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NCT05051657
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.
NCT06495567
Homocystinuria is a rare and inherited metabolic disorder, people with this condition don't have an enzyme needed to break down an amino acid called homocysteine. When the body can't break down the homocysteine made from another amino acid methionine, it becomes toxic to the heart, brain, and bones. We are constantly eating methionine, a building block of protein, so a common treatment is eating a low-protein diet with medical foods and vitamin pills. This can be hard to follow due to bad tastes and missing out on foods a person enjoys, especially in children. The goal of this study is to provide participants with a supplement containing creatine, another amino acid related to methionine and homocysteine, and learn if it lowers homocysteine production in healthy adult men. We would ultimately like to see if creatine supplements are a potential alternate treatment of Homocystinuria in this proof of concept study, before studying individuals with the condition. Researchers in this study want to know: * How does the bodies digestion of isotope methionine change in breath and urine when creatine is taken in healthy young adult men? * How do levels of homocysteine, methionine and related metabolites change in the blood when creatine is taken by healthy young adult men? Participants will: * Complete two (2), 8-hour study days on-site. * Eat a lower protein diet for one (1) week before the first study day, and eat a lower protein diet with creatine supplements for one (1) week before the second study day. * During both study days eat special hourly meals of controlled amino acids and nutrients, along with a methionine isotope. (An isotope is a stable labelled amino acid that is colourless, odorless, tasteless, and safe for consumption. In the lab we can detect this isotope in breath and urine samples collected during the study day). * Provide samples of breath, urine and blood. (Researchers will also take body measurements (height weight), and use non-invasive tests to measure body composition and energy needs).
NCT06431893
The goal of this long-term extension (LTE) study is to evaluate the safety and efficacy of pegtibatinase in patients with classical homocystinuria (HCU). Patients who are active in the Phase 1/2 COMPOSE study or those who complete the 24 weeks of treatment in the Phase 3 HARMONY are eligible to participate. Participants will be in this clinical study for up to about 13 months including: * a treatment period of up to 104 weeks * a 4-week safety follow-up period
NCT03406611
Homocystinuria caused by Cystathionine Beta-Synthase (CBS) Deficiency is a rare autosomal-recessive metabolic condition characterized by an excess of homocysteine (Hcy) in the plasma, tissues and urine. It is due to reduced or absent activity of the CBS enzyme, and is also known as classical homocystinuria. The symptoms associated with homocystinuria are variable in severity and time of onset across patients. Some affected individuals may have mild signs of the disorder; others may have multi-systemic involvement including potentially life-threatening complications. Homocystinuria can affect many different organ systems of the body; the four most commonly involved are the eyes, central nervous system, skeleton, and the vascular system. The current approaches to treatment of homocystinuria patients include a highly restrictive diet and use of dietary supplements. Lifetime compliance with this diet is poor. Pegtibatinase (TVT-058) represents a novel therapeutic approach that incorporates the use of a modified version of the native, human CBS (hCBS) enzyme. The goal of treatment is to introduce the CBS enzyme into circulation, resulting in reduced Hcy levels, increased cystathionine (Cth) and cysteine (Cys) levels.
NCT05910151
Inborn errors of metabolism (IEM) are not have specific clinical signs, they masquerade as other diseases, and are difficult to diagnose using only clinical manifestations or routine laboratory tests. IEM most commonly manifest in early infancy and childhood. Despite the fact that most IEM are rare in the population, they occupy one of the first places in the structure of childhood pathology, early infant mortality and disability. IEM often remains undiagnosed, while timely diagnosis and timely treatment started can prevent severe systemic damage leading to death and disability. The appointment of a special treatment (diet therapy, cofactors, enzyme replacement therapy) prevents or significantly inhibits the development of the pathological process, especially if the diagnosis is made in the early stages of the disease. To start pathogenetic treatment as early as possible, it is necessary to diagnose IEM as accurately and as early as possible. Among the diseases included in mass screening programs IEM are especially important due to the development of disability and early mortality in the absence of timely diagnosis and treatment, as well as a high risk of recurrence in burdened families. In this connection, the main goals of mass screening - the prevention of disability in children and the reduction of early infant mortality - dictate the need to introduce modern technologies for preclinical diagnosis of IEM. Based on the results of the study, it is planned to scientifically substantiate the need for the introduction of selective screening of children for hereditary metabolic diseases using the technology of tandem mass spectrometry in the Republic of Kazakhstan for timely diagnosis, therapy of IEM and prevention of disability. The introduction of a selective newborn screening program for IEM should always be preceded by a study aimed at studying the prevalence of the disease in a certain region, determining regional reference values of the studied metabolites. Local incidence and outcome data can be used to persuade health officials to prioritize screening in health care spending. The main scientific question and hypothesis of the project is whether it is necessary to introduce tandem mass spectrometry technology in the neonatal screening program for IEM.
NCT02404337
Oral treatment with betaine is conventionally used for patients with inherited homocystinurias. These conditions include a first group of patients with a cystathionine β-synthase (CBS) deficiency and a second group of patients with remethylation defects. The aim of betaine therapy is to reduce level of total plasma homocysteine. Daily dosages and rhythm of administration proposed in the literature vary between 100 to 250 mg / kg / d in 2 to 4 doses. These dosages are not based on validated data and several publications mention much higher dosages particularly when total homocysteine is not controlled. These practices may be unnecessary or even detrimental given the fact that high doses of betaine could for example lead to secondary folate deficiency.
NCT01192828
Cystathionine beta-synthase deficiency is an inherited disease that results in elevation of a substance called homocysteine (Hcy) in blood and urine. Individuals with this disorder have a very high risk for developing blood clots and are at risk for developing eye and bone abnormalities. Current treatments are generally difficult to follow and can fail. Development of additional therapies has been limited by lack of understanding of how the disease works. The purpose of this study is to see if oxidative stress and inflammation are involved in the disease process and if short-term supplementation with taurine is an effective treatment. Funding source: FDA.
NCT00483314
The purpose of this study is determine if oral N-acetylcysteine is effective in lowering homocysteine in individuals with homocystinuria.