127 Clinical Trials for Various Conditions
This is a double-blind, study to evaluate the performance of NV-VPAC1 PCa Urine Diagnostic Test in three distinct populations being treated at the Intermountain Urology Clinic. The first population (positive control) is comprised of men with biopsy-confirmed PCa who are scheduled for prostatectomy. The second population (negative control) is comprised of men with benign prostatic hypertrophy (BPH) who are scheduled for transurethral resection of the prostate (TURP). The third population (negative control) is comprised of men or women with bladder/kidney stones who are scheduled for a cystoscopy.
The laser tissue welding device is intended for use in patients requiring sealing of the pancreas after partial pancreatectomy, and including those patients who are fully heparinized or have hemodilutional coagulation failure. The hypothesis is that the laser tissue welding device is safe and effective in sealing the pancreas, thereby decreasing the blood loss (operative and post-operative), and pancreatic juice leakage for patients when the Laser Tissue Welding device is used after pancreatic resection.
Tumors with low oxygen levels are associated with poor prognosis and resistance to standard radiotherapy or systemic therapies. The ability to make repeated oxygen measurements in tumors could be used to help select the most effective treatment or the best timing to start therapies. The purpose of this study is to ascertain the safety and feasibility of using an implantable oxygen sensor, known as the OxyChip, to make oxygen measurements in tumors using EPR oximetry, a technique related to magnetic resonance imaging (MRI).
The purpose of this study is to find out what effects (good and bad) CyberKnife stereotactic radiosurgery has on tumors near the critical structures of the eye (optic apparatus). The investigators hypothesize that hypofractionated stereotactic radiotherapy via the CyberKnife ® can deliver tumor ablating doses of radiation to perioptic lesions safely and effectively while sparing the adjacent optic apparatus and normal brain tissues from receiving damaging doses of radiation.
This is a single-center, Phase II study including only patients on whom a decision to conduct radiofrequency ablation (RFA) has already been made. The primary objective of this study assess if quality of life was improved by RFA as assessed at baseline, 3 and potentially 6 and 12 months following RFA for the benign lesions. RFA is an imaging guided percutaneous or intra-operative procedure that uses a probe on the end of a sharp needle that is inserted directly into the tumor. The tumor is ablated by heating the probe (using an electrical current alternating at radio frequency) which raises the temperature of the tumor potentially causing irreversible cell death. RF ablation is an alternative for local tumor control when other treatments (surgery, radiotherapy or chemotherapy) are not feasible (less effective or at higher risk). Thermal ablation at times is the only remaining alternative for patient cure, prolonged survival or palliation. Cryotherapy, and microwave, laser and focused ultrasound are alternative thermal ablation techniques used in adults but there has been no experience in children with these alternative methods. To be eligible for this study, patients must have acquired lesions at \< 21 years of age (central nervous system lesions are excluded from this study). Study participants will have the RFA procedure performed at Seattle Children's and will have follow-up evaluations at various time points post-RFA.
This Phase 2 clinical trial will study RVP-001, a new manganese-based MRI contrast agent, in people who are known to have gadolinium-enhancing central nervous system (CNS) lesions, for example brain tumors or multiple sclerosis. The goal of this study is to assess safety, efficacy, and pharmacokinetics of RVP-001 at three dose levels. The study will also compare RVP-001 imaging to gadolinium-based contrast agent (GBCA) imaging. A single dose of RVP-001 will be administered to each subject. Subjects will have known gadolinium-enhancing CNS lesions and will have a gadolinium-based contrast agent-enhanced MRI of the brain 2-14 days before receiving RVP-001 with imaging. The ultimate goal of this research program is development of a gadolinium-free alternative to current general purpose MRI contrast agents.
