Effects of Levothyroxine on Endothelial Function of Patients With Subclinical Hypothyroidism
Subclinical HypothyroidismHypothyroidism is risk factor in atherosclerotic cardiovascular diseases, but there is a controversy in effect of subclinical hypothyroidism on cardiovascular diseases. We aim to estimate the relation between subclinical hypothyroidism and endothelial dysfunction and the effects of levothyroxine therapy on it. Patients with confirmed subclinical hypothyroidism by lab results will be randomized to two groups of treatment with one daily dose of 100 mg Levothyroxine or placebo. The flow-mediated dilation and intima media thickness are evaluated before and after the study.
Study of Dose Adjustment From Levothyroxine to a New Levothyroxine Sodium Test Formulation
HypothyroidismThe purpose of this study is to investigate the effect of switching participants taking levothyroxine to a new sodium formulation.
Study of Radioiodine (131-I) Uptake Following Administration of Thyrogen and Hypothyroid States...
HypothyroidismThyroid NeoplasmsThyroid cancer is typically treated with surgery, radiation or a combination of both. Following surgical removal of thyroid tissue patients receive thyroid hormone replacement medication. In addition patients undergo tests to determine the status of the disease. One of the tests conducted is a whole body scan using radioactive iodine to detect and locate any remaining cancerous thyroid tissue. Thyroid tissue uses iodine to make thyroid hormones (T3 and T4). In order for a radioiodine scan to work, cancerous thyroid tissue must be "hungry" for iodine. Thyroid stimulating hormone (TSH) produced in the pituitary gland is responsible for making thyroid tissue "hungry" for iodine. Once thyroid tissue absorbs the radioactive iodine it will be clearly visible on the scan and can be located for removal. However, thyroid hormone replacement medication tends to lower the activity of the pituitary gland and the amount of naturally produced TSH. So it is necessary to stop thyroid hormone replacement to increase TSH. A problem arises when there is a lack of thyroid hormone replacement causing patients to experience hypothyroidism. This condition is associated with unpleasant physical and emotional symptoms. TSH has been created in a laboratory and called Thyrogen. It is basically the same as the TSH produced in the human pituitary gland. However, Thyrogen increases the level of TSH in the body without having to stop thyroid replacement medication. Therefore patients will not experience hypothyroidism while preparing for a radioactive iodine scan. The objective of this study is to compare the activity of radioiodine (131I) in patients taking Thyrogen with normal thyroid activity versus patients with hypothyroid activity after thyroid replacement medication is withdrawn. In addition the study will provide information on how radioactive iodine is eliminated from the body. The study will help researchers understand how to give Thyrogen and radioiodine for purposes of scanning and therapeutic ablation (the destruction of function) of cancerous thyroid tissue. The study will accept patients with non-medullary thyroid cancer who are preparing for ablation therapy. The patients will be placed in one of two groups. Group one will receive Thyrogen in 2 doses 24 hours apart. Group two will receive Thyrogen in 3 doses 72 hours apart. The patients will undergo two 131I whole body scans: one after Thyrogen while taking thyroid hormone suppressive and the second after withdrawal from thyroid hormone. 131I ablative therapy will be given under hypothyroid conditions at the completion of the study.
Awareness of Osteoporosis in Patients With Hypothyroidism
HypothyroidismOsteoporosis1 moreOsteoporosis is a condition that describes compromised skeletal microarchitecture in general, with clinical signs of decreased bone mineral density. Patients with hypothyroidism are at increased risk for developing osteoporosis. Identifying whether multiple sclerosis patients have information and awareness about this disease is crucial. This study is aimed to investigate awareness and knowledge of osteoporosis in patients with hypothyroidism.
NAFLD in Patient of Hypothyroidism
NAFLDNonalcoholic fatty liver disease (NAFLD) is the most important chronic liver disease in the western world, affecting almost 30% of the general population. Moreover, the prevalence of NAFLD can be higher in type 2 diabetic patients and obese patients, affecting up to 90% of people with a body mass index higher than 40 kg/m2. NAFLD is also the most rapidly increasing cause of hepatic cirrhosis requiring hepatic transplantation in the future. The pathophysiology of NAFLD is complex and involves multiple hits, but the principal contributing factor to its development is hepatic lipid accumulation, which leads to hepatic insulin resistance
Recovery Rate in Secondary Hypothyroidism
Secondary HypothyroidismThe aim of this project is to assess the rate of recovery of secondary hypothyroidism in patients with pituitary disorders.
Quality of Life Among Egyptian Hypothyroid Patients
HypothyroidismAssessment of quality of life among hypothyroid patients in Assiut University Hospital
Study of Optimal Replacement of Thyroxine in the Elderly
HypothyroidismAll 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: Some older people with hypothyroidism may have few symptoms. 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. 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.
A Study of T3 Therapy in Patients With Hypothyroidism
HypothyroidismThe 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.
A Study of Armour® Thyroid Compared to Synthetic T4 (Levothyroxine) in Previously Hypothyroid Participants...
HypothyroidismThyroid Disease3 moreThis study will evaluate the safe and effective dose conversion from levothyroxine (synthetic T4) therapy to Armour Thyroid therapy in participants who are on a stable dose of levothyroxine and have thyroid stimulating hormone (TSH) levels within the normal reference range.