View clinical trials related to Myocardial Infarction.
Filter by:In acute myocardial infarction, early restoration of blood flow to the jeopardized myocardium is of paramount importance to limit infarct size and to improve long term outcome. Primary percutaneous coronary intervention (PPCI) is the treatment of choice in these patients. Despite achievement of adequate epicardial coronary artery reperfusion in many patients, transient or persistent myocardial microvascular dysfunction is often present, also referred to as the no-reflow phenomenon. This microvascular dysfunction and the time course during which it recovers, is most likely also related to long term outcome. If microvascular reperfusion is still limited immediately after myocardial infarction but recovers quickly in the days thereafter, this might be beneficial for long term prognosis. Several treatments have been suggested to limit microvascular injury and to improve microvascular reperfusion in the acute phase of myocardial infarction (such as intra-aortic balloon pumping, glycoprotein IIB/IIIA inhibitors, adenosine, verapamil, nitroglycerine, cyclosporine, or gap-junction-inhibitors), but it has been difficult to assess the effect of such treatment due to the simple fact that no methodology has been available for quantitative assessment of the microcirculation of the heart. Assessment of microvascular perfusion and function has been very difficult so far and has been hampered by a number of methodological and technical shortcomings. Measurement of absolute blood flow in the infarcted area and true quantitative calculation of absolute resistance in acute myocardial infarction, has been introduced in the last years using a technique with thermodilution and continuous infusion of small amounts of saline. This technique offers the possibility to study the course of microvascular (dys)function after acute myocardial infarction with potentially important implications for treatment at follow-up. Technical performance of such measurements was difficult so far because of a complex instrumentation and the necessity of additional administration of intravenous adenosine. In the last 2 years, this technique has been largely simplified by the introduction of a new multipurpose monorail infusion catheter (RayFlow ®, Hexacath, Paris) and the observation that saline infusion of 15-20 ml/min in itself already ensures maximum coronary hyperemia. Finally, easy to handle software has been developed for online interpretation of such measurements. Consequently, measurement of absolute blood flow and myocardial resistance has become easy to perform now and the complete measurements only take a few minutes in addition to a regular PPCI or Fractional Flow Reserve (FFR) measurement. The measurements are absolutely safe, reproducible, only a small amount of saline (100 ml at room temperature) is needed, no additional medication is necessary, the patient doesn't experience any discomfort of the measurement and the measurements can be repeated multiple times within minutes. Therefore, a window is opened for further examination and quantitative assessment of the microcirculation of the heart. The purpose of the present study is to evaluate changes in myocardial resistance over time in ST-Elevation Myocardial Infarction (STEMI) patients, both in the early stage and the subacute phase. Furthermore, the course of such changes and recovery of the microcirculation will be correlated to long-term outcome as assessed by Magnetic Resonance Imaging (MRI) measurements and final infarct size. It is hypothesized that patients can be divided into 3 groups: A. Patients with an (almost) normal resistance and flow immediately after PPCI B. Patients with still elevated resistance and decreased flow immediately after PPCI, but (partial) recovery in the next days C. Patients with elevated resistance and decreased flow immediately after PPCI which do not recover at all. The investigators would like to evaluate changes in microvascular resistance of the infarcted area in the first hour after ST-elevation myocardial infarction and during the recovery period (<5 days). Classify patients according to recovery of microvascular resistance and relate the (recovery of) microvascular resistance to outcome and preservation of left ventricular function (with MRI, echo and clinical follow-up at 1 year).
Cardiac rehabilitation (CR) is strongly recommended for patients with coronary heart disease. However, patient enrollment and completion of cardiac rehabilitation is low. This study will examine if a mobile phone intervention that uses a text messaging program can successfully promote participation in cardiac rehabilitation.
