29 Clinical Trials for Various Conditions
This study seeks to investigate the effects of administering nitrite to pancreatic islet cells that have been removed from a patient for autotransplantation.
The purpose of this study is to further test islet cell transplant in patients who have had a kidney transplant. This study will also evaluate the safety and effectiveness of the anti-rejection medications used to prevent rejection after your islet cell transplant.
Current islet transplantation into the portal vein of the liver has shown the unique ability of islets to stabilize blood glucose levels and prevent severe hypoglycemia in a selected group of subjects with Type 1 diabetes. The main limitations of islet transplantation are the need for systemic immunosuppression to maintain function and the loss of islet function over time. Additionally, many studies have demonstrated that the current site of transplantation in the liver is not an ideal site due to several factors. These factors include (1) significant liver inflammation following islet infusion; (2) potential for life-threatening procedure-related complications such as bleeding and thrombosis; (3) high levels of immunosuppressive drugs and GI toxins in the liver contributing to islet toxicity; (4) the inability to retrieve islets after infusion; and (5) development of graft dysfunction in a number of recipients of intrahepatic allogeneic and autologous islets. The implantation of islets into the omentum will allow adequate engraftment of islets onto the omentum and will lead to comparable or superior functional and clinical outcomes than in the traditional intrahepatic site.
City of Hope National Medical Center, located in Duarte, CA, is hosting a clinical study on islet cell transplantation, an experimental procedure being evaluated as a treatment for patients with type 1 diabetes. Islet cell transplantation involves taking insulin-producing cells from organ donors and transplanting them into the liver of a patient with diabetes. Once transplanted, the islets produce insulin, which can improve blood sugar control and eliminate the need to inject insulin or use an insulin pump. Anti-thymocyte globulin (ATG) and alemtuzumab (Campath) are anti-rejection medications that work by decreasing a patient's T-cells. T-cells are special white blood cells that recognize and destroy unwanted things like infections but can also attack transplanted cells and organs. Reducing the number of T-cells at the time of transplant may protect islets and improve long-term transplant success. In previous research studies, islet transplantation has been successful in reducing low blood sugar episodes, improving overall blood sugar control, and in some cases, allowing patients with type 1 diabetes to stop taking insulin. The purpose of this study is to determine if islet cell transplantation using ATG or alemtuzumab, along with additional medications to prevent the body from rejecting the transplanted cells, is a safe and effective treatment for type 1 diabetes. Study participants may receive up to three islet transplants and will be followed for five years to monitor blood sugar control, islet transplant function, and changes in quality of life.
This trial is conducted in Europe and North America. The aim of this trial is to investigate if liraglutide treatment can increase the proportion of insulin-independent subjects one year after islet cell transplantation who required only one (single-donor) islet cell transplant.
This protocol will provide islet cell transplantation to two separate populations in need of a pancreas transplant: Group I: Islet Cell Transplantation in Type I Diabetics without Kidney Problems Group II: Islet Cell Transplantation in Type I Diabetics Who Have a Stable Functioning Kidney Transplant The targeted patients have very brittle diabetes or dangerous hypoglycemic unawareness and may benefit from transplantation over continuing insulin therapy, even though chronic immunosuppression is required. We believe that in these patients, the islet transplant procedure promises enough potential benefit to justify subjecting patients who have not previously had a transplant to the risk of immunosuppression. In patients who are already subject to the dangers of chronic immunosuppression for other reasons, i.e. to prevent rejection of a kidney allograft, the islet transplantation procedure itself is the principal additional risk and this risk should be minimal. In these patients (our Group II), the potential benefit from improved glycemic control is that it promises to slow or even reverse diabetic complications, such as vascular problems leading to kidney damage. It is this rationale that has made pancreas transplantation a widely accepted option in patients with renal failure, despite the risks associated with whole pancreas transplantation. Islet cell transplantation aims to provide a potentially lower risk procedure that has similar relief from diabetic complications.
The purpose of this study is to assess a novel approach to immunosuppression in allogenic pancreatic islet cell transplant recipients. In addition, the study aims to assess remote site islet processing with culture for pancreatic islet cell transplantation in human subjects.
