View clinical trials related to Hyperoxaluria, Primary.
Filter by:Evaluation of the efficacy and safety of stiripentol in patients 6 years and older with primary hyperoxaluria type 1, 2 or 3.
Primary hyperoxaluria type 1 (PH1) is a rare genetic disease caused by mutation in the AGXT gene encoding the hepatic peroxisomal enzyme AGT. Reduced AGT activity results in increased glyoxylate and oxalate production, causing the formation of kidney stones, nephrocalcinosis and renal failure. Clinical trials of Lumasiran have provided information on the efficacy and safety of Lumasiran in the treatment of primary hyperoxaluria type 1. However, they do not provide data on long-term efficacy, safety and patient management. As part of the post-marketing follow-up of Lumasiran, in agreement with the authorities, this study proposes a retrospective and prospective follow-up over 5 years of pediatrics and adults patients treated in France with a standardized clinical, biological and radiological follow-up. The main objective is to monitor the evolution of PH1 parameters and particularly oxaluria before and after treatment.
The goal of this National Registry is to is to collect information from patients with rare kidney diseases, so that it that can be used for research. The purpose of this research is to: - Develop Clinical Guidelines for specific rare kidney diseases. These are written recommendations on how to diagnose and treat a medical condition. - Audit treatments and outcomes. An audit makes checks to see if what should be done is being done and asks if it could be done better. - Further the development of future treatments. Participants will be invited to participate on clinical trials and other studies. The registry has the capacity to feedback relevant information to patients and in conjunction with Patient Knows Best (Home - Patients Know Best), allows patients to provide information themselves, including their own reported quality of life and outcome measures.
The purpose of this program is to provide participants with access to an investigational drug, nedosiran, for treatment of primary hyperoxaluria type 1 (PH1). Eligible participants may receive nedosiran in this program until the drug is commercially available or until Novo Nordisk terminates the program, whichever comes first. Novo Nordisk may terminate the program at any time for any reason, including if the drug receives regulatory approval and becomes commercially available, or if the drug does not receive regulatory approval. Nedosiran will be given once a month with a thin needle in the thigh or abdomen. The study doctor will ask the participant to come to the clinic monthly. The study doctor may allow participant to take nedosiran at home for self-administration. The participant should let the doctor know if they are unable to make a visit so it can be rescheduled. Participants to inform the study doctor of any medications they are taking, including over the counter medicines, vitamins, and herbal medicines. If any medications change in dose, or new medications are added, participants should inform the study doctor. Study doctor should be informed of any new or continued health problems or any changes in the participant's health.
In Germany parents of newborns are offered newborn screening (NBS) for 17 congenital diseases as a standard benefit of statutory health insurance. NBS in Germany is voluntary. Cystinosis and hyperoxaluria are very rare diseases. They are inherited autosomal-recessively. Neither disease can be detected by the methods established in routine NBS. However, common genetic mutations are known for both diseases. The aim of the study is to provide a scientific basis for molecular genetic NBS for cystinosis and primary hyperoxaluria (PH). Specifically, the study will investigate whether the inclusion of these diseases into general NBS should be recommended. By observing the identified infants in comparison to patients symptomatically diagnosed outside of the pilot project, it will be determined whether and to what extent early diagnosis and therapy lead to a more favorable prognosis. The screening laboratory Hannover, Germany is involved in the project. Hospitals that send their dry blood spot cards for routine NBS to Hannover are offered participation in the project. Parents who want to participate receive an additional information sheet. A parent and the attending physician sign the information sheet as documentation of informed consent, which allows data transfer and patient referral to a specialist in case of a positive result. Molecular genetic screening in the pilot project is performed from the same dry blood spot card used for routine NBS. In both diseases, testing is performed for 2 known mutations: In cystinosis for the 2 mutations most common in Germany, and in PH for the most common mutation in infantile hyperoxaluria (PH1) and in Europe (PH3). Normal findings are not communicated to the parents, which may contact the laboratory to ask for them. Parents of newborns with two mutations in the cystinosis gene are immediately informed about the disease by a physician. Further diagnostics to confirm the disease are organized close to home. In contrast, parents of newborns with only one mutation in one of the two hyperoxaluria genes are informed. They are asked to send spot urines of the newborn to the hyperoxaluria center. Only if these are abnormal, further evaluation will be performed. The study started on 15.03.2022. The aim is to screen 200,000 newborns until 2025. If the benefit of early diagnosis and therapy can be shown, an application for inclusion of a NBS for these two diseases in the routine NBS program will be submitted to the German government.
Newborn screening (NBS) is a global initiative of systematic testing at birth to identify babies with pre-defined severe but treatable conditions. With a simple blood test, rare genetic conditions can be easily detected, and the early start of transformative treatment will help avoid severe disabilities and increase the quality of life. Baby Detect Project is an innovative NBS program using a panel of target sequencing that aims to identify 126 treatable severe early onset genetic diseases at birth caused by 361 genes. The list of diseases has been established in close collaboration with the Paediatricians of the University Hospital in Liege. The investigators use dedicated dried blood spots collected between the first day and 28 days of life of babies, after a consent sign by parents.
985 / 5000 Résultats de traduction Primary hyperoxaluria is a rare autosomal recessive disease with an estimated prevalence of around 1 to 3 cases per million population. The most frequent attacks are urolithiasis disease and nephrocalcinosis, ultimately leading to end-stage chronic renal failure. The phenotype of this pathology is very heterogeneous, making the diagnosis difficult. There is currently a significant diagnostic delay. This is potentially due to atypical forms, or to insufficient clinicians' awareness of its research. However, the early diagnosis of this pathology is essential, since end-stage chronic renal failure can be avoided or at least delayed with early and appropriate management. The objective of the study is to describe the phenotype of currently diagnosed primary hyperoxaluria, in order to identify the classic presentations but also the characteristics of atypical presentations
The aim of this study is to evaluate nedosiran in participants 11 years of age and younger who have Primary Hyperoxaluria with relatively intact renal function.
The purpose of this study is to describe the natural history and progression of patients diagnosed with PH1, and to characterize the long-term real-world safety and effectiveness of lumasiran.
The aim of this study is to evaluate DCR-PHXC in participants with PH1 or PH2 and severe renal impairment, with or without dialysis.