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Filter by:Patients with atrophic glossitis (AG) or burning mouth syndrome (BMS) are frequently encountered in the oral mucosal disease clinic. Our previous studies found a significantly higher frequency (26.7%) of serum gastric parietal cell antibody (GPCA) and a significantly higher frequency (31%) of serum thyroglobulin antibody (TGA) or thyroid microsomal antibody (TMA) in AG patients than in healthy control subjects. Moreover, there is also a significantly higher frequency (13.3%) of serum GPCA or a significantly higher frequency (23.5%) of serum TGA or TMA in BMS patients than in healthy control subjects. Because patients with one organ-specific autoantibody are prone to have another organ-specific autoantibody in sera, we also evaluated whether AG or BMS patients with GPCA are prone to have TGA or TMA in sera and vice versa. We further found that 25.3% of TGA- or TMA-positive AG or BMS patients also have GPCA, 32.3% GPCA-positive AG or BMS patients also have TGA, and 30.6% GPCA-positive AG or BMS patients also have TMA in their sera. Without proper diagnosis and treatment, patients with GPCA are more likely to develop autoimmune atrophic gastritis and subsequently progress to gastric carcinoma, and patients with TGA or TMA may develop autoimmune thyroid disease and finally result in thyroid dysfunction. In addition, previous studies have shown a close association of the HLA-DR or HLA-DQ loci with the presence of autoantibodies (such as GPCA, TGA or TMA) in patients with different types of autoimmune disease. Therefore, in the following 3-year research project, we plan to collect 300 AG and 450 BMS patients from the oral mucosal disease clinic of Department of Dentistry, National Taiwan University Hospital. For each year, 100 AG and 150 BMS patients are collected. A 10-cc blood sample will be drawn from each patient, with 5 cc being used for the determination of the serum levels of GPCA, TGA and TMA and another 5 cc being used for the HLA-DRB1 and HLA-DQB1-genotyping using the polymerase chain reaction with sequence-specific primer (PCR-SSP) typing technique. At the end of this 3-year study, we will realize the frequencies of presence of GPCA, TGA and TMA in sera of our 300 AG or 450 BMS patients. After statistical analyses, we will also know which specific HLA-DRB1 or HLA-DQB1 allele and which specific DRB1-DQB1 haplotype are responsible for the possession of GPCA, TGA or TMA in sera of our AG or BMS patients. In addition, we will understand which specific HLA-DRB1 or HLA-DQB1 allele and which specific DRB1-DQB1 haplotype are responsible for the possession of GPCA in TGA- or TMA-positive AG or BMS patients as well as for the possession of TGA or TMA in GPCA-positive AG or BMS patients. With this important information in mind, we can predict the development of the specific autoimmune diseases such as autoimmune atrophic gastritis and autoimmune thyroid diseases and then adopt proper early diagnosis and treatment to prevent the future occurrence of these diseases and their potential complications (such as gastric carcinoma or thyroid dysfunction).
The purpose of this study is to test a specific nerve stimulation protocol as therapeutic option in patients diagnosed with CRPS (complex regional pain syndrome) of the upper extremity.
Multicenter, double blind, randomized trial to assess the effect of low-dose colchicine (0.5mg/day) on overall mortality, new coronary syndromes, and ischemic stroke at 2 years after an acute coronary syndrome. The study hypothesis is that colchicine may reduce the specified combined endpoint from 16% to 7-8% at a 2-years follow-up.
The aim of this project is to test the utility of The Gene Z device (as of 2018 Gene Z no longer being used) and other rapid identification techniques that the investigators have developed in the lab on clinically obtained bodily fluid samples taken from patients with suspected infection or sepsis based on having three of four positive Systemic Inflammatory Response Syndrome markers, or having a known infection for which a specimen is being collected. Specimens will be collected by Sparrow Laboratories and McLaren Greater Lansing laboratories, processed and stored for analysis at a later date to determine if the microbial pathogens identified by current methods of culture, as well as pathogen susceptibility to antibiotics by culture results, can be identified by the GeneZ technology or other developed technology accurately, and more timely. It will not affect current patient care nor impact patient care, which will continue in the standard fashion today for sepsis. Results will be compared to standard culture results and antibiotic sensitivities.
This study is aimed to evaluate the effect of renal denervation to decreasing blood pressure and left ventricle remodeling progression in patients after acute coronary syndrome.
Observational study regarding the use of supplements in chronic fatigue syndrome patients
The purpose of this study is to determine which is the best surgery to treat different severity scales of cubital tunnel syndrome.
MetS is an early stage of CVD and is an appropriate target for dietary interventions. MetS is a clustering of risk factors (abdominal obesity, elevated serum triglycerides, low HDL-cholesterol, hypertension, elevated fasting blood glucose) accompanied by low grade chronic inflammation, hepatic steatosis (fatty liver) and reduced vascular function. This study will investigate the effect of a 12 week intervention with canola oil versus the typical fat mixture in the Western diet on blood lipids, blood vessel function and MetS parameters. CVD risk will be assessed based on the profile of lipids and other factors in the blood as well using specialized equipment for non-invasive monitoring of blood vessel function.
Investigators at Boston Children's Hospital are conducting research in order to better understand the genetic factors which may contribute to epilepsy and related disorders. These findings may help explain the broad spectrum of clinical characteristics and outcomes seen in people with epilepsy.
Cell-based cardiac regeneration has been the focus of acquired, adult heart disease for many years. However, congenital heart disease with severe structural abnormalities may also be reasonable targets for cell-based therapies. Interestingly, the pediatric heart is naturally growing and may be the most amendable to regenerative strategies. Therefore, identifying autologous cells (cells from the patient's own body) would be important to initiate these studies. This study aims to validate the use of umbilical cord blood as a source of autologous cells for the purpose of cardiac repair of congenital heart disease. Cells will be isolated from the cord blood to help us determine the feasibility of collection, processing, and storage of these samples at the time of birth of infants with prenatal diagnosis of hypoplastic left heart syndrome. This study may be useful for the development of pre-clinical and clinical studies aimed at the long-term goal of repairing damaged heart muscle.