17 Clinical Trials for Various Conditions
Osteosarcoma is the most common type of bone cancer in children, adolescents and young adults. Treatment with surgery and a combination of three conventional chemotherapy drugs can cure nearly two-thirds patients with osteosarcoma, but the treatment can also cause irreversible damage to the kidneys and cause permanent hearing loss. The purpose of this study is to evaluate new approaches to prevent these side effects without interfering with the beneficial effects of the chemotherapy drugs on the cancer by using our knowledge of how the drugs damage the kidney and cochlear hair cells in the ear to selectively block these side effects. Preventing these side effects without interfering with the anti-cancer effect of the drugs will improve the outcome in survivors and may also improve the effectiveness of the chemotherapy regimen by preventing treatment delays and dose reductions that are often caused by the side effects. Patients will be carefully monitored to ensure that the new interventions do not adversely affect response to the treatment and do not increase the other side effects of the chemotherapy. Specifically, we will monitor the nutritional status of the patients closely and ask patients to complete a survey describing the side effects after each treatment cycle. We will also collect a small sample of cancer tissue at the time of biopsy and surgery from each patient on this study for testing to determine new classes of anti-cancer drugs currently under development may have a role in treating osteosarcoma. If effective, these new approaches to prevent kidney damage and hearing loss will be applicable in other types of cancers treated with the same chemotherapy drugs.
The project is designed to test new biomarkers that are more sensitive than the current standard in detecting injury to the proximal kidney tubule and will establish better criteria for when kidney safety concerns may halt further testing of a drug in humans.
The primary goal of this study is to determine if there is an association between greater exposure to vancomycin and the development of nephrotoxicity. The secondary goal is to estimate the costs to the hospital associated with these nephrotoxic events.
For more than fifty years, vancomycin has been cited as a nephrotoxic agent. Reports of vancomycin induced kidney injury (a.k.a vancomycin induced nephrotoxicity or VIN), have waxed and waned throughout the years for various reasons. Recently, VIN has reemerged as a clinical concern. This may be due to various reasons, including new dosing recommendations as well as an increased prevalence of risk factors associated with vancomycin induced nephrotoxicity. This study aims to evaluate a strategy which attempts to reduce kidney damage from vancomycin use.
The purpose of this study is to determine the relationship between genomic variants of components of the renin-angiotensin system and the development of kidney problems due to Calcineurin-inhibitors post liver transplant.Also the investigator will evaluate the relationship between chronic renal failure post liver transplant and the risk of death. A sample of blood and urine wil be examined to see how the patient's genes are arranged in order to determine the difference in genes between people which may explain who will develop chronic renal failure after having received a liver transplant. The results may help us classify patients according to their risk and allow us to target their treatment to their individual need. In addition, it may ultimately lead to treatments that slows or prevents the development of chronic rejection.
The purpose of the study is to combine Urodilatin (ANP analogue), which will increase glomerular filtration rate (GFR), and mannitol, which will increase the rate of urinary flow and solute excretion. We intend to treat twenty consecutive allogeneic bone marrow transplant patients in a phase II study comparing results with historical controls. We hypothesize that the incidence of renal dysfunction, ARF and thus mortality in allogeneic bone marrow transplantation can be significantly reduced by the use of protective agents Urodilatin and mannitol. We feel that this combination is best administered prior to and during the first two weeks of treatment when patients encounter immunosuppressive agents and the onset of early transplantation complications.
This study is being done to determine 1) whether drugs to treat cisplatin-related nausea can influence harm to the kidneys, 2) whether cisplatin levels in the body can influence the risk of harm to the kidneys, and 3) whether a person's genetic make-up can increase or decrease the likelihood of kidney injury due to cisplatin therapy.
Kidney damage is a major complication of current antirejection medicines used in transplantation. An increasing number of brittle diabetics are successfully receiving a pancreas transplant. One of the challenges following pancreas transplant is that a patient can develop kidney damage from one of their antirejection medicines, tacrolimus. The objective of this study is to substitute a new antirejection medicine which does not cause kidney damage, belatacept for tacrolimus in patients that have developed signs of tacrolimus related kidney damage to slow the progression of kidney disease.
Nephrotoxic medication (NTMx) exposure is one of the most commonly cited causes of acute kidney injury (AKI) in hospitalized children, and is the primary cause of AKI in 16% of cases. Through initial work at UAB/Children's of Alabama Hospital, NTMx exposure was found to be potentially modifiable and the associated AKI is an avoidable adverse safety event. Currently, only serum Creatinine monitoring is available to monitor for NTMx-associated AKI. The hypothesis of this NINJA NGAL study is that urine NGAL is highly sensitive to detect NTMx-associated AKI. UAB/Children's of Alabama is bringing urine NGAL measurement to the infants in the NICU to detect NTMX-associated AKI.
