View clinical trials related to Neoplasms.
Filter by:The purpose of this study is to evaluate the usefulness of diluted and non-diluted DuraSeal product as a spacer between prostate and rectum in prostate cancer low-dose brachytherapy.
To identify the maximum tolerated dose (MTD) of oral azacitidine on different treatment schedules in Japanese subjects with hematological neoplasms
The purpose of this study is to compare progression-free survival (PFS) in patients with advanced/metastatic breast cancer who have a BRCA mutation when treated with niraparib as compared to those treated with physician's choice
To assess the safety and tolerability at increasing dose levels of PF-06263507 in patients with advanced solid tumors in order to determine the maximum tolerated dose and select the recommended Phase 2 dose.
This phase II trial studies how well haploidentical donor hematopoietic stem cell transplant works in treating patients with hematologic malignancies. Giving chemotherapy and total-body irradiation before a donor stem cell transplant helps stop the growth of cancer cells. It may also stop the patient's immune system from rejecting the donor's stem cells. Giving an infusion of the donor's T cells (donor lymphocyte infusion) may replace the patient's immune cells and help destroy any remaining cancer cells. When the stem cells from a related donor, that closely matches the patient's blood, are infused into the patient they may help the patient's bone marrow make stem cells, red blood cells, white blood cells, and platelets.
The prognosis for patients with advanced oesophago-gastric cancer is poor. Approximately 16,000 patients in the United Kingdom die from the disease. In spite of new chemotherapy regimens, the average survival for these patients is around 9 months from diagnosis. Omegaven is an infusion comprising omega-3 fish oils. There is evidence that omega-3 fish oil supplementation can improve general well-being and quality of life in patients receiving palliative chemotherapy for a number of different cancer types. It has also been suggested that omega-3 fish oil supplementation may reduce the toxicity of chemotherapy. This clinical trial aims to see whether the addition of Omegaven to EOX chemotherapy, the most widely used regimen for patients with advanced oesophago-gastric cancer, will make this drug regimen more effective at killing oesophago-gastric cancer cells, such that disease progression is delayed. Forty-five patients who have been diagnosed with advanced oesophago-gastric cancer will be recruited over a two year period to receive standard chemotherapy and omega-3 fish oil supplementation. The results in these 45 patients will be compared to a matched historical control group of patients who have received identical chemotherapy. If results suggest that the combination of EOX and Omegaven is sufficiently effective, tolerable and feasible then it will be the intention of the trial team to take the combination forward to treat patients with advanced oesophago-gastric cancer in a randomised study.
Background: Pilot study to assess feasibility for combining treatment modalities that should be synergistic (radiation and thermal ablation). Thermal ablation with Radiofrequency Ablation (RFA) and microwave ablation (MWA) are standard treatments for focal neoplasms in the liver. High volume or scattered locations of tumor burden results in inability to successfully use this technology for a large proportion of patients with hepatic neoplasms. Methods to enhance treatment volumes could be advantageous in potentially increasing the indications for thermal ablation or the number of patients benefitting from local ablation. Primary objective: To determine the safety of combining 2 standard therapies (thermal ablation and external beam radiation therapy) for liver neoplasms up to 10 cm diameter. Eligibility: Patients greater than 18 years of age with pathologically proven unresectable primary or metastatic hepatic neoplasms Patients whose extent of hepatic metastases represents approximately less than 60% of total liver volume AND whose extrahepatic metastatic disease is determined to be minimal ECOG performance status of less than or equal to 2 and a life expectancy of more than 3 months Patients with a history of chemotherapy, radiation therapy, or biological therapy for at least 4 weeks prior to starting study treatments, and 4 weeks after treatments Patients must not have an acute, critical illness If clinical or imaging evidence for cirrhosis present, then Bilirubin must be less than 3 mg/dl and Child-Pugh Classification A, (Class B & C are excluded) Design: Patients will undergo external beam radiation as well as thermal ablation according to standard operating procedures of the NCI and NIH CC. Patients will be monitored using the standard imaging studies when clinically warranted. Patients may be treated with a second (or more) thermal ablation procedure ALONE if it is deemed beneficial for the patient by the investigator. The sample size will be 10 evaluable patients
The purpose of this study is to: - Determine how well people tolerate sodium bicarbonate taken by mouth in higher doses than those usually given for heartburn. - Determine if sodium bicarbonate can reduce cancer-related pain.
