View clinical trials related to Metabolic Diseases.
Filter by:The goal of this prospective, diagnostic observational study is to learn about how imaging based markers for components of liver disease appear in children with obesity. It aims to determine whether the imaging markers (ultrasound and MRI) for liver disease can be tools to improve diagnostics for liver affection in children with obesity and to ascertain how the markers are related to multiple clinical measures, for example BMI and serology measure, and treatment effects over time.
This clinical trial evaluates the effectiveness of Henagliflozin combined with lifestyle interventions for managing patients with prediabetes. As global prediabetes rates rise, increasing the risk of diabetes and vascular issues, addressing treatment gaps is essential. Henagliflozin, a novel SGLT2 inhibitor developed in China, aims to improve glucose control and metabolic health when paired with lifestyle changes. The study's primary objectives include: assessing whether Henagliflozin can achieve normoglycemia in prediabetic patients after 6 months of treatment. The trial will compare three groups (Henagliflozin 5mg, 10mg, and a placebo), focusing on efficacy and safety. Participants, assigned randomly, will undergo a 6-month treatment phase and an 18-month follow-up. Regular health assessments will monitor glucose levels, metabolic health, and risks of major complications like cardiovascular events and microvascular diseases, with additional evaluations of C-peptide and insulin changes. Structured as a multicenter, randomized, double-blind, placebo-controlled study, it involves 984 prediabetic adults across 50 medical institutions in China. This comprehensive approach could redefine prediabetes management by integrating drug therapy with lifestyle modifications.
Cardiovascular disease (CVD) causes a quarter of all deaths in the United Kingdom (UK). This is the single biggest area where the National Health Service (NHS) can save lives by detecting and treating risk factors early. Improvements in control of blood pressure, cholesterol, diabetes, kidney disease, as well as weight loss in individuals who are obese, have been shown to reduce the risk of CVD and death. The NHS has guidelines for investigations and treatments for risk factors recommended by the National Institute for Health and Care Excellence (NICE). Though it is known that better control of risk factors will reduce the risk of CVD the investigators do not know whether having extra appointments in primary care with heart specialists can lead to better treatment and better control of risk factors. The OPTIMISE trial (OPTIMISation of Cardio-renal-metabolic-pulmonary Disease Guideline Adherence in High Risk Community Dwelling Individuals) will compare patients who have consultations at a local General Practitioner (GP) practice by a cardiology professional to optimise the treatment of their risk factors (OPTIMISE) with those patients who receive standard care (Standard care). Standard care is patients being seen by their GP at routine care appointments. Participants in the OPTIMISE arm will be reviewed by the cardiology professional and recommended treatment in line with current NICE guidance. They will be seen at 3 months to review their treatment and potentially adjusted to ensure it meets NICE guidelines. Participants in the standard arm will have data related to their cardiovascular, renal, metabolic and pulmonary risk factors collected through their Electronic Health Record (EHR). At 6 months, all participants will be seen to find out changes to their prescribed medication and the effect of this on their blood pressure, cholesterol, blood sugar level, and body mass index (BMI). All participants will also complete a quality of life questionnaire prior to randomisation study and at 6 months to identify any differences between the arms and time points.
A promising approach to correct the metabolic dysfunction associated with obesity is to activate brown fat non-shivering thermogenesis (NST). A critical limitation with NST as a therapeutic option, however, is that this beneficial process is silenced under human physiological temperature conditions and the mechanisms of how this occurs is unknown. This study will be the first to identify human NST silencing factors that may be targeted for the treatment of obesity and metabolic disorders.
Cardiovascular and metabolic diseases refer to a large category of cardiovascular diseases accompanied by a series of metabolic disorders (including dyslipidemia, obesity, abnormal glucose tolerance, diabetes, hypertension, thyroid dysfunction, etc.), which is the primary cause of death and disease burden of Chinese residents.The number of deaths from atherosclerotic cardiovascular disease (ASCVD) in China is about 2.4 million, accounting for 61% of the total cardiovascular deaths, accounting for more than 40% of the all-cause deaths. In Chinese patients with coronary heart disease, 52.9% are complicated with diabetes.Despite the 1.1 million coronary stents implanted in China, there has been no reduction in cardiovascular mortality, which highlights the importance of threshold advancement and the management of metabolic risk factors. In recent years, the new concept of cardiovascular and metabolic diseases has been actively promoted at home and abroad, and the focus of prevention and treatment strategy of cardiovascular and metabolic diseases has been called for.The project proposed the concept of co-treatment of metabolic diseases based on disorders of blood pressure regulation, disorders of glucose metabolism and disorders of lipid metabolism. Subjects eligible for cardiovascular and metabolic diseases were screened, their past medical records were registered, education and diagnosis and treatment management were conducted.
