44 Clinical Trials for Various Conditions
Examine the analytical and clinical performance of Atellica IM TnIH assay for the diagnosis and rule out of acute myocardial injury and myocardial infarction in patients presenting to the emergency department in whom serial cTnI measurements are obtained on clinical indication.
The purpose of this clinical study is to collect data to substantiate the use of the VITROS hs Troponin I test as an aid in the diagnosis of myocardial infarction (MI). The test is further indicated for risk stratification of mortality, myocardial infarction or coronary revascularization in patients with acute coronary syndrome.
Compare the analytical and clinical performance of hs-cTnI and hs-cTnT assays for the diagnosis of acute myocardial injury and myocardial infarction in patients presenting to the emergency department in whom serial cTnI measurements are obtained on clinical indication.
Hypothesis: High sensitivity cTnI assays will have improved diagnostic accuracy for type 1 MI compared to contemporary cTnI assays. The primary objective of the study is to determine the performance of a high sensitivity cardiac troponin I (hs-cTnI) assay compared to a contemporary cTnI assay for the diagnostic accuracy of type 1 acute myocardial infarction (AMI). The diagnostic performance of Abbott's hs-cTnI assay will be evaluated. Investigators will assess the assay's ability to diagnose AMI earlier and to rule out AMI earlier. The sensitivity, specificity, positive predictive value and negative predictive value of the hs-cTnI assay will be evaluated with both a universal cut off as well as with gender and potentially age derived 99th percentile upper reference limits (URL). Investigators will evaluate delta hs-cTnI values (pre-specified absolute concentration and percent changes over time) for their ability to contribute to the negative predictive value and hence potentially lead to an earlier rule out of AMI (improved specificity). Additionally, investigators will assess delta changes of the hs-cTnI assay for their potential contribution to the clinical differentiation of type 1 and type 2 (supply demand mismatch) MIs. Lastly, investigators will compare the diagnosis of AMI based on the currently used contemporary assay to the hs-assay, to assess both the incidence of AMI as well as for the time to diagnosis.
The broad, long-term objective is to improve outcomes by optimizing healthcare delivery processes for patients with detectable to elevated serum troponin. This clinical trial involving emergency department (ED) patients with intermediate to high-risk chest pain and detectable to minimally elevated serum troponin within 6 hours of evaluation.
This pilot study involves very frequent monitoring of breast cancer patient blood levels of hs-cTnT Troponin and n-t-BNP (Brain Natriuretic Peptide) before and after initiation of chemotherapy with either adriamycin or trastuzumab in order to define the kinetics of both biomarkers during the first two cycles of chemotherapy. Cardiac troponins and BNP are frequently elevated after experimental chemotherapy in animal models. Their behavior in humans has been inconsistent, with occasional elevations seen, usually within 30 days of therapy. Assays for troponin with sensitivity into the pg/ml range have now been introduced. A majority of patients greater than age 50 have elevations above the detection limit, compared to only 1-3% with conventional troponin assays, and over 90% of diabetics have elevations above the detection limit. Moreover, augmented release of high sensitivity troponin is detected after exercise or rapid atrial pacing of durations of 10-15 minutes in patients with and without coronary artery disease. This improved sensitivity suggests the potential for detection and monitoring of cardiac damage after cancer chemotherapy. We hypothesized that this new generation of troponin assay would be associated with kinetic behavior suggesting ongoing cardiac damage with anthracycline therapy, and possibly also with trastuzumab.
Beta Natriuretic Peptide (BNP) is regarded as the most sensitive test for congestive heart failure (CHF). BNP has also been found to be highly predictive of other conditions including pulmonary hypertension, pulmonary embolism and in the general population where mild increases are associated with stroke and heart attack. BNP is also weakly and variably correlated with renal function. We believe that each dialysis patient will have an ideal or "dry" BNP level which will accurately and reproducibly reflect their optimal fluid status. Secondary hypotheses are that baseline BNP and troponin, as well as changes in BNP and troponin during dialysis, will be highly predictive of mortality and adequacy of dialysis.
The goal of this proposal is to improve the quality and value of care for patients with acute chest pain by investigating the potential impact of point-of-care (POC) high sensitivity cardiac troponin (hs-cTn) testing in the Emergency Department (ED) and exploring how best to integrate POC hs-cTnl into ED risk stratification workflows. The study hypothesizes that the Abbott i-STAT POC hs-cTnI assay will decrease time-to-result (TTR) and ED length of stay (LOS), while increasing ED revenue for patients with acute chest pain compared to a strategy of central laboratory hs-cTnI testing.
This prospective, non-interventional, single arm, longitudinal cohort multicenter study will recruit approximately 5600 consecutive all-comers, consisting of patients with signs and symptoms of acute coronary syndromes (ACS) who present in the emergency department (ED). The main objective of the study is to determine the clinical performance of Elecsys Troponin T hs Gen 6 versus the centrally adjudicated clinical diagnosis at various time points after ED presentation using the previously determined clinical cut-off of a universal 99th percentile upper reference limit.
The primary objective of this study is to assess cardiac troponin I (cTnI) values in participants who received mRNA-1273.712 or placebo.
This prospective device study will examine the feasibility of MCG data collection in a hospital setting using the SandboxAQ MCG device as a potential method to more accurately and quickly quantify cardiac disease of patients with elevated Troponin.
To learn if monitoring blood levels of heart injury (troponin levels) in cancer participants treated with immune checkpoint inhibitors will lead to decreased heart-related side effects.
