View clinical trials related to Hyperparathyroidism, Primary.
Filter by:The study aims are: 1. To compare the diagnostic performance of parathyroid four-dimensional CT (4D-CT), scintigraphy, and ultrasound in patients who underwent parathyroid surgery for primary hyperparathyroidism. 2. To compare 4D-CT, scintigraphy, and ultrasound for the ability to perform focused parathyroidectomy, and for rates of persistent hyperparathyroidism and complications from parathyroid surgery. Methods The investigators will create a multicenter registry consisting of patients having parathyroid surgery for primary hyperparathyroidism from July 2009 to June 2016. Initial participating centers include Duke University Medical Center, University California Los Angeles (UCLA) and University of Arkansas for Medical Sciences (UAMS). There will be no intervention in the patient's treatment or imaging. The management will be determined by the surgeon or clinician supervising the patient's care. The registry will consist of patient data regarding basic demographics, history of prior neck/chest surgery or radiation, parathyroid imaging, biochemical evaluation, intraoperative surgical findings, parathyroid pathology, and surgical outcomes within the first 6 months (persistent disease, recurrent laryngeal nerve injury, and hypoparathyroidism). Data will be entered into REDCap with no PHI. The investigators expect to include 3000 patients in the registry (1000 from Duke).
Patients with primary hyperparathyroidism (pHPT) often present with fatigue, psychological and cognitive symptoms. Improvement in these symptoms after parathyroid adenomectomy (PTX) has been reported. But physicians lack a method to attribute the symptoms to pHPT and to predict the reversibility after PTX. This study aims to evaluate short-term calcimimetic treatment as a tool for predicting the outcome of PTX on muscle strength, quality of life, psychological symptoms, and cognitive function in patients with pHPT. Material and Methods: 118 patients scheduled for PTX at Karolinska University Hospital, Sweden, will have a four week treatment with calcimimetics (Mimpara®) before undergoing surgery. Biochemicals, muscle strength, quality of life, psychological symptoms and cognitive function will be analysed at baseline, after four week follow-up and postoperatively. Hypothesis: The outcome of short-term calcimimetic treatment can predict the outcome of PTX on muscle strength, quality of life, psychological symptoms, and cognitive function in patients with pHPT
Reliable identification of parathyroid glands is critical to the success of thyroid and parathyroid surgery. In thyroid surgery, inadvertent injury to parathyroid glands may cause temporary or permanent hypoparathyroidism (low calcium levels needing long term treatment). In parathyroid surgery, early identification of normal and/or enlarged parathyroid glands helps in deciding on the extent of surgery and increases the chances of postoperative normal calcium levels. Methylene Blue (Methylthioninium chloride, MB) is a dye that when given intravenously in high doses, is taken up differently by thyroid and parathyroid tissue. It is currently used during parathyroid surgery by some surgeons to help identify enlarged parathyroid glands by visual examination alone. Such visual examination is unhelpful in the identification of 'normal' parathyroid tissue. MB exhibits fluorescent properties in the near-infrared range (light just beyond the visible spectrum). This can be picked up by an appropriate imaging system. This has potential to identify and differentiate between 'normal' parathyroid, 'abnormal' parathyroid and thyroid tissue during surgery. The investigators have established the feasibility of the intra-operative use of a near infra-red fluorescent imaging device called Fluobeam® and demonstrated the ability of this device to pick up near infra-red fluorescence from human tissue after administration of intravenous MB. Animal experiments have shown that doses as low as 0.1mg/kg of MB given intravenously enable fluorescent visualisation of thyroid and parathyroid glands. This study will aim to optimise the dose and timing of administration of MB in human thyroid and parathyroid surgery and to develop a protocol which would then subsequently be assessed for effectiveness in a multi-centred randomized controlled setting.
