View clinical trials related to Porphyrias.
Filter by:This study aims to provide high quality evidence for the effectiveness and safety of hemin (PanhematinTM , Recordati) for treatment of acute attacks of porphyria. These types of studies have not been done before with either PanhematinTM or the hemin preparation available in Europe (NormosangTM, Orphan Europe). There are two treatment groups in this study. One group will be treated with PanhematinTM plus glucose, and the other group will be treated with glucose plus an inactive salt solution (called a "placebo"). To avoid prejudice, the treatment given to each participant will be blinded (meaning the participants and most of the hospital staff will not know which treatment the participant will receive) and randomized (meaning participants will have an equal chance of receiving either treatment, like the flip of a coin). A placebo-controlled, randomized study is the standard method used to prove treatments are effective and safe. PanhematinTM and glucose will be given in the same manner as is usual for treating an attack of porphyria. For participants who are chosen to receive the placebo, their treatment will be switched to real PanhematinTM at any time if their symptoms do not improve. This is called "rescue" treatment, and assures that they study is safe and patients who need hemin will receive it. Treatment with hemin will be for 4 days, or longer if needed. Since the study treatment is started as soon as possible after symptoms appear, there will be very little delay in providing hemin to those who need it. Funding Source - Office of Orphan Products Development (FDA OOPD)
This is a Phase I trial aimed to determine the safety of the investigational gene therapy product (rAAV2/5-PBGD) for the treatment of Acute Intermittent Porphyria (AIP). Up to eight patients fulfilling the eligibility criteria will participate in this multicentre, open label, single dose, dose-ranging Phase I clinical trial. The enrolled patients will be followed up to assess the safety profile of the investigational gene therapy product and to establish the maximum therapeutic safe dose to be administered in future confirmatory/pivotal clinical trial(s). In addition, the biological and clinical response to the treatment with rAAV2/5-PBGD in AIP patients will be assessed. A complete evaluation of the clinical (symptoms and quality of life assessment) and laboratory (blood and urine) data will be performed.
This is an observational prospective study that will allow evaluating the clinical and laboratory parameters evolution of at least eight patients with AIP. This study will allow establishing a baseline for the evaluation of the eight patients that are planned to be included in a gene therapy clinical trial (AAVPBGD-AIP-001) for the AIP treatment using a rAAV5-AAT-cohPBGD expression. Patients fulfilling the study inclusion criteria will undergo a clinical and laboratory evaluation for a minimum of 6 months (with one inclusion visit, one final visit and at least two visits of follow up) up to a maximum of 24 months until their inclusion in the subsequent clinical trial. A complete evaluation of the clinical (symptoms and quality of life assessment) and laboratory (blood and urine) data will be collected.
The purpose of this study is to identify the biochemical/genetic defects in erythropoietic protoporphyria (EPP). People with EPP have skin sensitivity to sunlight and occasionally develop liver disease. In this study, the investigators hope to learn the nature of the biochemical/genetic defects in EPP because this may help explain the severity of these clinical features.
Acute intermittent porphyria (AIP) is an autosomal dominant inherited disease, which is relatively prevalent in northern Norway with a total of around 90 patients. This provides us with a special opportunity to study AIP. AIP is caused by a mutation in the porphobilinogen deaminase, an enzyme in the haem synthesis. AIP presents symptoms, particularly among fertile women and older men. Typical symptoms are abdominal pain and dark red urine, nausea, vomiting, constipation, muscle weakness and nerve damage including paraesthesia and even paresis. This is known as symptomatic or manifest AIP (MAIP). Others do not display symptoms, so-called latent AIP (LAIP). AIP attacks may be triggered by a host of medicaments which affect the haem synthesis, infections, alcohol and stress. Treatments of manifestations include high sugar intake (4 sugar lumps/hour), alternatively administer glucose and Normosang (synthetic haem arginate) by intravenous injection and removing triggering factors. Diet, glucose intake, dental health and inflammatory parameters will be examined. This study can provide new knowledge about why only some people develop symptoms of AIP. Main hypothesis: There are differences in the diet, iron status, inflammation and glucose metabolism of the MAIP group vs. the LAIP group and the control group.
Porphyria cutanea tarda (PCT) is an iron-related disorder that responds to treatment by phlebotomy or low-dose hydroxychloroquine, but comparative data on these treatments are limited. The hypothesis is that hydroxychloroquine is noninferior to phlebotomy in terms of time to remission. Patients with well documented PCT are assigned to treatment by randomization if specific criteria are met. All patients are followed until remission - defined as achieving a normal plasma porphyrin concentration.
The purpose of this study is to test whether a focused questionnaire and laboratory tests can better define risk factors associated with possible genetic porphyria. The investigators hypothesize that the genetic carrier state of acute porphyria is distinctive enough that the Genetic Carrier Profile the investigators devise through this study will be useful in identifying carriers of genetic porphyria among the large population with undiagnosed abdominal pain.
The objective of this protocol is to conduct a longitudinal multidisciplinary investigation of the human porphyrias including the natural history, morbidity, pregnancy outcomes, and mortality in people with these disorders.
The investigators demonstrated that cholestyramine is an effective binding agent in vitro for porphyrins. A few isolated case reports of treatment of individuals with a cutaneous porphyria suggest that cholestyramine and colestipol effectively remove porphyrins. Hypothesis: orally administered colestipol will effectively lower erythrocyte porphyrin concentrations in subjects with erythropoietic protoporphyria (EPP).
While clinical phlebotomy is current standard practice for alleviating non-transfusion iron overload in patients with PCT, it may not be suitable for all patients. For example, some patients are unwilling to be adequately phlebotomized because of inconvenience, as phlebotomy can be cumbersome, especially during the induction treatment phase requiring frequent clinic visits (twice a month, for at least 6 months) or because of venous access difficulties. Other patients are unable to undergo phlebotomy due to medical reasons such as anemia or cardiopulmonary disorders. It is postulated such patients with PCT who have non-transfusion iron overload could benefit from treatment with deferasirox (Exjade®), a once daily oral iron chelator licensed in several countries, including the EU, for treating transfusion iron overload in adult and pediatric patients. Although there is some data on the efficacy and safety of deferasirox in patients with HH, who, like those with PCT, have non-transfusional iron overload, there is a need to evaluate the safety and efficacy of deferasirox treatment of non-transfusion iron overload in patients with PCT.