The frequency of kidney tumors found incidentally on imaging studies performed for unrelated reasons continues to increase leading to more surgeries and ablations for the treatment of renal masses thought to be cancer. However, about 20% of these masses are not cancerous and do not require treatment. Many cancerous kidney tumors are indolent and can be followed safely with imaging (i.e., particularly tumors \<2 cm and in patients with limited life expectancy), while some tumors are both malignant and aggressive, with a higher potential to spread outside the kidney and require treatment. The purpose of this observational study is to assess the ability of Fludeoxyglucose (18F) (FDG) PET/MR to distinguish different types of kidney tumors. The investigators hypothesize that PET/MR will better show differences between aggressive and both indolent and benign kidney masses compared to the currently used radiologic scans. Participants will be selected from those who have been scheduled to receive a contrast-enhanced MRI for their regular care due to a suspicious kidney mass. Participants will have their MRI on a hybrid PET/MR scanner capable of obtaining both MRI and PET images. While they are receiving their standard of care MRI exam, patients will also receive a research FDG PET exam. Participants will have an IV placed for administration of the MRI contrast agent, just as they would if they were not taking part in the study. The same IV will be used to give the FDG radiopharmaceutical for the PET scan and furosemide (a diuretic), to help empty the bladder before the scan and help better see the kidneys on the scans. Both FDG and furosemide are FDA approved medications. Participants will have only one visit with the research team which will last \~2.5 hours and will include collection of the participant's regularly scheduled MRI. If participants undergo surgery to remove the tumor, the study will collect samples of the removed tissue for research. If participants receive a biopsy of the tumor, the study may collect an additional sample of the tumor for research. After the PET/MRI, participants will not have additional visits with the study team, but the study team may call every 6-12 months for up to 2 years to see how they are doing and ask about their health. The study team will review the medical record for any changes to their diagnosis, updates to their medical history, new scans ordered by their regular doctor, or recent lab or biopsy results.
The purpose of this trial is to evaluate the effectiveness and safety of the HistoSonics Edison System for the destruction of kidney tissue by treating primary solid renal tumors.
BACKGROUND: Cancer of any type is a serious disease and despite all the progress made from past research, there is still much that is poorly understood at the molecular level. Recent advances in biomedical technology platforms have emerged as critical tools for accelerating personalized medicine. The collection of human tissue specimens has been an invaluable resource for conducting translational cancer research using these developing technologies. The ultimate goal is to understand the molecular indicators of cancer development and progression. While it is ideal to be able to study clinical samples, specifically tissue biopsies, they are however precious and are often difficult to obtain in sufficient quantities or numbers to conduct proteomic or molecular profiling studies. There exists, however, a vast archive of pathologically characterized clinical samples in the form of formalin-fixed paraffin-embedded tissue blocks. The preservation of these tissue blocks and/or slides for long-term (years) storage is an important asset that aids in translational and clinical research. This protocol will describe the procedures for receiving, labeling and storing paraffin-embedded tissue blocks and/or slides until they are needed for future analysis. When blocks are ready for analysis, the requestor will then follow the IRB protocol specific to that study. OBJECTIVE: - To obtain tissue blocks and slides from outside pathology departments for cancer patients being treated at the Medical Oncology Branch (MOB) and Affiliates Center for Cancer Research (CCR), National Cancer Institute (NCI) in order to store them for future studies and analysis (e.g., using molecular technology platforms). ELIGIBILITY: - Patients suspected of having, or with biopsy proof of malignant disease will be evaluated in the Medical Oncology Branch and Affiliates Clinics, NCI. DESIGN: * Tissue blocks and slides will be acquired from outside pathology departments and received by the Clinical Pharmacology Program of the MOB/CCR/NCI for coding. * Bar-coded tissue blocks and slides will then be transferred to the Laboratory of Pathology/CCR/NCI for proper long-term storage.
The purpose of this study is to determine the safety and utility of 5-aminolevulinic acid (ALA) for identifying your tumor during surgery. 5-ALA is not FDA approved at this time. When the investigators remove the tumor from your brain, it is important that they remove all of the tumor and not remove parts of normal brain. Sometimes this can be difficult because the tumor can look like normal brain. In some brain tumors, 5-ALA can make the tumors glow red under blue light. This may make it easier for your doctor to take out all of the tumor from your brain. The purpose of this study is to: * Make sure that 5-ALA helps the doctor remove more of the tumor. * Make sure 5-ALA does not cause any side effects. If you do not want to participate in this study, your doctor(s) will still do their best to remove all of the tumor in your brain. Whether or not you join this study will not change your treatment for your brain tumor.
RATIONALE: Pioglitazone hydrochloride may be effective treatment for cognitive dysfunction caused by radiation therapy. PURPOSE: This phase I trial is studying the side effects and best dose of pioglitazone hydrochloride in preventing radiation-induced cognitive dysfunction in treating patients with brain tumors.