Primary hyperparathyroidism is a significant medical and public health problem in the world and affects approximately 100,000 new patients in the United States alone. If left untreated this can lead to renal stones, osteoporosis, fatigue, and depression. The best treatment for primary hyperparathyroidism is surgical parathyroidectomy. However surgical parathyroidectomy can be difficult due to the variant location of the parathyroid glands. Up to 5% of patients leave the operating room without surgical cure. Primary hyperparathyroidism is an ideal disease to investigate intraoperative fluorescent imaging. This would allow surgeons to identify the parathyroid glands and resect the suspicious parathyroid glands. Folate receptor (FR) has been found to be over-expressed in parathyroid tissue and not thyroid issues. An ideal surgical treatment would combine FR-specific fluorescent tracers with intraoperative imaging. It is important to note that FR is expressed only in the proximal tubules of the kidneys, activated macrophages, and in the choroidal plexus. Thus, the false positive detection rate is expected to be extremely low. A group well known to us in the Netherlands has completed a pilot study utilizing a folate-FITC conjugate in 12 patients with ovarian cancer. Another group of investigators in Mayo have subsequently performed this study on 20 more patients without any serious adverse events (personal communication). They report excellent sensitivity and specificity with this technique with only grade 1 side effects (allergic reaction). All side effects reversed when the injection was halted. Patients with a history of allergic reactions to insect bites should not participate (fluorescein is derived from the firefly insect, folate is an essential vitamin). A fluorescent contrast agent (folate-FITC or EC17) will be used to determine if it will localize to the primary tumor nodule(s) or mass(es) of patients undergoing parathyroid surgery.
The purpose of this study is to determine whether osteoprotegerin and RANKL (receptor activator of nuclear factor-κB ligand) are involved in bone remodeling in patients with primary hyperparathyroidism (PHPT), and whether alendronate may be useful in treatment of the patients with PHPT who are not treated with parathyroidectomy.
The overall sensitivity and specificity of 11C-MET PET/CT is superior to 18F-FDG PET/CT and conventional SPECT-CT for the detection of abnormal parathyroid glands.
The purpose of this study is to evaluate the evolution of the non specific symptoms for 116 patients with mild primary hyperparathyroidism before and 3, 6 and 12 months after surgery. A clinical score predicting clinical improvement at one year will be created.
Primary hyperparathyroidism (PHPT) is one of the common endocrine disorders. The major clinical symptoms involve stones, bones, abdominal groans and psychiatric moans. Increased parathyroid cell proliferation and decreased calcium-mediated control of the PTH secretion are characteristic findings. The most common cause of PHPT is adenoma followed by hyperplasia and carcinoma.The molecular mechanisms involved in parathyroid tumorigenesis are partially known. Few genes have been identified and their roles are under study. The genes which are under study by different groups are unable to give a definite direction towards the understanding of parathyroid tumorigenesis and the mechanism involved in overgrowth of parathyroid tissue. So identifying different proteins and their regulation pattern from adenomas to carcinomas will be the initial steps towards understanding the proteins involved in tumorigenesis of parathyroid tissues. By using proteomics approach one can generate protein level information. In this study, using a combined approach based on 2 D gel electrophoresis and mass spectrometry (MS), the investigators propose to study a comparative proteomics to examine the changes of protein profiles in parathyroid tumor tissues with normal and hyperplasic parathyroid tissues. This work plan will help us to understand differentially expressed proteins in patients with PHPT. This will help in understanding the disease and identifying better diagnostic and curative measures of the disease. The investigators are also planning to access nuclear morphometry changes in sporadic parathyroid tumors. It will help in establishing cellular and nuclear change pattern variations from normal to parathyroid tumors.
Hypothesis: Intraoperative use of near infrared fluorescent imaging technology and detection of Methylene Blue fluorescence will improve outcomes following thyroid and parathyroid surgery. Aims: The aims of this phase of the study are to determine the feasibility of using near infrared fluorescent technology in the detection of parathyroid tissue and its differentiation from adjacent soft tissue during surgery on parathyroid glands. Objectives of the phase I study: 1. To familiarise surgical teams with the intraoperative use of the 'Fluobeam(TM)' device (Fluoptics). 2. To understand the patterns (onset, intensity and duration) of fluorescent staining of normal parathyroid glands, thyroid glands and other soft tissue structures encountered during parathyroidectomy. Further research: This will be followed by a phase II study during which fluorescent imaging will be used in conjunction with intraoperative incremental dose of IV methylene blue in both thyroid and parathyroid surgery. Phase II will enable us to develop a protocol for the use of a minimum possible dose of MB for the identification of parathyroid glands. This will then be tested in the pilot phase of a randomized clinical trial.
The purpose of the study is to determine the effect of forearm exercise on forearm bone density in post-menopausal women with or without primary hyperparathyroidism. The investigators hypothesize that forearm exercise will increase forearm bone density in patients with primary hyperparathyroidism more so than in patients without primary hyperparathyroidism.