Nephrotoxic medication (NTMx) exposure is one of the most commonly cited causes of acute kidney injury (AKI) in hospitalized children, and is the primary cause of AKI in 16% of cases. Through initial work at Cincinnati Children's Medical Center, NTMx exposure was found to be potentially modifiable and the associated AKI is an avoidable adverse safety event. Currently, only serum Creatinine monitoring is available to monitor for NTMx-associated AKI. The hypotheses of this NINJA NGAL study are that (1) urine NGAL is highly sensitive to detect NTMx-associated AKI, and (2) Bedside test of urine from high risk NTMx-exposed patients are adequate and reliable compared to urine NGAL measured from the clinical platform.
A 10 week trial to assess the ability of Tempol to prevent and/or reduce toxicities associated with cisplatin and radiation treatment in head and neck cancer patients. Over the course of the 10 week trial, mucositis, nephrotoxicity, and ototoxicity will be monitored and assessed.
Evaluate the safety and outcomes associated between the two treatment modalities
The project is designed to test new biomarkers that are more sensitive than the current standard in detecting injury to the proximal kidney tubule and will establish better criteria for when kidney safety concerns may halt further testing of a drug in humans.
The purpose of this study is to determine if one CT contrast agent (medication injected into a vein; used in CT examinations to help produce clearer images) is safer to use than another. This study will compare the safety of two widely-used, U.S. FDA approved contrast agents, Isovue and Omnipaque. The investigators hypothesize that there is no significant difference in the rates of contrast-induced nephrotoxicity (CIN) between these agents when the overall population consists of low-risk patients.
Lung transplantation is a life-saving therapy for patients with advanced lung disease, however, necessitates the use of life-long immunosuppressive therapy for the prevention of acute and chronic rejection. The backbone of immunosuppression is the calcineurin-inhibitor class, with tacrolimus being the preferred drug due to its potency and improved side-effect profile. Nevertheless, tacrolimus is associated with several side effects including increased risk for infection and malignancy, tremors, headaches, seizures, hypertension, leukopenia and renal dysfunction. In fact, by 6 months post-transplant, 50% of patients will have a 50% decline in eGFR and by 5 years post-transplant \~10% of patients will have advanced renal disease that may require renal replacement therapy and/or kidney transplantation. Tacrolimus induces a nephropathy in two ways- acute calcineurin inhibitor nephrotoxicity (CIN) is mediated by afferent arteriolar vasoconstriction, whereas chronic CIN is due to interstitial nephritis and fibrosis. Immunosuppressive regimens that spare or dose-reduce calcineurin inhibitors have been shown to have a modest impact on preserving renal function, but are limited by timing. Although most studies support implementing renal preserving protocols early on, this is balanced by the potential for acute cellular rejection, antibody mediated rejection and anastomotic dehiscence. Long-acting Tacrolimus (LCP-tacrolimus) may have the potential to bridge the balance of providing potent immunosuppression, while sparing renal function, due to the better systemic dose levels and improved concentration/dose ration achieved with it compared to IR-tacrolimus, evidenced in the renal transplant population. There is limited experience with LCP-tacrolimus in lung transplantation. Several case reports chronicling the late conversion from IR-tacrolimus to LCP-tacrolimus due to absorption issues or side-effect intolerance, have demonstrated safety and tolerability. The investigators seek to determine whether early use of LCP-tacrolimus in lung transplant recipients following the index hospitalization is acceptable, and propose a single-center prospective, randomized, controlled pilot study of early-use LCP-tacrolimus in lung transplant recipients to assess safety, tolerability and side-effects of LCP-tacrolimus.
Allograft nephropathy is the most common cause of allograft failure following kidney transplantation. Among putative etiologies, cumulative exposure to calcineurin inhibitors may be one of the important progression factors. "Spare the Nephron"(STN) is a unique study. Patients were randomized to either continue center-specific Calcinerium Inhibitor (CNI) therapy or have CNI replaced with sirolimus within the first six months after transplantation. Approximately 305 patients were enrolled in the study. More than 230 patients finished 2 years of follow-up. There was better patient and graft survival in those converted to sirolimus. There was also a 10% improvement in the kidney function of those who were converted. In this cohort, we wish to explore the durability of this improvement.
The purpose of this study is to determine if measuring the level of a protein called Kidney Injury Molecule-1 (KIM-1) in the urine will help healthcare providers detect any problems with the transplanted kidney before the laboratory investigations that are used on a routine basis do. This approach may allow the doctor to intervene at an earlier point of a rejection episode and may thereby prolong survival of the transplant kidney.