View clinical trials related to Statin Adverse Reaction.
Filter by:The aim of the study was to assess the effect of high intensity statin therapy on testicular and adrenal steroids and vitamin D levels in type 2 diabetes males.It is a prospective study, conducted between march 2021 and July 2022, including 60 men with type 2 diabetes, aged 40 - 65 years, statin-free, and in whom a treatment with high intensity statin was indicated. The patients had two visits, before and six months after a daily intake of 40 mg of atorvastatin. During each visit, they underwent a clinical examination including the Androgen Deficiency in the Aging Male (ADAM) questionnaire and a fasting blood sample was collected for biological and hormonal measurements.
Statins are part of one of the largest groups of drugs prescribed worldwide used in the treatment of dyslipidemia. Despite the good therapeutic results of statins and their good tolerance on the part of patients, some adverse effects may occur during treatment. In skeletal muscle, statins can lead to mitochondrial dysfunction characterized by decreased adenosine triphosphate production, decreased oxidative phosphorylation capacity, increased concentration of reactive oxygen species, and decreased mitochondrial biogenesis. Cardiorespiratory fitness is a physiological indicator that corresponds to the integration of the cardiovascular, pulmonary, muscular, and cellular (mitochondria) systems in capturing, transporting and using oxygen, commonly expressed as the maximum oxygen consumption. Several studies show a strong association of lower cardiorespiratory capacity with an increased risk of mortality from cardiovascular disease and mortality from all causes. Combining the use of statins with lifestyle changes has been suggested in many medical guidelines. Physical exercise plays a fundamental role in improving cardiorespiratory fitness and controlling dyslipidemia. However, some studies suggest that the association of statin with physical training can negatively influence the adaptation and improvement of cardiorespiratory capacity. On the other hand, some studies show that the combination of statin and physical exercise does not negatively interfere with the maximum oxygen consumption. To determine the impact of statins on cardiorespiratory fitness and adaptation to physical exercise, the investigators will use the database of the Cardiovascular Rehabilitation and Exercise Physiology Department at Heart Institute (Sao Paulo, Brazil), which currently has 33,804 maximal cardiopulmonary exercise tests. This large database, which is the gold standard of cardiorespiratory capacity (maximum oxygen consumption), will be used retrospectively with relevant information and a huge number of participants. Therefore, the aim of this study will be to explore a large database to assess the effect of the use of statins and their relationship with cardiorespiratory capacity in physically active and sedentary individuals (with and without heart failure).
Statins are cornerstone treatment in secondary cardiovascular disease (CVD) prevention. Today, statin non-adherence (patients not taking their prescribed drug) remains a major public health concern, leading to adverse outcomes in terms of morbidity, mortality and healthcare costs. The principal reason for statin non-adherence and discontinuation is statin-associated muscle symptoms (SAMS). Objective SAMS diagnostics do not exist. We aim to unravel the pathophysiology of SAMS and develop diagnostic tools to differentiate real SAMS from muscle symptoms not related to the statin, among coronary patients with self-perceived SAMS. In this follow-up study we aims to determine the effect of 7 weeks open treatment with atorvastatin 40 mg/day, followed by 7 weeks open treatment with no lipid lowering treatment, on muscle symptom intensity in patients classified with confirmed statin-associated muscle symptoms (SAMS) (i.e. statin-dependent muscle side-effects) and non-SAMS in the MUscle Side-Effects of atorvastatin in coronary patients (MUSE) randomized double blinded cross-over trial. We have developed novel methods that will be used to measure atorvastatin metabolites and drug effect biomarkers directly in skeletal muscle and blood . The diagnostic accuracy of these biomarkers to differentiate real SAMS from non-SAMS will be evaluated. A new diagnostic tool may potentially be implemented to assess SAMS in the individual patient and enable personalized follow-up. It may also represent an important tool in the communication with patients misattributing their muscle symptoms to statins. The long-term results may be better quality of life and reduced morbidity, mortality and healthcare costs.
The study aims to estimate the effect of atorvastatin on muscular symptom intensity in coronary patients with subjective statin-associated muscle symptoms (SAMS) and to determine the association with blood levels of atorvastatin and its metabolites, to obtain an objective marker for true SAMS. A randomized study will include 80 coronary patients with SAMS during ongoing atorvastatin therapy or previous muscle symptoms that led to discontinuation of atorvastatin. Patients will be randomized to 7-weeks treatment with atorvastatin 40 mg/day in the first period and matched placebo in the second 7-weeks period, or placebo in the first period and atorvastatin in the second period. A control group (n=40) without muscle symptoms will have 7 weeks open treatment with atorvastatin 40 mg/day. Blood samples will be collected at baseline and after each treatment period, and muscular symptom intensities will be rated by the patients weekly. The primary outcome is the difference in aggregated mean Visual Analogue Scale (VAS) scores between the last three weeks of atorvastatin treatment and of placebo treatment. The main purpose is to develop an objective marker for true SAMS, by comparing SAMS associated with blinded atorvastatin treatment with blood concentrations of atorvastatin and its metabolites. Diagnostic and discrimination performance will be determined. The study provides new clinical knowledge on SAMS in coronary patients and may contribute to more personalized statin treatment and monitoring, fewer side-effects and consequently improved adherence and lipid management in future practice.
The purpose of this study is to determine if bempedoic acid (ETC-1002) added-on to ezetimibe therapy is effective and safe versus placebo in patients with elevated LDL cholesterol.
The purpose of this study is to determine if treatment with bempedoic acid (ETC-1002) versus placebo decreases the risk of cardiovascular events in participants who have or are at high risk for cardiovascular disease and are statin intolerant.
The purpose of this study is to determine if bempedoic acid (ETC-1002) is effective and safe versus placebo in patients with elevated LDL cholesterol and who are statin-intolerant.