The purposes of this study are: 1. To reverse hyperglycemia and insulin dependency in patients with type 1 diabetes mellitus through islet transplantation utilizing steroid free, calcineurin-inhibitor free immunosuppression. 2. To assess the long-term function of successful islet transplants in patients with type 1 diabetes mellitus utilizing islets that have undergone a period of culture. 3. To determine whether the natural history of the microvascular, macrovascular, and neuropathic complications are altered following the successful transplantation of islets.
SPECIFIC AIMS: * To reverse hyperglycemia and insulin dependency in patients with Type 1 diabetes mellitus by islet cell transplantation. * To induce a state of donor specific tolerance and eliminate the need for continuous immunosuppressive therapy by simultaneous transplantation of donor bone marrow cells with islets and utilization of the monoclonal antibody Campath-1H for induction of Immunosuppression. * To assess long-term function of successful islet cell transplants in patients with Type 1 diabetes mellitus. * To determine whether the natural history of the microvascular, macrovascular and neuropathic complications are altered following successful transplantation of islet
The purpose of this study is to reverse hyperglycemia and insulin dependency, by islet cell transplantation, in patients with type 1 diabetes mellitus who have a stable kidney allograft.
SPECIFIC AIMS: 1. To reverse hyperglycemia and insulin dependency in patients with Type 1 Diabetes Mellitus by islet cell transplantation; 2. To eliminate the incidence of hypoglycemia coma and unawareness in patients with Type 1 Diabetes Mellitus by islet cell transplantation; 3. To assess long-term safety and function of successful islet cell transplants in patients with Type 1 Diabetes Mellitus; 4. To determine whether the natural history of the microvascular, macrovascular and neuropathic complications of Diabetes Mellitus are altered following successful transplantation of islet cells; and 5. To assess the effect of infliximab in preventing early islet destruction, and thereby eliminating the need for a second donor's islet cells. 6. To assess the effect of etanercept in preventing early islet destruction. 7. To assess the effect of exenatide to improve islet graft function and survival in subjects that have returned to using exogenous insulin. 8. To assess the ability of exenatide to improve islet survival at time of transplantation.
The purpose of this study is to assess a novel approach to immunosuppression in allogenic pancreatic islet cell transplant recipients. In addition, the study aims to assess remote site islet processing with culture for pancreatic islet cell transplantation in human subjects.
The purpose of this study is to determine the safety of transplanting human islet cells for controlling hyperglycemia in brittle and/or complex patients with type 1 diabetes. In addition, initial observations will be made with regards to the effectiveness of reversing hypoglycemia with this treatment. The "Edmonton Protocol" of using specific anti-rejection drugs without steroids is also being evaluated.
The goal of islet cell transplantation in Type 1 diabetics is to provide those affected with constant normal blood glucose levels, thereby reducing or eliminating altogether the need for injected insulin. This normalization may prevent or slow progression of diabetic complications, result in a healthier lifestyle, and lead to a better quality of life. Participants who meet the inclusion criteria will undergo an extensive screening process which typically includes a series of blood tests, EKG, chest x-rays, and a psychological evaluation, among others. Those who are eligible for and chose to participate in the trial will receive an islet cell transplant and bone marrow infusion from the same donor, together with following immunosuppressive medications: tacrolimus, sirolimus, daclizumab and infliximab. Because the bone marrow infusion may successfully prevent the transplanted islet cells from rejecting, some participants may be able to stop taking the immunosuppressive medications after a year. The islet cell transplant is done under local anesthesia in a special procedure radiology room. Several days after the islet cell transplant, the participant is admitted to the hospital as an outpatient in order to receive bone marrow via a simple intra-venous infusion procedure. All participants will need to be seen at the Diabetes Research Institute after the transplant for follow-up testing and post-islet cell transplant care.
The goal of islet cell transplantation in patients with Type 1 Diabetes Mellitus is to provide constant normal blood glucose levels. This may eliminate the need for insulin altogether or provide a significant reduction in the amount of insulin necessary to maintain constant normal blood glucose levels. This normalization may prevent or slow progression of diabetic complications. Furthermore, the participant may enjoy a healthier lifestyle and a better quality of life. If you meet the initial inclusion criteria for the trial, you must be able to give informed consent personally. Then you will need to participate in an extensive screening process that involves many standard tests and collection of laboratory samples to make sure that the transplant is suitable and safe for you.
