View clinical trials related to PKU.
Filter by:PKU UP is a prospective, single-arm, open-label, 26-week acceptability study to evaluate PKU UP for the dietary management of participants with phenylketonuria (PKU). Up to 15 participants aged 1 - 10 years old will be recruited and it is anticipated the study will open in at least three sites in the United Kingdom (UK) to recruit the target number of participants in the required timeframe.
Three new protein substitutes have been developed to help with compliance in PKU and TYR patients, which are powdered protein substitutes, low in Phe and, low in Phe and Tyr respectively, with a mixed balance of glycomacropeptide (GMP), essential and non-essential amino acids, carbohydrates, fats and micronutrients for the dietary management of PKU and TYR. This series of case-studies will evaluate the acceptability, compliance, gastrointestinal tolerance and safety of the three GMP-based products for PKU and TYR in 45 patients with PKU and TYR, in both adults and children over 3 years (15 patients per product). The case study will last 29 days in total, including a 1-day baseline period followed by a 28-day intervention period. The case studies will be conducted across multiple specialist metabolic centres in the UK, to meet the UK ACBS and GMS requirements for acceptability studies. A series of case studies is undertaken due to the rarity of these conditions and the difficulty in recruiting these patients to trials.
A prospective, open label, acceptability study to evaluate PKU, MSUD, HCU, TYR and GA express plus in the dietary management of 40 patients with IEM. The following parameters will be assessed: adherence to prescribed dietary intakes, palatability, usability, gastrointestinal tolerance, clinically relevant routine biochemical parameters, timeframe to transition and contribution of the express plus range to overall protein substitute intake over a 28 day period.
The objective of this study is to characterize the natural history of phenylketonuria (PKU) due to phenylalanine hydroxylase (PAH) deficiency in adults through prospective collection of clinical, cognitive, and quality of life assessments.
20 participants with PKU will build-up their dietary intake of PKU sphere over 2-16 weeks, depending on their level of metabolic control whilst doing so. Participants will complete a gastrointestinal specific and PKU specific questionnaire at the Baseline clinic visit and record the amount of PKU sphere taken each day. Dried blood spots are taken twice per week. Once built up to a clinically appropriate intake of PKU sphere, or after 16 weeks, participants enter a 4-week Evaluation Period. The amount of PKU sphere taken per day continues to be recorded by participants. Gastrointestinal tolerance over the preceding seven days is recorded at the end of each week. Evaluations of PKU sphere's palatability are made at the end of weeks two and four of the Evaluation Period. Dried blood spots are taken once per week. The participant attends an End of Study Visit at the clinic and the investigator decides whether they should continue taking PKU sphere.
The aim of this study is to demonstrate that a new protein substitute is acceptable and well tolerated in children with PKU.
The aim of this study is to demonstrate that a new protein substitute is acceptable and well tolerated in children with PKU.
In this study the feeding patterns and practices at the introduction of a second stage phe-free protein substitute will be assessed in young children with PKU. This will be compared with the normal weaning process in healthy non-PKU age-matched children. In addition, tolerability and acceptability of the study product will be evaluated in a smaller group of subjects who have already been transferred onto a second stage protein substitute. The study is performed in 3 centers in the United Kingdom.
To date, oxidative stress in PKU has been evaluated only with fragmented approaches.The aim of the present study is to investigate oxidative stress in PKU with more comprehensive methods.The relationship between oxidative stress and metabolic disturbances (hyperPhenylalaninemia) will also be studied.
Phenylketonuria (PKU), an inherited genetic disorder, can cause irreversible brain damage, declined executive function, and autistic tendencies unless a phenylalanine (Phe) restricted diet is consistently maintained throughout life. Promoting anabolism, the uptake of free amino acids from the extracellular space, is a key component to maintaining plasma phenylalanine concentrations within treatment range among patients with PKU. Exercise promotes muscle protein synthesis and anabolism, but the effect on blood phenylalanine concentrations in patients with PKU has not been reported. Our objective is to assess the impact of an acute bout of moderate intensity exercise on protein oxidation and plasma amino acid concentrations, as a potential adjunctive therapy for patients with PKU. The investigators hypothesize that moderate intensity exercise decreases amino acid oxidation, increases muscle protein synthesis, and promotes tissue uptake of essential amino acids, thereby lowering plasma phenylalanine concentrations in patients with Phenylketonuria.