View clinical trials related to Myocardial Infarction.
Filter by:The Left Ventricular Free-wall Ruptrue (LVFR) is a serious complication caused high mortality.
The goal of the study is to assess the prevalence of contrast-associated acute kidney injury in patients with stable coronary artery disease, ST-elevation myocardial infarction and unstable angina/NSTEMI, assess the risk factors of contrast-induced acute kidney injury development and the influence of contrast-induced kidney injury on 1-year prognosis.
Ventricular tachycardia (VT) contributes to over 350,000 sudden deaths each year in the US. Malignant VTs involve an electrical "short circuit" in the heart, formed by narrow channels of surviving tissue inside myocardial scar. Current treatment for VT consists of either implantable defibrillators (ICDs), suppressive drug therapy, catheter ablation or a combination of all 3. Implantable Defibrillators (ICDs) reduce sudden death and can terminate some ventricular tachycardia (VT) without shocks, but they don't prevent VT. The occurrence of ≥1 ICD shock is associated with reductions in mental well-being and physical functioning, and increases in anxiety and sometimes depression. Further, ICD shocks have been consistently associated with adverse outcomes, including heart failure and death. Furthermore, the most important predictor of ICD shocks is a history of prior ICD shocks. Therapies to suppress VT include antiarrhythmic drug therapy and catheter ablation, neither however is universally effective. When VT recurs despite antiarrhythmic drug therapy and catheter ablation, novel yet invasive, approaches may be required. Such invasive procedures carry consequent risks of cardiac and extra-cardiac injury. Stereotactic body radiotherapy (SBRT) is a non-invasive technique that delivers high doses of radiation precisely to specified regions in the body, while minimizing exposure to adjacent tissue. This technique is currently, and commonly used in the treatment of cancer. Conventional application of SBRT has made use of its ability to spare non-target tissue, including for treatment of tumors near the heart. More recently, clinicians have changed the paradigm, by focusing radioablative energy on ventricular scar responsible for ventricular tachycardia. Pre-clinical studies have supported the concept and were followed by first-in-human VT therapeutic experience in 2017. Subsequent studies have had encouraging results for patients who failed or were unable to tolerate conventional treatment.
This study is a prospective, multi-center, non-inferior, randomized controlled clinical trial, aims to use optical Coherence tomography to observe the the early- and mid-stage vessel repair and neointimal proliferation. And to assess the safety and effectiveness of the Firehawk™ sirolimus target-eluting coronary stent system with abluminal grooves containing a biodegradable polymer (Firehawk™) comparing the XIENCE everolimus-eluting coronary stent system in the treatment of subjects with ST-elevation myocardial infarction (STEMI).
This study examines the effect of Entresto on central hemodynamic parameters during exercise in patients with diastolic dysfunction following acute myocardial infarction. Half of the patients will receive Entresto and the other half will receive placebo.
"MEtabolomics and MicrObiomics in caRdIovAscular diseases Mannheim (MEMORIAM) " is a single-center, prospective and observational study investigating to identify disease-specific metabolic, respectively microbiomic, patterns of patients with high-risk cardiovascular diseases. High-risk cardiovascular diseases comprise patients suffering from acute heart failure (AHF), ST-segment elevation myocardial infarction (STEMI), non-ST-segment elevation myocardial infarction (NSTEMI), sepsis, septic shock, ischemic and non-ischemic cardiomyopathy.
The study will cover 80 patients under 70 years of age. Initially they will be assigned to three groups: patients generally healthy with periodontitis (P), patients after myocardial infarction with periodontitis (CP) and patients generally healthy with a healthy periodontium (H). Periodontal examination will be performed before treatment, 2 weeks and 3 months after the treatment with a Williams probe calibrated at intervals 1-2-3-5-7-8-9-10mm. Pocket depth (PD), clinical loss of the attachment (CAL) bleeding on probing (BOP), plaque control record (PCR) measurements will be performed. Clinical data will be collected at six sites per tooth (mesiobuccal, midbuccal, distobuccal, mesiolingual, midlingual, and distolingual) of the designated study teeth. PD will be measured in millimeters from the free gingival margin to the base of the probable pocket using a periodontal probe. The presence of BOP will be determined as being present or absent (+/−) within 30 seconds after probing. CAL will be defined as the distance from the cementoenamel junction to t the base of the probable pocket . Patients within CP and P groups will be randomly assigned to one of the two groups (study group and control group) and an later visit will be scheduled. Before treatment, teeth will be rinsed and the study areas will be isolated with cotton rolls and dried gently. Supragingival plaque will then be removed with a sterile curret without coming into contact with the gingiva. GCF samples will be collected from the deepest single root tooth pockets previously identified. The sample will be collected from the deepest pocket using the Periopaper strips (OraflowInc., USA). Before collecting the material, the teeth will be insulated with cotton swabs. The teeth will then be dried with air. The