Study Objective: Brain tumors are poorly understood. The purpose of this research is to examine whether factors in lifestyle play a role in brain tumor development. The study will also investigate the contribution of inherited susceptibility to the risk of brain cancer. By gaining a better understanding of these influences, the investigators hope to learn how to prevent brain tumors in future generations, and to develop more effective strategies for treatment. Study Protocol: This is a case-control investigation. Persons affected with a brain tumor are compared to unaffected persons on previous medical history, diet and other factors. Those enrolled in the study will participate in an interview on general background, diet, medical history and lifestyle, and will provide a sample of DNA, clippings of your toenails, and a tap water sample from your home. All procedures are performed in the clinic or through the mail. 'Cases': Cases eligible for the study are persons with a recent diagnosis of a primary brain tumor (glioma or meningioma), at least 18 years of age. 'Controls': Controls in the study are non-family members of patients, similar in age and of the same gender. Suitable controls include in-laws, friends, neighbors and co-workers.
This research is being done to test new MRI methods called Magnetic Resonance Fingerprinting and Q-space Trajectory Imaging in gynecological abnormalities. The purpose of this research study is to evaluate if these new MRI methods can give additional information in characterizing gynecological tumors compared with conventional MRI.
Magnetic Resonance Spectroscopy (MRS) is a novel imaging technique for noninvasive probing of biochemical properties of tissue. While MRS does not generate images of tumor per se it allows biochemical spectroscopic data to be obtained in vivo from user defined region-of-interest. In this manner, biochemical information elucidated by MRS can be interpreted in relation to detailed anatomy and images of metabolite distribution can be created. The aim of MRS is to identify presence and concentration of metabolites characteristic for normal and abnormal (tumor) cellular activities hence allow differential normal tissue from pathological tissue, as well as allow differentiating malignant from benign tumors.
Doctors at Memorial Sloan Kettering Cancer Center and at other institutions study normal and cancer cells. To study these cells we need to have human tissue, body fluids, and blood. The patient will be having or have had a procedure to remove tissue. The doctors would like to use some of this tissue. The doctors will use it for laboratory studies on the causes, prevention, diagnosis and treatment of sarcoma, gastrointestinal or other intra-abdominal cancers. They will only use extra tissue left over after all needed testing has been done. They would also like to study components of the immune blood cells and blood serum (the liquid portion of the blood). In some patients they will take a blood sample before the tissue or body fluid is removed, usually at the same time that other routine pre-procedure blood tests are drawn. If thet need more blood, it will be drawn when the patient is seeing the doctor anyway. We will not draw more than 50cc (4-5 tablespoons) at any one time. With the patient's permission, thet may also send a small portion of the blood and/or a sample of the tissue to a repository at the National Cancer Institute. This will be used to identify special proteins in the blood or tissue that may be useful for diagnosing cancer. Information about the treatment and the response to treatment may be linked to the tissue specimens obtained. This information may be important for the research studies that will be done on the tissue, body fluid and blood specimens. All of this information will be kept in strictest confidence; they will use it only for biomedical research. The patient's name will not be used in any report.
RATIONALE: Transurethral resection is a less invasive type of surgery for bladder cancer or benign prostatic hyperplasia. Transurethral resection using a loop resectoscope may have fewer side effects and improve recovery. PURPOSE: This clinical trial is studying how well the loop resectoscope works in treating patients with bladder cancer or benign prostatic hyperplasia who are undergoing transurethral resection.
Liposomal bupivacaine (Exparel) has been used as an adjunct to pain management in the perioperative setting. However, the efficacy of the drug has not bewen studied in patients with benign soft tissue tumor resections. The goal of the study is to see if Exparel controls pain and improves functional outcomes for patients after these procedures compared to the current standard Bupivacaine HCL.
In this research study we want to learn more about the use of indocyanine green (ICG) during bone or soft tissue mass resections. Indocyanine green (ICG) is a type of dye that is used in medical diagnostics. We want to determine if ICG-guided tumor resection is more effective in obtaining negative margins. Lastly, we want to assess traditional oncologic outcomes of local recurrence, time to metastatic disease, and overall and disease specific survival.
The purpose of this study is to evaluate the ability of AI to correctly aid in characterization of benign and malignant lesions even when a low dose of gadolinium is administered. This study is relevant for several reasons, most notably being the reduction of MRI dose and decreased gadolinium deposition in the brain. In addition, use of AI may provide increased sensitivity and specificity for the radiologist evaluating a breast MRI exam. Half of the population will have benign pathologies and the other half will have malignant pathologies.