Unfortunately, despite the best clinical efforts and breakthroughs in biotechnology, most patients diagnosed with pancreatic cancer continue to die from the rapid progression of their disease. One primary reason for this is that the disease is typically without symptoms until significant local and/or distant spread has occurred and is often beyond the chance for cure at the time of the diagnosis. The lack of any treatment to substantially increase long term survival rates is reflected by the poor outcomes associated with this disease, specifically time to disease progression and overall survival. However, another important part of the body is now being looked at as a target for therapy against this disease - the immune system. Scientists have clearly shown that pancreatic tumor cells produce a number of defective proteins, or express normal proteins in highly uncharacteristic ways, as part of this cancer. In some cancers, these abnormalities can cause an immune response to the cancer cells much in the way one responds to infected tissue. In progressive cancers however, the immune system fails to effectively identify or respond to these abnormalities and the cancer cells are not attacked or destroyed for reasons not yet fully understood. This clinical trial proposes a new way to stimulate the immune system to recognize pancreatic cancer cells and to stimulate an immune response that destroys or blocks the growth of the cancer. This new method of treatment helps the immune system of pancreatic cancer patients to "identify" the cancerous tissue so that it can be eliminated from the body. As an example, most people are aware that patients with certain diseases may require an organ transplant to replace a damaged kidney or heart. After receiving their transplant, these patients receive special drugs because they are at great danger of having an immune response that destroys or "rejects" the transplanted organ. This "rejection" occurs when their immune system responds to differences between the cells of the transplanted organ and their own immune system by attacking the foreign tissue in the same way as it would attack infected tissue. When the differences between foreign tissues and the patient's body are even larger, as with the differences between organs from different species, the rejection is very rapid, highly destructive, and the immunity it generates is longlasting. This is called hyperacute rejection and the medicine used to immunize patients in this protocol tries to harness this response to teach a patient's immune system to fight their pancreatic cancer just as the body would learn to reject a transplanted organ from an animal. To do this, Algenpantucel-L immunotherapy contains human pancreatic cancer cells that contain a mouse gene that marks the cancer cells as foreign to patient's immune systems. The immune system therefore attacks these cancer cells just as they would attack any truly foreign tissue, destroying as much as it can. Additionally, the immune system is stimulated to identify differences (aside from the mouse gene) between these cancer cells and normal human tissue as foreign. This "education" of the immune system helps treat the patient because pancreatic cancer cells already present in a treated patient are believed to show some of the same differences from normal tissue as the modified pancreatic cancer cells in the product. Due to these similarities, the immune system, once "educated" by the Algenpantucel-L immunotherapy, identifies the patient's cancer as foreign and attacks. The chemotherapy combination to be used in this study has been shown to improve survival in advanced pancreatic cancer and is being combined with an experimental pancreatic cancer immunotherapy that stimulates the immune system to recognize and attack the cancer. One goal of this study is to determine whether chemotherapy and immunotherapies can work cooperatively to increase anti-tumor effects to levels beyond what would be seen with either treatment alone. In this experimental study, all patients are given a strong combination of anti-tumor chemotherapies while some patients are also given injections of an immunotherapy drug consisting of two types of pancreatic cancer cells that we have modified to make them more easily recognized and attacked by the immune system. We propose to test this new treatment protocol in patients with locally advanced pancreatic cancer to demonstrate that treatment with the immunotherapy increases the time until the tumor progresses or increases overall survival when given in combination with the current standard of care therapy for this disease.
Open label, dose finding trial to assess the efficacy of Treg/Tcon addback to partially matched related donor stem cells. The maximum tolerated dose will be established using 3 subjects per dose level, with an expansion cohort at the maximum tolerated dose.