View clinical trials related to Hypothyroidism.
Filter by:The purpose of this study is to investigate the effect of switching participants taking levothyroxine to a new sodium formulation.
Congenital hypothyroidism (CH) is a rare disease that affects 1 in 3500 newborn. This condition is detected consistently since the late 1970s in France, which has led to early care and a significant improvement in prognosis and intellectual stature of these children. However neurodevelopmental disorders persist in 10-15% of cases. More associated diseases have been reported in approximately 10% of cases. These observations are in most cases poorly understood. The family nature of the CH is now well recognized and a dozen genes involved up to now. However, in the majority of cases (HC not due to a disorder of the organification of iodine), few mutations have been found in the reported number of patients (5-10%), suggesting the involvement of other genes. Some of the genes have been implicated in particular specific syndromic forms but many pathological associations remain unexplained. Also, a more complete genetic elucidation of CH would enable a better understanding of its etiology and thus its risk of familial recurrence (frequently asked questions by parents of children with CH) and secondly the presence of associated pathologies. Main goal: to describe the population with CH (not due to a disorder of the organification of iodine) not only on clinical, biological and radiological (phenotypic analysis) but also on the genetic level to establish a genotype / phenotype correlation.
The study evaluates whether hypothyroid patients requiring elevated doses of levothyroxine to maintain a euthyroid state are at increased risk of having celiac disease. It also attempts to determine if there is a threshold level of levothyroxine needed to maintain a euthyroid state in patients with hypothyroidism that should prompt serologic testing for celiac disease.
Mild thyroid failure is a common condition among older adults and has been associated with numerous adverse effects on health, such as cardiovascular disease, cognition disturbances and muscular problems. Mild thyroid failure has also been associated with an increased risk of developing depression. To date, only few studies have investigated the effect of thyroid hormone replacement on depression in patients with mild thyroid failure. This study therefore aims to assess whether thyroid hormone replacement in older adults with mild thyroid failure is associated with a decrease in the presence of depressive symptoms. This study forms a substudy of a large international study on thyroid hormone replacement in older adults with mild thyroid failure (the TRUST study).
Estimate the proper thyroid screening method during pregnancy. Evaluate if maternal subclinical hypothyroidism treatment during pregnancy result in improved pregnancy outcome and cognitive function in the children.
The purpose of this research study is to learn about the effects of treating subclinical hypothyroidism (SCH) with thyroid hormone replacement in children and adolescents with Down syndrome (DS). We hypothesize that treatment of SCH with thyroid hormone replacement will improve cardiometabolic health and quality of life.
The purpose of this study is to test a new thyroid hormone preparation. The thyroid gland produces two thyroid hormones: mostly T4 and a smaller amount of T3. Thyroid hormone therapy for hypothyroidism or thyroid cancer is generally provided using levothyroxine, which is a synthetic form of T4. T4 is converted into the active hormone T3 in the circulation. Therefore, some researchers believe that T3 levels in T4-treated patients may be slightly lower than in individuals whose own thyroid gland is functioning normally. Symptoms of hypothyroidism have been suggested to occur because of this possible T3 deficiency, although this is controversial. Studies of T3, added to or substituted for T4 in traditional levothyroxine regimens, have generally not shown any benefit of T3. However, it is still possible that no benefit is seen because of the short duration of action or "half-life" of T3. This short-life makes it necessary to dose T3 twice or three times daily. Despite multiple daily doses of T3, T3 levels during its therapy tend to be troubled by peaks and troughs. These peaks can be associated with symptoms of excessive thyroid hormone levels. This study will look at TSH and thyroid hormone levels following a daily dose of a new preparation of T3 that may have longer duration of action than liothyronine. This preparation of T3 is called Thyromax® or BCT303. The investigators believe that steady levels of T3 will be seen after taking Thyromax®. The investigators believe that in patients with hypothyroidism use of Thyromax® in the correct dose will produce normal TSH levels, without producing symptoms of too much thyroid hormone. The goal of future studies is to test whether Thyromax® may be a potential treatment for hypothyroidism, by comparing it with traditional levothyroxine therapy.
