64 Clinical Trials for Various Conditions
This pilot clinical trial studies how well a swallowable sponge cell sampling device and next generation sequencing work in detecting esophageal cancer in patients with low or high grade dysplasia, Barrett esophagus, or gastroesophageal reflux disease. Checking biomarkers in abnormal esophageal cells using a swallowable sponge cell sampling device and next generation sequencing may improve diagnosis and treatment of esophageal cancer.
This study will test the safety and effectiveness of esophageal transoral endoscopic circumferential resection (TECR) using an extracellular matrix (ECM) placement to treat Barrett's esophagus in patients with high-grade dysplasia (HGD). Endoscopic circumferential resection using ECM placement has been introduced as a less invasive, externally incision-less approach to treat patients with esophageal high grade dysplasia; a pre-cancerous condition. In this procedure, the entire length of diseased (abnormal) mucosa (esophagus lining) will be removed using an endoscope that will be inserted through the mouth. The ECM will be placed over the area that is being removed with a temporary, expandable stent to prevent narrowing of the esophagus. The stent is being used to hold the ECM in place as the body begins the healing process. This stent will be removed 14 days (±4 days) after this procedure. Follow-up esophagogastroduodenoscopies (EGD), barium swallow x-ray tests, and questionnaires will take place for 12 months following the procedure. The result of this study may help doctors determine if this procedure would be a more effective treatment option for HGD in the future.
Prospective randomized study comparing radiofrequency ablation and cryotherapy for the endoscopic treatment of Barrett's esophagus. The study is powered to assess clinical equivalence (non-inferior) of the treatment regimens.
Patient's with High Grade Dysplasia, Carcinoma in situ or Early Adenocarcinoma in Barrett's Esophagus are injected with HPPH and one day later are endoscopically treated with light from a laser.
The purpose of this study is to evaluate the safety and effectiveness of the CryoSpray Ablation System to treat esophageal low grade dysplasia (LGD) or high grade dysplasia (HGD) within Barrett's Esophagus (BE).
Barrett's esophagus with high-grade dysplasia is a premalignant condition caused by chronic reflux of gastric contents into the esophagus. High-grade dysplasia is the same as carcinoma-in-situ. If untreated, patients with this condition are at high risk for developing cancer of the esophagus. Cancer of the esophagus is a miserable disease that is difficult to treat and about 95% fatal after 5 years. To prevent progession to cancer of the esophagus several interventions are available and they include surgery, Photofrin photodynamic therapy, endoscopic mucosal resection and endoscopic thermal therapy. All of these modalities are uncomfortable, expensive and have associated risks. The oral agent, 852A stimulates the innate immune system in such a way as to eliminate early cancer. A similar dermatologic drug(imiquimod) is approved for treating the premalignant condition, actinic keratosis. If local therapy with imiquimod can eliminate a premalignant lesion in the skin, a similar acting drug should be able to do the same for a premalignant lesion in the lining of the esophagus. This study is designed to test that hypothesis.
RATIONALE: Laparoscopic-assisted surgery and video-assisted thoracoscopy are less invasive types of surgery for esophageal cancer that may have fewer side effects and improve recovery. PURPOSE: This phase II trial is studying how well laparoscopic-assisted surgery and video-assisted thoracoscopy work in treating patients who are undergoing esophagectomy for high-grade dysplasia of the esophagus or stage I, stage II, or stage III esophageal cancer.
The purpose of this study is to evaluate the safety and effectiveness of an experimental 20% betulinic acid ointment (BA ointment) as a treatment for dysplastic nevi with the potential to transform into melanoma.
This study is being done to test the usefulness of extracellular matrix (ECM) a thin sheet placed over the site after endoscopic mucosal resection to promote healing of the esophagus.
This study aims to develop a highly sensitive, specific, and cost-effective blood assay for the early detection of esophageal adenocarcinoma and its precursor lesions, using advanced machine learning and state-of-the-art biological analyses.
This is a prospective randomized clinical trial examining how IRIS (Intelligent Real-time Image Segmentation) affects biopsy patterns in VLE (Volumetric laser endomicroscopy).