This grant is to study patients that have received a kidney transplant AND an Islet Cell transplant and to discover how the transplant is functioning. We will seek to have several patients who have had a kidney transplant but do NOT have either type of diabetes. These patients will serve as the "control group" since they will also be on immunosuppressive medications but are not affected by abnormal blood sugars. This will allow investigators to develop an understanding of how these immunosuppressive medications affect glucose metabolism (blood sugar levels) and insulin utilization (how the body uses insulin).
Kidney transplantation is the preferred treatment for most end-stage kidney disease. This procedure is limited, however, by two major factors: 1) a shortage of donor organs and 2) organ rejection by the recipient. The National Institute of Diabetes and Digestive and Kidney Diseases is screening patients with kidney failure or diabetes who may be eligible for kidney, kidney and pancreas, or islet cell transplantation. Patients in this screening study are not offered treatment. When the screening is complete, patients will be offered an opportunity to participate in another institute study, or, if there are no active studies appropriate for the patient, other options will be suggested to the primary or referring physician. Patients found eligible for a study are not obligated to participate. Screening for all patients typically consists of blood tests, urinalysis, electrocardiogram, PPD tuberculosis screen and pregnancy test. Chest and kidney X-rays and other studies may be done on patients determined eligible for a particular study, including transplantation. A summary of all test results will be sent to the referring physician unless the patient requests otherwise. ...
Randomized pilot trial of patients (n=30) undergoing Total Pancreatectomy and Islet AutoTransplant (TPIAT). Patients with islet harvest of greater than 5000 islet equivalents/kg body weight will be randomized to receive a portion of their islets into an omental pouch. For outcomes related to islet function, a group of normal volunteers (n=15) will be studied as a comparator group.
To determine the effect of sympathetic neural and hormonal (epinephrine) input on islet cell hormonal responses to insulin-induced hypoglycemia in type 1 diabetic recipients of intrahepatic islet transplantation. We hypothesize that α-adrenergic (neural) blockage will abolish insulin-mediated suppression of C-peptide, attenuating α-cell glucagon secretion during hypoglycemia, and that β-adrenergic (hormonal) blockage will have no effect. Glucose counterregulatory responses will be measured during hyperinsulinemic euglycemic-hypoglycemic clamps on three occasions with randomized, double-blind administration of the α-adrenergic blocker phentolamine, the β-adrenergic blocker propranolol, or placebo. The demonstration of neural rather than hormonal regulation of the transplanted islet cell response to hypoglycemia is critical for understanding the mechanism for protection from hypoglycemia afforded by intrahepatically transplanted.
This study will evaluate the safety, tolerability and efficacy of AT-1501 in an immunomodulation regimen in adult patients with T1D undergoing an islet cell transplant.
AT-1501 is a monoclonal antibody. Antibodies are Y-shaped proteins that are produced naturally by the subject's immune system to attack and fight foreign substances that cause illness. Monoclonal antibodies are man-made proteins manufactured to serve as substitute antibodies to fight diseases. Monoclonal antibodies can restore, enhance, or mimic (copy) the immune system's attack process; they can also tone down the immune system. AT-1501 is thought to work by dampening down the immune system so that it will be less likely to attack the transplanted cells. For other types of transplants, like kidney, a drug called a calcineurin inhibitor is usually used to prevent rejection. That class of drugs can be toxic to islet cells. AT-1501 is an experimental agent that is anticipated to prevent rejection without harming the islet cells.
This phase I/II trial assesses the safety and effectiveness of total pancreatectomy with islet cell autotransplantation for the treatment of patients with long-term pancreatic inflammation (chronic pancreatitis) and non-cancerous (benign) pancreatic tumors. Total removal of the pancreas (pancreatectomy) can be used to treat chronic pancreatitis, but it may result in diabetes. An islet cell autotransplantation involves removing cells from a patient's pancreas (the islet cells) and infusing them into the liver. Islet cells are responsible for producing hormones like insulin, reducing the occurrence of diabetes in patients undergoing total pancreatectomy. Total pancreatectomy with autologous islet cell transplant is an accepted and Food and Drug Administration-approved treatment for patients with chronic pancreatitis. However, patients with chronic pancreatitis and pancreatic tumors have historically not been candidates for this procedure due to concerns of spreading potentially cancerous cells to other parts of the body. This clinical trial evaluates the safety and effectiveness of this treatment in patients with chronic pancreatitis and benign pancreatic tumors.