strips will be placed in pockets until a slight resistance is perceived, and they will be left in place for 30 seconds and then transferred to Periotron 8000 (OraflowInc., USA) for the determination of fluid volume. Strips contaminated by bleeding will be discarded. Next, each strip will be inserted into the Eppendorff tube and sent to the laboratory at the Medical Analytics Department of PUM in Szczecin for further analysis. The volume of the gingival fluid will be given in μl, in accordance with the conversion of values displayed as a reading on the device. The microbiological examination (via Real-PCR method) for the presence of pathogenic bacteria for periodontium will be performed using commercial standard sets PET-MIP deluxe ® (MIP Pharma). Samples will be taken from the patient's deepest periodontal pocket. After isolation of the examined tooth from the access of saliva, sterile paper will be placed inside the pocket for 10 seconds following transfer to the transport containers included in the PET-Mip deluxe ® kits and sent to the MIP-Pharma laboratory in St. Ingbert in Germany. In the control and study group, supra and subgingival scaling and root smoothing with Gracey currets will be performed. Individual oral hygiene instructions will also be given to each patient. In addition laser therapy of the pockets with a 980nm diode laser will be carried out in the study group. The levels of TC, LDL, HDL, TG, hsCRP, leukocytes, fibrinogen, OB, IL-6, AST, ALT in the peripheral blood will be marked three times (before treatment, 2 weeks and 3 months post treatment). For this purpose, the blood will be taken from the superficial veins of the forearm and sent for further analysis at the Medical Analytics Department of PUM in Szczecin.
Background and rationale: Evaluating patients with acute chest pain, elevated high-sensitive cardiac troponin (hs-cTn) levels and non-diagnostic electrocardiogram (ECG), i.e. suspected non-ST elevation myocardial infarction (MI), is a daily challenge. Although contemporary hs-cTn assay-based algorithms have greatly facilitated clinical decision-making, still one-quarter of patients is categorized as 'observe' group and in whom a diagnosis initially remains unknown. Although routinely treated as acute (MI) with referral to invasive coronary angiography (ICA), up to one-third does not have obstructive coronary artery disease (CAD). Follow-up cardiac magnetic resonance imaging (CMR) has been shown to be a very useful diagnostic tool in this setting but is not part of routine clinical care in every patient. Objectives: To investigate in patients with suspected non-ST elevation MI meeting the 'observe' criteria and who are scheduled for ICA: 1) the prevalence of coronary artery disease as well as non-coronary artery disease related and extra-cardiac diseases by adding CMR early in the diagnostic pathway, and 2) the number of major adverse cardiac events (MACE) and a composite of MACE and major (non-cardiac) adverse events after 30 days and one year. These objectives allow an accurate estimate of the number of potentially avoidable ICA in the future and whether early CMR could be a safe gatekeeper for inappropriate ICA. Study population and design: In this prospective, observational two-center study in The Netherlands (MUMC+ and VieCuri Medical Center), 87 consecutive patients with acute chest pain, non-diagnostic ECG and hs-cTn levels meeting the observe criteria and scheduled for ICA, will be investigated. Patients will undergo a comprehensive CMR examination prior to ICA and will be followed-up at one month and one year. After completion of follow-up, an independent clinical diagnosis committee will adjudicate a final diagnosis: at discharge and after one year. The final diagnosis at discharge will be adjudicated twice: once with and once without considering the results of CMR. For the diagnosis at one-year, all clinical variables and CMR results will be considered. MACE and complications will be scored after 30 days and one year. Main study parameters/endpoints: The primary endpoint is the prevalence of coronary artery disease as well as non-coronary artery disease related and extra-cardiac diseases. The secondary (safety) endpoint is the number of major adverse cardiac events (MACE) and a composite of MACE and major (non-cardiac) adverse events after 30 days and one year. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: CMR is an accepted and safe imaging modality in patients with (suspected) non-ST-elevation myocardial infarction.
People often experience the acute phase of a myocardial infarction as a stressful and traumatic event that seems lifethreatening. Such anxiety, pain and stress can lead to the development of posttraumatic stress disorder in the long run. Previous studies suggest that there might be a relevant percentage of people developing Posttraumatic Stress Disorder (PTSD) after a myocardial infarction. Posttraumatic stress disorder is a risk factor for the development of coronary heart disease. The goal of this study is to detect the percentage of people that develop symptoms of anxiety, stress, and PTSD after an acute myocardial infarction.
In this study, clinical database and blood sample bank of acute chest pain (ACP) will be established at chest pain center of multi-center hospital. To explore new biomarkers and screen clinical indicators with effective risk stratification and prognostic evaluation for ACP through proteomics technology and statistics methods. Risk stratification and short-term and long-term prognostic evaluation models for high-risk ACP will be established using large data analysis.