Rationale: This study aims to aid the general practitioner (GP) in the diagnostic dilemma of chest pain patients. Patients with acute coronary syndrome (ACS) should be referred to the hospital promptly, though referring all patients with chest pain is not feasible, as up to 80% of the patients with chest pain in the primary care do not have ACS. Objective: The primary objective is to refer patients who contact the out-of-hours GP cooperation (GPC) with suspicion of ACS more accurately with a hypothesized reduction of 10% in unnecessary referrals. Study design: This study is a prospective, observational, prevalence-based cohort study within the standard care of ACS patients. Study population: All patients with chest pain, or other complaints suspect of ACS, will be included in which the GP at the GPC is in need of further diagnostics to come to a decision of referral. The follow-up will be a registry of all patients with suspected ACS referred to the emergency department (ED). Patients with typical complaints of ACS, and thus a high suspicion, will be excluded and referred promptly. Intervention: Triage nurses working at the GPC will receive specific ACS training. Patients who arrive at the GPC with non-typical chest pain, will be screened for enrolment within the study. The GP evaluates patients using the Heart score, this includes electrocardiogram recording and point of care (POC) troponin testing. With the Heart score the GP can make an informed decision to refer the patient to the ED. To evaluate the intervention a registry of all patients referred to the ED with suspected ACS will be compared to a baseline registry performed from the 1st of September 2015 until the 1st of March 2016. Patients not referred to the ED, will have a (standard) high-sensitivity troponin and a POC troponin as follow-up at least four hours (up to 24 hours) after first measurement. The burden and risks associated with participation, benefit and group relatedness: Patients enrolled within this study will receive a finger stick blood test and electrocardiogram recording at the GPC and a finger stick blood test and a venous blood test at least four hours after first troponin measurement. We may follow-up by telephone if we can not obtain the required information from medical records. We expect no adverse events and there are no expected risks associated with this protocol. We expect patients with ACS to be referred more accurately and more promptly to the ED and thus lowering risks.
To evaluate the OptiScanner® for continuous glucose monitoring as a tool to optimize glucose levels in patients hospitalized for acute coronary syndromes
Immediate potent inhibition of platelet function is critical for the prevention of periprocedural ischemic event occurrences in high risk N-ST segment elevation myocardial infarction (NSTEMI) in patients undergoing percutaneous coronary intervention (PCI). Currently, dual antiplatelet therapy with aspirin and an oral P2Y12 receptor blocker (with loading doses) is widely used for PCI. However, immediate, potent and reversible inhibition of platelet aggregation is not possible even with the newer oral agents, prasugrel and ticagrelor. Therefore, an intravenously administered GPIIb/IIIa receptor inhibitor (tirofiban) or P2Y12 receptor blocker (cangrelor) with fast onset and offset of actions will provide more desired antiplatelet effects in the setting of PCI. This study will measure and compare the anti-platelet effects of Tirofiban and Cangrelor in patients presenting with N-STEMI and undergoing PCI.
LEADERS-FREE trial demonstrated the safety and efficacy of polymer-free drug-coated stent (Biofreedom, Biosensors International Technologies, Singapore) in patients with high bleeding risk. But, there are limited clinical evidences for extending these findings to generalized patients who are eligible to PCI. Therefore, the purpose of this registry is to evaluate the safety and efficacy of Biofreedom stent in patients with coronary artery disease.
This study evaluates differences in the extent of myocardial necrosis noted by cardiac MRI in patients with ST-elevation myocardial infarction randomized to receive cangrelor during their percutaneous coronary intervention and compares them to patients randomized to not receive cangrelor.
The investigators propose to estimate the sensitivity and specificity of the VectraplexECG System for detecting acute myocardial ischemic injury, including acute myocardial infarctions after major non-cardiac surgery. A 10 second CEB dynamic sequence recording will be obtained immediately after surgery in the post-anesthesia care unit. On the first, second and third post operative morning a 10 second CEB dynamic sequence will be recorded. Blood will be sampled for troponin as well. On the first, second and third post operative afternoons a 10 second CEB dynamic sequence will be recorded. The morning 10 second CEB dynamic sequence and blood draw for troponin will continue as long as the patient remains hospitalized. The afternoon 10 second CEB dynamic sequence will continue as long as the patient remains hospitalized.
This is a prospective, randomized, double-blind, double-dummy, and controlled clinical study over a total of 4-week therapy with DLBS1033 in the management of STE-ACS after a primary PCI. There will be 40 STE-ACS subjects (20 subjects in each group) planned to complete the study.
The My Research Legacy Pilot Study will establish a participant registry that collects self-reported health data and answers to online survey questions about individual daily choices, diets, and exercise; data from wearable devices; and, (optional) data from genome sequencing analysis. Individuals under the age of 50 who meet eligibility criteria will answer questions using the American Heart Association's (AHA) Life's Simple 7™ My Life Check v4.0 three times over the course of 6 months and transmit data from a Fitbit Charge 2 device. All other individuals who are interested in the study and meet entry criteria may also enroll.