View clinical trials related to Esophageal Cancer.
Filter by:The goal of this research study is to learn if a new type of PET scan (18F-FLT) can help to better detect changes of tumor growth rate (or how active) in esophagus cancer and lung cancer Researchers will study at what time during treatment the 18F-FLT PET scan should be given to get the best results. A Positron Emission Tomography (PET) scan is a type of scan that uses a radioactive solution to locate cancer cells inside the body. Using the PET scan, doctors can locate solid tumors and collect information about how "active" the cancer cells are. For this study, a new type of solution, [F-18]-fluoro-L-thymidine (FLT), will be used. FLT can detect actively growing tumor, and researchers hope that FLT may be able to help provide information about how well esophagus cancer treatment is working. This information could be used to help predict if the cancer will respond to treatment. All enrolled subjects will receive PET/CT imaging at pre-Neoadjuvant Therapy and post-3 weeks Neoadjuvant Therapy (3 weeks from the start of Neoadjuvant Therapy) prior to the surgery. At each time of the PET/CT procedure, the subject will receive an injection of FLT which is an investigational pharmaceutical labeled with radioactive fluorine. 45-60 mines after the FLT injection, the scan will be performed. Each scan might take 10-15 minutes. Participation in this pilot study will not change the patients normal chemotherapy, radiation treatment, and surgery recommended the patients physician as parts of their standard of care.
The purpose of the study is to estimate the rate of response for patients with ovarian, non-small cell lung, prostate, colorectal, gastroesophageal, and head and neck cancers who are administered LY2523355.
Esophageal cancer is common in some areas , ranking as the fourth leading cause of death from cancer in China and sixth worldwide. Although the prognosis of surgical resection for esophageal cancer has been improved, more than 50% of such patients are inoperable and have to undergo palliative treatments because of late stage cancer or metastasis. Dysphagia is the predominate symptom of patients with inoperable esophageal cancer. To relieve the dysphagia and improve the quality of life of such patients, brachytherapy has previously been utilized. Recently, stent placement has been widely accepted to be an option for palliation of the symptoms due to the esophageal strictures. Brachytherapy and esophageal self-expanding stent insertion have longer benefit. Stent insertion provides fastest improvement of dysphagia.However, recurrence of the neoplastic stricture remains a challenge after stent placement, complications in later setting occur and require further endoscopic treatment. Brachytherapy has slower onset of benefit but has fewer complications and longer benefit.To combine the advantages of the immediate relief of the esophageal dysphagia with the stent placement and radiation therapy with brachytherapy, a novel esophageal stent loaded with 125I seeds has been developed in the authors' institute. The technical feasibility and safety with this new stent has been demonstrated to be adequate in a healthy rabbit model. And a small-sample and unicentric prior clinical trial in the authors' institute certificated the novel esophageal stent can relieve the dysphagia caused by advanced esophageal cancer rapidly and improve the quality of life markedly. This current multicentric randomized clinical trial is further studying the novel esophageal stent loaded with 125I seeds to see how well they work compared with a conventional covered stent in patients with malignant dysphagia caused by advanced esophageal cancer.
Worldwide, esophageal cancer is the 6th most common cause of cancer-related death. Currently curative resection remains the cornerstone of the therapy. Despite advances in anesthesia, operative techniques and postoperative management, postoperative pulmonary complications (PPCs) occur frequently accounting for about 30% of all postoperative complications. Most importantly, PPCs have much been associated with postoperative mortality. The diaphragm is the most important respiratory muscle and its respiratory function would be inevitably damaged when esophagectomy is performed through the left posterolateral thoracotomy (Sweet procedure) because the diaphragm must be dissected for the purpose of stomach moralization. Meanwhile, Ivor-Lewis approach may effectively avoid diaphragm injury because the stomach can be managed through a laparotomy whereas an additional abdomen incision is needed. Both procedures are routinely used in practice when surgically managing esophageal cancer. The investigators hypothesize that Ivor-Lewis procedure might be superior to the left-thoracotomy route during esophagectomy in preventing PPCs.
The purpose of this study is to evaluate the investigators ability to obtain reliable and meaningful 11C-Choline PET-CT images of esophageal cancer.
Our research of the biology of upper gastrointestinal cancers involves the study of tissue samples and cells from biopsies of persons with gastric or esophageal cancer or blood samples from upper gastrointestinal cancer patients and persons at high inherited risk for these cancers. We hope to learn the role genes and proteins play in the development of gastric and esophageal cancer.
The aim of this study is to compare, specialist nurse home visits in patients with inoperable cancer in the esophagus or cardia, who are palliated with Self Expanding Metal Stent, to standard patient contact with regards to quality of life, number and character of reinterventions and cost-effectiveness.
The purpose of this study is to determine the safety and maximum tolerated dose of Photocyanine injection in photodynamic therapy of malignant tumor (especially skin cancer and esophageal cancer). Projected accrual: A total of 18-24 patients will be accrued for this study.
The purpose of this study is determine if performing endobronchial ultrasound (EBUS) in addition to standard endoscopic ultrasound (EUS) can increase the precision and accuracy of staging esophageal cancer in comparison to EUS alone. The expectation is that EBUS can be used to biopsy lymph nodes that: (1) because of their position in the mediastinum would be inaccessible to EUS, or (2) would be inaccessible due to their position behind the esophageal tumor.
The survival of esophageal cancer and stomach cancer (EGC) at 5 years is less than 30%. Pravastatin is a potent inhibitor of HMG-CoA reductase inhibitor that has shown increased survival in patients with advanced hepatocellular carcinoma. The objective is to evaluate the efficacy of treatment (increase in survival and recurrence-free period of the disease) with pravastatin in patients with advanced EGC. The investigators have designed a randomized, controlled and open. Advanced stage was considered for patients with T4 or N1 or M1 according to the TNM classification. It has been estimated sample size per treatment arm of 73 patients (146 patients in total). Randomization was done on a stratified by location (CE or CG). All patients receive hatitual treatment (surgery and / or chemotherapy and / or radiotherapy and / or palliative) for each of their clinical conditions. The experimental group will receive one tablet of 40 mg of pravastatin orally every 24 hours (breakfast) for 2 years. There will be a monthly monitoring of these patients for at least 2 years which includes an analytics. Every 2 months there will be an abdominal-pelvic CT scan to assess progression and treatment response.