L-carnitine and thyroid hormone tended to antagonize reciprocally in human body. Urinary excretion of L-carnitine decreased in hypothyroid patients, and levothyroxine supplementation increased excretion of L-carnitine. The investigators hypothesized that supplying L-carnitine to hypothyroid patients with fatigue symptom could improve the quality of life, and fatigue score in them. Therefore, the investigators planned to compare the efficacy of L-carnitine and placebo in hypothyroid patients who had taken levothyroxine.
Subclinical hypothyroidism (SCH) is a common condition among older men and women. Although by definition SCH comprises biochemically mild thyroid hormone deficiency without overt symptoms, it is a possible contributor to multiple problems in older age. Thyroid hormone has effects on numerous physiological systems, including the vascular tree, heart, skeletal muscle and brain. Therefore, thyroxine substitution to overcome thyroid hormone deficiency has the potential to give multisystem benefits to older people with SCH. Small studies have reported reduced atherosclerosis and improved heart function with thyroxine replacement, but no large clinical trials have been performed. Therefore the available evidence is limited, leading to major variations in guidelines and clinical practice, with uncertainty regarding the indications for screening and treatment. The investigators propose a multicentre randomised placebo controlled trial to assess the impact of thyroxine replacement in a minimum of 540 older adults (maximum 750) with persisting SCH (excluding those in whom it is a temporary phenomenon who are unlikely to benefit). The investigators will include older men and women with a wide age range and of varying health status. Outcomes include health related quality of life, muscle strength, executive cognitive function and cardiovascular events, with a minimum of 1 year of follow up. Blood and urine samples will be stored in a biobank, to allow future research on causes of ill health in older people with SCH. The investigators have the support of patient advocacy groups and a consortium with the wide range of expertise and experience required to conduct large scale multicentre clinical trials. The proposal explores the multisystem and quality of life benefits to older people of a tailored approach to management of SCH. This clinical trial should definitively clarify whether thyroxine treatment for SCH provides benefits that are relevant for patients. This trial will provide strong evidence with the potential to improve clinical practice, reduce health care costs and promote healthy ageing of older adults.
All patients with hypothyroidism are currently treated the same way, regardless of age. The investigators want to look at whether people aged 80 years or older would benefit from being treated with lower doses of levothyroxine. There are three reasons why the investigators think this could be beneficial, but this is not yet proven: 1. Some older people with hypothyroidism may have few symptoms. 2. Doctors look at the amount of Thyroid Stimulating Hormone (TSH) in the patient's blood to decide the dose of Thyroxine received. The standard "normal" TSH range used to determine the dose of levothyroxine is from younger people. The investigators wonder whether this is appropriate to all age ranges particularly as the investigators know that older people may normally have higher TSH values. 3. If TSH levels are too low there may be a slight increased risk of problems such as brittle bones or an irregular heartbeat. The best way to test whether older people benefit from lower doses of levothyroxine is by a large clinical trial. Before the investigators can do this, the investigators need to run a smaller clinical trial called a "pilot study" (SORTED 1) to examine whether this is practical and acceptable. The pilot study aims to recruit 50 patients with hypothyroidism aged 80 or above. Participants will be randomly allocated to receive their routine or lower dose of levothyroxine. Follow-up will be conducted over approximately 25 weeks. The investigators also propose a qualitative study (SORTED 2) to specifically understand patient's willingness to take part in a RCT and participant's experience of the intervention. Finally, the investigators propose a retrospective cohort study of 400 treated hypothyroid patients aged 80 years or more registered in 2008 in Primary Care Practices with the aim of studying outcomes after 4 years. The cohort study will collect data required to inform a sample size calculation for a future full study where the primary outcome will be 4 year mortality.