Statin intolerance occurs in up to 15-20% of treated patients. The combined use of Proprotein Convertase Subtilisin/Kexin type 9 (PCSK9) inhibitors with ezetimibe is commonly performed in these patients, and has been associated with an estimated LDL-C reduction of 65-70%. This drug combination may be insufficient to reach the LDL-C target in high- and very-high-risk patients with statin intolerance, also considering the goals recommended by the current international guidelines. Also, PCSK9 inhibitor dosage escalations frequently fail to achieve the target. Doubling the dosage of alirocumab from 75 mg to 150 mg, when administrated as monotherapy, determines a further reduction of only 3,6% of LDL-C serum level. The full dose of Evolocumab (420 mg every two weeks), was approved only in the setting of homozygous familiar hypercholesterolemia. Bempedoic acid is an oral, once-daily prodrug, metabolized in the liver to an active inhibitor of ATP-citrate lyase, blocking cholesterol synthesis upstream of 3-hydroxy-3-methylglutaryl-coenzyme A reductase and thereby increasing hepatic expression of the LDL receptor and decreasing circulating LDL-C levels. The CLEAR (Cholesterol Lowering via Bempedoic acid, an ACL-Inhibiting Regimen) Harmony trial demonstrated that bempedoic acid in addition to maximally tolerated statin therapy did not lead to a higher incidence of adverse events compared to placebo and significantly lowered LDL-C levels. In the CLEAR Serenity study, bempedoic acid showed a safe and effective profile compared with placebo in patients with statin intolerance. In the CLEAR Tranquility, it provided an oral therapeutic option complementary to ezetimibe in patients intolerant to high-dose statins who required additional LDL-C lowering. The synergistic effect of bempedoic acid plus PCSK9 inhibitors has been investigated by one phase 2 trial (NCT03193047), which showed a statistical superiority of bempedoic acid plus evolocumab strategy versus placebo plus evolocumab in terms of percent change in LDL-C up to 2 months. To date, no randomized phase 3 clinical trial have evaluated the effect of bempedoic acid in association with anti-PCSK9 and ezetimibe in statin-intolerant patients not attaining the recommended LDL-C target. The investigators hypothesized that the association of bempedoic acid with PCSK9 inhibitors and ezetimibe may be safe and effective in reducing LDL-C in statin-intolerant patients.
The study project aims at examining molecular markers in synovial fluid, bone and articular cartilage from osteoarthritic thumb basal joints. The degradation of extracellular matrix (ECM) proteins in thumb basal joints will be evaluated in association to the metabolic profile of the patient, but we also aim to compare the ECM degradation and inflammatory profiles with articular cartilage degradation ECM profile from knee joints with osteoarthritis. A third aim is to evaluate associations between patient-reported hand function, pain, strength and range of thumb motion to analyses of synovial fluid.
The primary objective of this clinical trial is to assess the clinical efficacy and safety of the Buyuan Zhixiao Formula in treating elderly patients with diabetes and multiple metabolic disorders exhibiting symptoms of renal deficiency and blood stasis. Furthermore, this study aims to intervene in high-risk factors to prevent arteriosclerosis and to investigate the clinical efficacy of the Buyuan Zhixiao Formula in the prevention and treatment of cognitive impairments. The main questions it aims to answer are: 1. What are the clinical effects of Buyuan Zhixiao Formula, including lowering blood sugar, lowering blood pressure, lowering lipids, and treating obesity? 2. Can Buyuan Zhixiao Formula improve cognitive impairment in diabetes? Researchers compared Buyuan Zhixiao Formula with a placebo (a drug that looks similar but contains only 10% of the active ingredients) to see if the drug Buyuan Zhixiao Formula can treat elderly people with diabetes and multiple metabolic disorders. Participants will: 1. Take the drug Bu Yuan Zhi XiaoFormula or placebo every day for 6 months;Follow-up for 6 months; 2. Check fasting blood sugar and 2-hour postprandial blood sugar every month; check HbA1c, blood lipids, vascular function, and cognitive impairment serum markers every 3 months; 3. Conduct scores on TCM symptoms, cognitive ability, nutritional status and other scales and adverse events; 4. Urine and serum samples were collected before and after treatment;
Our study named Integrated Continuous glucose monitoring glycemic cHAracterization during Pregnancy in comparison with oral glucose tolerance test (I-CHAP) aims to establish much needed preliminary evidence in our Asian population to show the capabilities of CGM use and its wealth of data for GDM diagnosis. This study aims to test the following aims and hypotheses in a single-armed intervention pilot trial study of pregnant women undergoing the oral glucose tolerance test: Aim 1. To characterize CGM glucose values with the 3-point blood glucose measured during the OGTT procedure. The investigators hypothesize that the CGM glucose values at single time points while fasted, and after the 75-g glucose load will be positively correlated with 3-timepoint blood glucose values captured during the OGTT. Aim 2. To correlate the CGM glucose excursions and CGM-derived metrics (glycaemic variability and glycaemic control) with maternal-fetal outcomes and treatment outcomes. The investigators hypothesize that higher AUC, glycemic variability and poorer glycaemic control will better distinguish maternal-fetal outcomes and treatment outcomes, compared to the OGTT. Aim 3. To describe the acceptability of using the Dexcom G6 CGM as a diagnostic tool instead of the OGTT. The investigators hypothesize that a higher proportion of participants will report CGM to be more acceptable than the OGTT for GDM diagnosis.
Explore the bone metabolism characteristics of premature ovarian insufficiency.