View clinical trials related to Hyperparathyroidism, Primary.
Filter by:This is a multicentre, descriptive observational study of adult patients with primary HPT receiving cinacalcet in clinical practice in a number of countries in Europe. Patients will be enrolled within 1 month of initiating cinacalcet treatment, and data will be collected prospectively for up to 1 year from initiation. Data will continue to be collected from patients discontinuing cinacalcet before the end of this period.
The aim of the present study was to compare open minimal-invasive parathyroid surgery with video-assisted parathyroidectomy in primary hyperparathyroidism (PHPT) patients with a positive sestamibi scan in a multicentre randomized trial in order to evaluate if videoassisted surgery gave less postoperative pain and if there was a difference in operating time.
The primary aim of the study is to assess whether 6-months of vitamin D supplements can decrease PTH compared with placebo treatment in primary hyperparathyroidism.
The goal of this clinical research study is to learn how the standard practice of giving Vitamin D supplements to patients with a Vitamin D deficiency may affect the size of the parathyroid glands in patients with PHPT and a Vitamin D deficiency.
The present study is a randomized, controlled trial that investigates the effects of parathyroidectomy or medical observation in mild asymptomatic pHPT on morbidity and quality of life (QoL).
This is a research study to investigate cardiovascular health in people with mild hyperparathyroidism. Previous research has suggested that severe hyperparathyroidism may be associated with abnormalities in the heart and blood vessels. It is unclear whether mild hyperparathyroidism affects cardiovascular health. This study involves the investigation of the heart and blood vessels of people with mild hyperparathyroidism. Various non-invasive laboratory and radiological test to assess cardiovascular and bone health will be done at set intervals over the course of 2 years. It is our hypothesis that patients with primary hyperparathyroidism will have subtle abnormalities in their cardiovascular system. Using state-of-the art techniques that are sufficiently sensitive to detect these subtle abnormalities, we will define cardiovascular features of this disease that have, up to now, eluded clear definition. We expect taht the extent of these findings will be related to the severity of the underlying primary hyperparathyroidism. We further hypothesize that cardiovascular manifestations may regress with successful cure of the hyperparathyroid state.
We are investigating whether, after surgical cure of primary hyperparathyroidism, alendronate provides even greater beneficial skeletal effects than parathyroidectomy alone. Primary Hyperparathyroidism (PHPT) is a disorder that can be associated with bone loss. After successful surgery for PHPT bone density improves without any treatment. However, it is possible that bone density might improve to an even greater extent if Fosamax is used after the surgical cure. Fosamax is approved by the FDA for the prevention and treatment of osteoporosis, and the goal of this project is to determine whether after successful surgical cure of PHPT, Fosamax is even better for the skeleton than just parathyroid surgery alone.
This study will evaluate the benefits and side effects of a new medication called Cinacalcet for treating patients with primary hyperparathyroidism associated with multiple endocrine neoplasia type 1 (MEN1) or type 2A (MEN2A). Patients with primary hyperparathyroidism have elevated levels of blood calcium caused by too much parathyroid hormone released by one or more parathyroid tumors. The parathyroids are small glands located in the neck. Most cases of primary hyperparathyroidism are due to a single overactive parathyroid gland, but in MEN1 and MEN2A, several glands are overgrown and overactive. Cinacalcet decreases the secretion of parathyroid hormone. Patients 18 years of age and older with primary hyperparathyroidism and MEN1 or MEN2A and who are not candidates for parathyroid surgery may be eligible for this study. Participants are admitted to the Clinical Center for 1 week blood and urine tests and imaging studies, and initiation of Cinacalcet treatment. They take the drug by mouth and have daily blood tests until the dosage required to achieve normal blood calcium levels is determined. Patients return to the hospital 2 weeks later for 1 week to evaluate the response to the drug and make any necessary adjustments. Treatment may continue for as long as 1 year with 1-week admissions every 3 months to monitor the benefits and side effects of Cinacalcet. Evaluations may include the following: - Blood and urine analyses. - Measurement of gastric acid secretion. For this test, a soft plastic tube is inserted into the nose or mouth and then swallowed and then gently removed about an hour later. - Injections of secretin, calcium and arginine into a vein and collection of blood samples to measure the responding increase in levels of gastrin, calcitonin and insulin, respectively. These tests are used to diagnose and monitor hormone secretion from endocrine tumors and are used in this study to assess the response to Cinacalcet treatment. - Radioisotope test to evaluate tumors of the endocrine organs. A radioactive substance injected into a vein is taken up by the endocrine tissue and the concentrated radioactivity is measured. - Imaging tests, such as MRI and CT, to detect or follow growing tumors in the pituitary, neck, and abdomen. CT is a special type of x-ray machine that visualizes tissues, such as thyroid or parathyroid tumors. MRI uses a magnetic field and radio waves to obtain pictures of different tissues in the head, neck and abdomen. - DEXA scan to assess bone density. This test uses standard low-intensity x-rays.
This study will assess an investigational medication for patients with severe primary hyperparathyroidism or parathyroid cancer.
Parathyroid glands are small endocrine glands that secrete a hormone which controls blood calcium levels. Primary hyperparathyroidism (PH) is a common disorder whereby one or more of these glands may enlarge and overproduce their hormone. Subsequently, the elevated blood calcium can cause many other symptoms and problems. The standard treatment is surgical removal of the gland(s) causing the disorder. The standard safe and effective operation has been the bilateral open parathyroid exploration (BOPE). A newer procedure using a radioactive compound that concentrates in the parathyroid glands allows a more limited operation to find and remove the causative gland [Minimally-Invasive Radioguided Parathyroidectomy (MIRP)]. The radiation exposure is minimal and safe. Although the operation may prove to be less expensive, it is not certain whether it is as effective or as safe as BOPE. This study serves to directly compare the costs, the effectiveness, and the safety associated with each type of operation. All patients (adolescents and older) with PH are candidates to participate. The participants will be randomly assigned to the MIRP group or the BOPE group independently of patient or physician preferences. MIRP patients will undergo a sestamibi nuclear medicine scan to attempt to localize the specific parathyroid gland causing the hyperparathyroidism and subsequently a limited operation under local anesthesia to remove the single gland. Parathyroid hormone levels will be measured during the operation to ensure that the patient has been cured. If not, the standard BOPE procedure will be completed. The total cost of the care will be tracked for each group. Careful testing for complications such as vocal cord dysfunction will be done. General Health status and pain levels will be measured before and after each operation. Patient satisfaction with the operation and care will also be assessed.