Lay summary: Barrett's Esophagus (BE) involves a change of the esophagus lining (BE epithelium) which in a small proportion of patients could be the starting point for the development of cancer (esophageal adenocarcinoma). Currently, there is evidence that this change is initiated by acid reflux from the stomach which then could progress in a stepwise manner from the healthy epithelium to cellular changes (intestinal metaplasia, low-grade and high-grade dysplasia) and finally to adenocarcinoma. Surgery is considered the standard therapy for this cancer which involves the risk of death and complications with quality of life impairments. New possibilities for treatment have evolved with endoscopic therapies which allow for treatment of early changes of the epithelium (intestinal metaplasia and dysplasia) prior to the occurrence of cancer using either argon plasma coagulation (APC) or radiofrequency ablation (RFA). Both are established methods for eradication of BE by thermal ablation of the BE epithelium using high frequency current (HF). More advanced BE epithelium with early visible cancers are being treated by endoscopic mucosal resection (EMR). After EMR the residual Barrett's epithelium can also be removed by ablation with RFA or APC. Currently radiofrequency ablation (RFA) has been suggested as the standard therapy for BE treatment. Although effective in the eradication of the BE epithelium after RFA treatment the re-appearance of BE epithelium and the occurrence of complications such as strictures causing swallowing impairments for food have also been observed in clinical studies. A recently developed method is Hybrid argon plasma coagulation (ablation) \[HybridAPC® (HAPC)\] which combines argon plasma coagulation (APC) with a fluid injection function by a water beam. The water beam allows to establish a fluid cushion (normal sterile saline) right beneath the BE-epithelium prior to thermal ablation thereby protecting the esophagus wall from heat during ablation of epithelium with APC. The goal of this randomized controlled study is to investigate if HAPC is non-inferior to RFA in the stricture-free eradication of the dysplastic BE epithelium.
This clinical trial studies whether esophageal cytology plus fluorescence in situ hybridization (FISH) is equal to or better than esophago-gastro-duodenoscopy (EGD) or upper endoscopy for the early detection of esophageal cancer. Genes are the units of deoxyribonucleic acid (DNA) the chemical structure carrying genetic information that determine many human characteristics. Certain genes in cancer cells may determine how the tumor grows or spreads and how it may respond to different drugs. Part of this study is to test those genes in esophageal cells using FISH.
A Study to identify toxicity and optimal photodynamic treatment parameters using the photosensitizer 2-\[1-hydroxyethyl\]-2-devinylpyropheophorbide-a (HPPH) in high grade dysplasia, carcinoma-in-situ, or early adenocarcinoma in Barrett's esophagus.
This study is being done to find out if Photodynamic Therapy (treatment with a red light and a drug called photofrin) or Radiofrequency ablation works the same for patients who have biomarkers (abnormalities in molecules of cells that may or may not help predict cancer) present in their Barrett's esophagus as for patients who do not have biomarkers.
This study is being done to determine if a new endoscope will help doctors identify pre-cancer or early cancer lesions in patients who have Barrett's esophagus. This new endoscope allows the doctor to look at the lining of the esophagus in 3 different ways by modifying light.
This study aims to develop a highly sensitive, specific, and cost-effective blood assay for early detection of colorectal adenomas and cancer, using advanced machine learning and state-of-the-art biological analyses.
This randomized phase II clinical trial studies how well MUC1 peptide-poly-ICLC adjuvant vaccine works in treating patients with newly diagnosed advanced colon polyps (adenomatous polyps). Adenomatous polyps are growths in the colon that may develop into colorectal cancer over time. Vaccines made from peptides may help the body build an effective immune response to kill polyp cells. MUC1 peptide-poly-ICLC adjuvant vaccine may also prevent the recurrence of adenomatous polyps and may prevent the development of colorectal cancer.
The purpose of this study is to validate the ability of the STRATICYTE™ predictive model to predict the transformation of oral potentially malignant disorders (OPMDs) to oral squamous cell carcinoma (OSCC) in a retrospective cohort of patients who received biopsies.
This study is being done to see if treating residual Barrett's Esophagus after previously having undergone Radiofrequency ablation or Endoscopic Mucosal resection can be eliminated with focal cryotherapy.
This is a pilot study to test the short-term effectiveness of an alternative treatment approach for precancerous cells of the cervix. The study will also explore whether this new treatment is feasible to perform and if it is acceptable to patients.
You are invited to participate in a research study to develop new ways to look for abnormal areas/tissues of the esophagus. The current endoscopes used to look at the esophagus are very good, but if the area doesn't look different to the naked eye, then the endoscope can't improve on that. The investigators are looking at using special fluorescent stains in addition to special endoscopes designed to see abnormal areas that are not obvious to the naked eye. Currently specialized microscopes and fluorescent stains are used in clinical laboratories but it takes several days of processing to get results. It may be very helpful to look for areas to sample for abnormal tissue during the endoscopy procedure. You are being asked to let us use "fluorescent peptides" with a special endoscope that allow us to "see" your esophagus with both fluorescent and white light during your upper GI endoscopy procedure to help target your biopsies. Peptides are small chains of amino acids (the building blocks that make up proteins) linked together. Our peptide is a chain of 7 amino acids attached to a fluorescent dye called FITC (like the one used by your eye doctor). The investigators have prepared special "fluorescent peptides", that will "glow" when a special light is used that should help us separate normal tissue from abnormal tissue. In this study, the investigators will apply the special fluorescent peptides by a spray catheter to your esophagus to help us target you biopsies. Both routine and targeted biopsies will be taken as your endoscopist feels is indicated. This is a phase 1b study. This means that although the investigators have applied the peptide to 25 people in our first research study, the investigators still need to learn more about "fluorescent peptide" in people. The Food and Drug Administration (FDA) has not approved this agent, but is allowing us to test it in this study. The main goal of this study is to see if the peptide "glows" well and if the investigators can take pictures of the areas that do glow. This is a research study of the peptide and our ability to see it "light up or fluoresce". Being in this study and applying this peptide won't change how your biopsies are taken nor how your endoscopy is done.