This is a clinical trial for chronic pancreatitis (CP) patients undergoing total pancreatectomy with islet autotransplantation (TP-IAT). Participants will be randomized to either bone marrow-derived mesenchymal stem cells (MSCs) or control with the standard of care. Participants will be followed for one-year post-transplant.
The purpose of this study is to show safety and tolerability to our mesenchymal stromal cells (MSCs) product which will be autologous in nature, expanded using a non-xenogeneic, human component expansion media (pooled human platelet lysate) and delivered fresh. Subsequently, the investigators intend to test whether infusion of MSCs immediately after islet autograft can reduce onset of diabetes and improve glycemic control after total pancreatectomy and islet autotransplantation.
This clinical study will evaluate the safety and effectiveness of Gastrin treatment with islet transplantation to help patients with difficult to control type 1 diabetes make insulin again and improve blood sugar control. This study involves two investigational (experimental) products not yet approved by the U.S. Food and Drug Administration (FDA) as a treatment for any disease: 1. Human allogenic islet cells (islet cells from a deceased, unrelated human donor) 2. Gastrin-17 (Gastrin) - a hormone secreted by the gut
The purpose of this study is to test the safety and efficacy of islet cell transplants for the treatment of type 1 diabetes mellitus. It has been shown that normal control of blood sugar levels can prevent progression of complications (such as kidney disease, nerve damage, and vascular disease) from diabetes. This research study is designed to see if normal blood sugar control can be achieved by transplanting pancreatic islet cells into your liver, which may reduce or eliminate your need for insulin. Patients may qualify to participate in this research study if they have type 1 diabetes mellitus for at least five years and meet at least one of the following criteria: * Experience hypoglycemic unawareness - Defined as inability to tell when blood glucose is low (for example, may not feel symptoms such as shaking, sweating, and rapid heartbeat that usually signify that glucose is low) * Have been hospitalized several times in the past year for low blood sugar and/or high blood sugar * Have complications of diabetes such as retinopathy, kidney problems, or neuropathy
The Cell Pouch™ is a novel implantable device, that is transplanted with therapeutic cells such as insulin producing islets. This combination product is designed for the treatment of Type 1 Diabetes Mellitus (T1D) with hypoglycemia unawareness and a history of severe hypoglycemic episodes. Upon implantation, the Cell Pouch is designed to form a natural environment, rich in tissue and microvessels for the transplant and function of therapeutic cells. The Cell Pouch is designed as a scaffold made of non-degradable polymers, formed into small cylindrical chambers which, when implanted against the abdominal muscle, becomes incorporated with vascularized tissue to the circumference of removable plugs within as early as two weeks as demonstrated in preclinical studies. After the tissue incorporation, the plugs are removed, leaving fully formed tissue chambers with central void spaces for the transplantation of therapeutic cells including Islets of Langerhans (islets). Tissue integration within and around the Cell Pouch forms a natural environment, rich in microvessels that allows the transplanted islets to engraft, resulting in a functional biohybrid organ. It is believed this engraftment will enable long-term survival and function of transplanted islets. This study aims to demonstrate the safety and tolerability of islet transplantation into the Cell Pouch for the treatment of T1D in subjects with hypoglycemia unawareness and a history of severe hypoglycemic episodes. The study also aims to establish islet release criteria that accurately characterize the islet product and are predictive of clinical transplant outcomes into the Cell Pouch, which will be demonstrated through defined efficacy measures.
The goal of this clinical trial is to learn if patients who have brittle type 1 diabetes receiving an islet transplantation will have better control of their sugars if they also receive one of 2 types of immune cells along with the islet transplant. The participants will receive either their own immune cells, called regulatory T cells, or immune cells from the bone marrow of the islet donor.
The goal of this trial is to gain initial clinical experience regarding the safety and efficacy of treating type I diabetes in people who have received a kidney transplant by transplanting islets into a new transplant site in the stomach (gastrointestinal submucosa). A total of 6 patients will be enrolled in the study and followed for a period of up to 3 years after the last islet transplant.