View clinical trials related to Phenylketonurias.
Filter by:This research investigates the effectiveness and safety of large neutral amino acid (LNAA) supplementation in patients with classical phenylketonuria (PKU). Advanced brain imaging techniques alongside comprehensive neuropsychological and functional assessments will be employed. Short-term and long-term follow-up of participants will be conducted.
This is a Phase 1/2, open-label, multiple-center, dose escalation and cohort expansion study to evaluate the safety and efficacy of NGGT002 in adult subjects with classic Phenylketonuria (PKU). NGGT002 is an rAAV8 based vector carrying a functional copy of the human PAH gene. Participants will receive a single administration of NGGT002 and will be followed for safety and efficacy for 5 years.
The aims of this collaborative, interdisciplinary research project are to understand and describe the psychological impact of the announcement of a rare, serious disease present since birth and detected in the context of the systematic neonatal screening (DNS), in terms of the parents' experience, but also on the part of the medical team, in order to improve its process and the support it provides for the announcement of the diagnosis.
Phenylketonuria is a rare metabolic disease that results from the absence or near-absence activity of the enzyme phenylalanine hydroxylase, which metabolizes the amino acid phenylalanine to tyrosine in the body. Accumulation of phenylalanine in the brain causes brain damage that leads to mental retardation, neurological complications, and movement disorders. The study is inherited autosomal recessively. The basis of treatment is a low-protein diet with dietary supplements of aminoxlin without phenylalanine and with appropriate substitutes for micro and macronutrients needed for different ages. A low-protein diet regulates the level of phenylalanine in the blood. This is especially important in childhood. In the study, which will basically consist of theoretical, experimental and numerical work, the investigators will limit to a specific population, i.e. to adult patients with phenylketonuria. The research is intended to prove the hypothesis that with proper nutritional treatment of phenylketonuria in adulthood, we can have a positive effect on the patient's well-being, better blood results and improved lifestyle. The investigators intend to test this hypothesis by implementing a complex, multidisciplinary project that will include a comprehensive treatment of adult PKU patients. This will be based on a multidisciplinary approach with the inclusion of medical and nutritional treatment. As part of the project, the investigators, among other things, create questionnaires and analyze food diaries related to the mentioned areas. Using various statistical techniques, the investigators analyze the impact of individual factors on the success of achieving the objectives of the proposed study. The original contribution to science will be the nutritional treatment of adult patients with phenylketonuria in Slovenia and the consequent reduction of health complications in adulthood of patients with phenylketonuria.
You were detected during the neonatal period for phenylketonuria and you benefited from the diagnosis of an adapted dietetic care, and this for a variable duration according to the recommendations followed at that time. The recommendations for the management of phenylketonuria have evolved considerably over time, lengthening the duration, rigor of the diet and target rates. However, few studies have been able to determinate the influence of metabolic balance and pediatric management on fate in adulthood. As you know, the current recommendations are more stringent and prolonged, without taking into account the pediatric data of today's adult patients. The objective of this study, which is aimed at all adult patients screened and followed by Lille University Hospital, according to the same care methods, allowing a homogeneous monitoring of patients, is to assess the influence of pediatric care (duration of the diet, metabolic balance, compliance) on the future in adulthood. This retrospective and current analysis work could help refine the current recommendations.
The study aim is to follow up body growth(body weight by kg, length by cm, head circumference, abdominal circumference, and body mass index ) and mental development of infants on phenylalanine restricted diet in comparison with normal matchable infants.
This study will evaluate the compliance, acceptability, gastrointestinal (GI) tolerance and safety of a lower calorie amino acid based liquid protein substitute for patients with Phenylketonuria (PKU) or hyperphenylalaninemia (HPA).
Most forms of Phenylketonuria and hyperphenylalanemia are caused by mutations in the PAH gene (phenylalanine hydroxylase) which is responsible for the conversion of Phe into tyrosine, in the presence of the molecular oxygen and cofactor tetrahydrobiopterin (BH4). To prevent mental retardation due to the buildup of neurotoxic metabolites of Phe, patients with severe PKU must be treated with a low-Phe diet starting early in their life [1]. Although Phe-restricted diet control is essential for avoiding neurological impairment, the life-long compliance with this dietary control is not optimally maintained, particularly in adulthood and adolescence [2]. Non-adherence to dietary control after successful treatment in early childhood may contribute to lower intelligence quotient (IQ), emotional and behavioral disorders, including attention deļ¬cit disorders, depression, anxiety, and agoraphobia. In recent years, another therapeutic approach for managing PKU is to supplement a synthetic form of BH4 along with diet control. Kure et al. and several other research teams had indicated that treatment with BH4 might lower down the Phe level in a subset of PKU patients [3-7]. BH4 acts as a pharmacological chaperone to stabilize mutant enzymes with disrupted tetramer assembly and increased sensitivity to proteolytic cleavage and aggregation. The BH4-supplementation therapy (Kuvan) can be used to loosen or even replace burdensome dietary treatment of PKU patients. Correct and efficient identification of BH4-responsive patients is important, both to improve the fast assessment, as well as to avoid false expectations and unnecessary costs. Unfortunately, there is still no golden standard on how to assess BH4 responsiveness most efficiently. In Taiwan, high-dose BH4 [20mg/kg] loading is the standard test to identify patients who are responsible to BH4 treatment, for PAH deficiency PKU patients with more than 30% decrease in Phe level within 24 hours after BH4 challenge were BH4-responsive patients and eligible for national health insurance coverage of continuous BH4 treatment. In clinical studies, blood Phe levels in patients who are BH4-responsive typically decrease within 24 hours after a single administration of Kuvan, although the maximal effect on blood Phe levels may take up to a month. A Phase IV open-label trial showed that of 64% of patients responded to Kuvan within 7 days whereas 10% responded between 8-28 days. To the best of our knowledge, there's no previous study which evaluated longer than 7 days BH4 response test in Asian countries, and for the purpose to help PAH deficiency PKU patients achieve optimal Phe control and neurocognitive outcomes, it's definitely worthy to extend the period of BH4 response test to identity more patients who can benefit from Kuvan treatment.