The purpose of this study is to determine biomarkers which can predict response to ablation therapy in patients with Barretts esophagus.
You are invited to participate in a research study to develop new ways to look for abnormal areas/tissues of the esophagus. The current endoscopes used to look at the esophagus are very good, but if the area doesn't look different to the naked eye, then the endoscope can't improve on that. The investigators are looking at using special fluorescent stains in addition to special endoscopes designed to see abnormal areas that are not obvious to the naked eye. Currently specialized microscopes and fluorescent stains are used in clinical laboratories but it takes several days of processing to get results. It may be very helpful to look for areas to sample for abnormal tissue during the endoscopy procedure. You are being asked to let us use "fluorescent peptides" with a special endoscope that allow us to "see" of your esophagus with both fluorescent and white light during your upper GI endoscopy procedure to help target your biopsies. Peptides are small chains of amino acids (the building blocks that make up proteins) linked together. Our peptide is a chain of 7 amino acids attached to a fluorescent dye called FITC (like the one used by your eye doctor). The investigators have prepared special "fluorescent peptides", that will "glow" when a special light is used that should help us separate normal tissue from abnormal tissue. In this study, the investigators will apply the special fluorescent peptides by a spray catheter to your esophagus to help us target you biopsies. Both routine and targeted biopsies will be taken as your endoscopist feels is indicated. This is a phase 1 study. This means that this is the first time the investigators have used this kind of "fluorescent peptide" in people. The Food and Drug Administration (FDA) has not approved this agent, but is allowing us to test it in this study. The main goal of this study is to see if there are any side effects from using the peptide. Our second goal is to see if the peptide "glows" well and if the investigators can take pictures of the areas that do glow. This is the first test of this agent, so it won't be used to change how your biopsies are taken nor how your endoscopy is done.
The aim of this study is to develop a blood test to determine which patients are at risk for pre-cancerous colon polyps (ACPs: Advanced Colon Polyps). The telomere length of peripheral blood lymphocytes (PBLs) can be measured from a blood sample. Mechanistic pathways and the investigator's preliminary data support PBL telomere length as a biomarker for ACPs. The long-term goal of this project is to decrease deaths from colon cancer by using a blood test to target colonoscopy for those patients who are at high risk for pre-cancerous polyps.
The purpose of this study is to evaluate the treatment effect, depth of injury, and side effects using technology involving the spray of liquid nitrogen through a catheter (CryoSpray AblationTM, "CSA" or "cryospray therapy") onto healthy tissue via esophagogastroduodenoscopy (EGD) using surgical resection specimens from subjects undergoing esophagectomy.
The purpose of this study is to create a patient registry to collect and analyze post-510K approval information on subjects treated endoscopically with the CryoSpray Ablation™ System.
This is a single center study to evaluate the efficacy and safety of a new ablation technique involving the spray of liquid nitrogen through a catheter (cryotherapy) via an upper endoscopy (EGD) to ablate Barrett's esophagus with changes of high-grade dysplasia (HGD) or intramucosal cancer (IMCA) and patients with esophageal cancer limited to the esophageal wall, in whom there are no standard treatment options available.
This clinical trial compares three anal cytology collection procedures (collected at a single visit) in men who have sex with men (MSM). It also compares two different tests for human papilloma virus, the virus that causes high grade anal dysplasia, which is thought to occur before anal cancer. This study may help doctors develop better screening for high-grade anal dysplasia in MSM in order to identify those who need to return for additional screening and treatment.
To determine the efficacy and safety of intravaginal fluorouracil administered as prophylaxis in HIV-infected women who have received standard ablative therapy (surgery) for high-grade cervical dysplasia (pre-cancer of the cervix; cervical intraepithelial neoplasia). To correlate time to recurrence of cervical dysplasia with T-cell function. Women with HIV infection are at greater risk for cervical dysplasia. Because of the likelihood that untreated or recurrent cervical dysplasia may progress to invasive cancer, there is an urgent need to develop appropriate therapies.