This expanded access protocol studies bone marrow transplantation using CD34-selected stem cells from related or unrelated donors in treating participants with cancer or other disorders. Stem cells collected from the donor will be processed using a new device called CliniMACS CD34 Reagent System which marks the blood cells collected from the donor with a special protein called "antibody" that tags only the donor stem cells, sorting out other cells of the blood and immune system. This is done to remove, at least partially, some of the T cells. T cells are the cells in the blood that work as scavengers of the immune system deciding what belongs and what does not. These cells can sometimes cause rejection of the donor graft or a condition called graft-versus host disease (GVHD), where the donor cells can attack the body of the recipient. A bone marrow transplantation using CD34-selected stem cells may reduce the risk of these unwanted side effects of transplant as much as possible.
The goal of this research study is to learn how useful a wearable exercise tracker watch is to monitor your physical activity. This is an investigational study. Up to 100 participants will be enrolled in this study. All will take part at MD Anderson.
The goal of this research study is to learn if there is a difference between your expectations of how well you will perform daily living activities after short-term inpatient rehabilitation and the doctor's expectations of how well you will perform daily living activities.
Absolute voice rest is commonly prescribed after vocal fold surgery, also known as phonomicrosurgery, for benign vocal fold lesions. This is thought to decrease scarring of vocal folds, which could result in increasing tissue stiffness and limitations in optimal vocal outcome. Unfortunately there is no standardized protocol as to how long patients should rest their voice after phonomicrosurgery. To date, there are no studies in the literature directly comparing the impact of short-term and long-term voice rest on vocal fold healing and voice outcome after phonomicrosurgery.
General Anesthesia is usually produced by an intravenous agent and then maintained with a breathing agent till the surgery is completed. However, there is a recent trend to produce and maintain general anesthesia solely with an intravenous agent, such as propofol, in view of its advantages. This delivery method is called Total Intravenous Anesthesia (TIVA). The depth of general anesthesia can be measured by an anesthetic depth monitoring device called Bispectral Index (BIS). The use of BIS to determine the depth of anesthesia has been well established whenever a breathing agent is used to maintain general anesthesia. However, the validity of using BIS with TIVA has not been adequately investigated. This study will compare the BIS values at different doses of TIVA in order to establish any correlation between the two. If such a correlation is established, BIS monitoring can safely be recommended to determine anesthetic depth under TIVA.
Subjects undergoing surgery on the small or large bowel will be randomized to one of 2 groups, a normal fluid amount group and a reduced fluid amount group to evaluate the impact of this change on recovery after surgery.
RATIONALE: Chemoprevention is the use of certain drugs to keep cancer from forming. The use of eflornithine and diclofenac may stop cancer from growing in patients with sun-damaged skin. PURPOSE: This randomized phase II trial is studying the side effects and how well eflornithine works compared with diclofenac, given alone or together, in treating patients with sun-damaged skin.
The goal of this clinical trial is to better tell apart whether kidney tumors are benign (not cancer) or malignant (cancer) based on a biopsy or imaging tests and ask patients how they feel about decisions they make about treatment of their kidney tumor. The main objectives are: To estimate and compare the diagnostic accuracy of renal mass biopsy alone, PEER (with renal mass biopsy), and 99mTc-sestamibi SPECT/CT (with renal mass biopsy for hot tumors) to differentiate malignant and benign renal tumors. To estimate and compare the diagnostic accuracy of renal mass biopsy, PEER (with renal mass biopsy), and 99mTc-sestamibi SPECT/CT (with renal mass biopsy for hot tumors) to differentiate oncocytoma from chromophobe RCC. Participants will be asked to complete survey questions related to their health and kidney tumor at the start and end of the study. These can be done on paper, electronically, or by telephone.
Currently, there is limited multi-center data on endoscopic surgery outcomes in western populations. Evaluation of these measurement would help the investigators compare them to conventional treatment modalities within current tertiary facilities; and consequently help the investigators identify appropriate treatment techniques and improve clinical management of patients at Rutgers RWJMS. The purpose of this retrospective registry study is to assess long term data on efficacy, safety and clinical outcome of Endoscopic Surgery within the gastrointestinal tract.
This randomized phase III trial studies chlorhexidine gluconate cleansing to see how well it works compared to control cleansing in preventing central line associated bloodstream infection and acquisition of multi-drug resistant organisms in younger patients with cancer or undergoing donor stem cell transplant. Chlorhexidine gluconate may help reduce bloodstream infections and bacterial infections associated with the central line.
To evaluate clinical outcome for patients receiving treatment of suspected premalignant and malignant gastrointestinal lesions at Interventional Endoscopy Services. The primary outcome is curative endoscopic resection. Secondary outcomes include resection technique utilized, rates of en bloc resection and adverse event rates, including infection, bleeding, perforation and death, and one-year survival rates.