of continued treatment with tisotumab vedotin.
Phase 1 A: First-in-human phase 1 study to determine safety of NP-G2-044 when given orally on a daily X 28 days followed by a 14 day rest period.
This is a Phase Ib study to look at the combination of an antibody immunization vaccine strategy using oregovomab and an investigational stage immune booster (poly ICLC / Hiltonol), both of which have previously been used in combination with other cancer treatments and demonstrated to be active in advanced cancer, but which have not previously been used together. This study will assess the approach as to whether these two drugs can safely add to the response seen with either drug alone, both of which have doses that are based on prior studies. Subjects with stable disease for whom a 12 week break from therapy for their persistent and progressive advanced ovarian cancer is appropriate, who have signed informed consent and for whom baseline clinical information is completed, will receive 4 cycles of oregovomab/Hiltonol immunization every three weeks (weeks 0, 3, 6, and 9). Blood will be obtained for to look for a CA125 specific T cell response at 12 weeks before initiating any additional therapy according to the best clinical judgment of the investigator. At week 16 the subjects will receive a final dose of the combination of oregovomab/Hiltonol and at week 17 will have an additional blood draw for analysis of T-cell response.
This study looks to enroll subjects with ovarian cancer who will be having standard of care surgery to remove ovarian cancer tumors. The main aim of this study is to be able to observe how EC1456 has been taken in and broken down inside tumors. The effect of EC1456 on the tumor will also be studied. This study will also help us compare the amount of EC1456 seen in tumors and how the tumors are imaged by the 99mTc-etarfolatide single-photon emission tomography (SPECT) or single-photon emission tomography with in-line x-ray computed tomography (SPECT/CT). All subjects will undergo a 99mTc-etarfolatide SPECT or SPECT/CT scan within 2 weeks prior to EC1456 administration. Individual subjects will then receive 1 of the following 2 doses of EC1456 pre-operatively: - 4 mg/m2 - 8 mg/m2 EC1456 will be administered at 1 of the following 2 time points: - <8 hours before planned surgery - 48±4 hours before planned surgery Blood will be collected for pharmacokinetic (PK) studies right after EC1456 dosing and again right before surgery. At the time of surgery, tumor samples will be removed and sent to Endocyte for analysis.
This is a single-center prospective clinical trial to evaluate non-inferiority of indocyanine green guided sentinel lymph node biopsy compared with the gold standard Technecium99 guided sentinel lymph node biopsy in patients with cancers and subjected to surgery. The diagnostic performance and the tolerance of indocyanine green (ICG) to the radio-isotope (Techniciun99) in the detection of sentinel lymph nodes will be assess using an "Optonuclear" probe (EURORAD S.A.) and QUEST camera
Brain metastases are the most common intracranial malignancy occurring in 20-40% of all cancers, and the presence of CNS metastases is associated with a poor prognosis. As such, the median overall survival of patients with symptomatic brain lesions is a dismal 2-3 months regardless of tumor type. Because standard chemotherapy largely does not cross the blood brain barrier at a meaningful concentration, standard treatment is limited and usually involves surgical resection and/or stereotactic radiosurgery for isolated lesions and whole brain radiation for multiple lesions. Unfortunately, the median overall survival is only improved by about 6 months with this multimodality approach2, and there is a paucity of second-line therapies to treat recurrence. Furthermore, re-resection and re-radiation are often not feasible options due to concern for increasing complications or neurotoxicity, respectively. Thus, there is a dire clinical need for additional treatment options for this patient population. Checkpoint blockade therapy, in particular PD-1 and PD-L1 inhibition, has recently shown clinical efficacy in multiple types of solid tumors. The investigators propose to study the efficacy of checkpoint blockade therapy in patients with solid tumors and refractory/recurrent brain metastases. The investigators will assess the efficacy of MEDI4736, a novel PD-L1 inhibitory monoclonal antibody, in this study.
The investigators propose to evaluate the feasibility, safety, and preliminary efficacy of delivering online, adaptive magnetic resonance imaging (MRI)-guided and gated stereotactic body radiation therapy for patients with recurrent or metastatic ovarian cancer on a novel, integrated Co-60 MRI treatment machine. To best assess this technology, the investigators will focus on patients that have no more than three sites of progressive disease within the central thorax, liver, and/or non-liver abdominopelvis to receive adaptive, MRI-guided and gated SBRT with MRI simulation. Patients will be treated in five fractions over one to two weeks. By adhering to strict normal tissue constraints, expected toxicity will be within the current standard of care but will allow adaptation based on daily anatomic changes. The prescription dose will be determined based on hard normal tissue constraints, and capped at 10Gy per fraction. Although the long term goal will be to achieve improved local control and disease-free survival with reduced toxicity, the present study will be driven by the short term goal of demonstrating the feasibility of this novel treatment approach for recurrent or metastatic ovarian cancer.
The purpose of the trial is to establish the tolerability of tisotumab vedotin (HuMax-TF-ADC) dosed three times every four weeks (3q4wk) in a mixed population of patients with specified solid tumors.