The goal of this observational multi-center study is to evaluate the clinical performance of the i-STAT hs-TnI test (i-STAT High Sensitivity Troponin I) using the investigational i-STAT hs-TnI cartridge for the proposed intended use as an aid in the diagnosis and treatment of myocardial infarction (MI). The cartridge measures cardiac troponin I (cTnI) in whole blood or plasma samples using the i-STAT 1 Analyzer or i-STAT Alinity Instrument. Subjects presenting to the emergency department (ED) with chest discomfort or equivalent ischemic symptoms suggestive of Acute Coronary Syndrome (ACS) who are enrolled in this study will be asked to provide blood samples for testing.
As part of the planned implementation of a new clinical pathway using hs-cTnI, the investigators will measure patient outcomes and clinical processes in a real-world scenario throughout an integrated health system across 9 emergency departments (ED).
This is a prospective observational cohort study of ED patients with acute chest pain or other symptoms suggestive of ACS. Blood samples will be collected from study participants for High-Sensitivity Cardiac Troponin T (hs-cTnT) analysis. Results from hs-cTnT will be used for research purposes only. Providers will be blinded to results and participants will be treated by their healthcare providers per the standard of care. Participants will have 30 and 90 day phone follow-ups to ascertain study outcomes.
Prospective multicenter sample collection and testing study.
This trial is designed as a prospective, multi-center, observational study of "all-comers" eligible adult subjects presenting to participating emergency departments with symptoms suggestive of acute coronary syndrome (ACS)
1. In chest pain patients with suspected acute coronary syndrome, a 2-hr delta Troponin-I as measured by the i-STAT immunoassay reliably identifies and excludes an acute myocardial infarction. 2. In chest pain patients with suspected acute coronary syndrome whose baseline troponin is above the 99th percentile but less than 0.2ng/ml, a 2hr delta Troponin-I as measured by the i-STAT immunoassay accurately discriminates between acute myocardial infarction and non-acute myocardial infarction troponin elevations.
Our research will examine whether the presence or absence of serial electrocardiogram (ECG) changes aids in reclassifying participants' risk for major adverse cardiac events (MACE) over and above serial blood testing.
This is a multi-center study to assess the diagnostic accuracy of the Troponin I assay in the Biosite Triage Cardio3 Panel at the point-of-care (POC) in adults presenting to the emergency department with possible acute myocardial infarction (AMI).
Study Objectives The following items will be prospectively assessed. Primary Endpoints 1. For patients presenting with clinical suspicion of Acute Coronary Syndromes (ACS), high sensitivity-cardiac Troponin I (hs-cTnI) provides improved diagnostic accuracy for ACS (including Acute Myocardial Infarction (AMI) and/or Unstable Angina (UA)) within the first two (2) hours after emergency department presentation when compared to currently available troponin assays. 2. For patients presenting with clinical suspicion of ACS, hs-cTnI provides improved prognostic information with regard to 180 day event rates of Major Adverse Cardiac Event outcomes, including cardiac deaths which are defined as all deaths except those that are clearly non-cardiac in nature (e.g. trauma), when compared to a currently available troponin assay. Secondary Endpoints 1. For patients presenting with clinical suspicion of ACS, using the rate of rise of hs-cTnI over time between presentation and 2 hours (delta hs-cTnI) allows for the differentiation between ACS and other disease states. 2. For patients presenting with clinical suspicion of ACS, hs-cTnI provides improved sensitivity for detecting AMI within the first two (2) hours after presentation when compared to a currently available troponin assay. 3. For patients presenting with clinical suspicion of ACS, hs-cTnI provides improved negative predictive value for ruling out ACS (AMI or UA) within the first 2 hours after presentation when compared to a currently available troponin assay. 4. For alternative endpoints of cardiac mortality, and for alternative censor time points of 30 days, 90 days, and 1 year, hs-cTnI provides improved prognostic information when compared to the currently available troponin assay. 5. In cases where the emergency physician has limited diagnostic confidence, hs-cTnI AMI diagnostic accuracy will be superior to local hospital standards for AMI determination. 6. In cases where the emergency physician has limited diagnostic confidence, the slope for the hs-cTnI between presentation and 2 hours will add diagnostic accuracy for ACS diagnosis over and above local hospital standards for ACS determination. 7. For patients presenting with clinical suspicion of ACS, the difference in diagnostic accuracy for ACS (including AMI and/or UA) using hs-cTnI measurement from time of onset of symptoms to emergency department presentation (e.g. 3 hours instead of 6 hours) will be evaluated to assess any variation.
The purpose of the study is to identify if the combined use of cardiac troponin enzyme (cTnT) and brain natriuretic peptide (BNP) can predict Heart Failure (HF)improvement and all-cause mortality in patients implanted with cardiac pacemaker-defibrillation devices (CRT-D). Novel biochemical markers identifying patients with high risk cardiac mortality detected by plasma protein analysis will also be evaluated. Hypothesis #1: The combined use of cTnT and BNP at just before implant will predict and risk stratify all cause mortality or HF hospitalization up to 12 months. Hypothesis #2: The change in levels of said biomarkers at different points of follow-up can predict response to CRT through 12 months. Hypothesis #3: The levels of a panel of novel inflammatory mediators, namely chemokines, will be correlated with improvement in 6-minute walk testing, quality of life, and left ventricular ejection fraction in CRT patients.
The purpose of this study is to prospectively analyze and compare conventional stress echocardiograms and real-time myocardial contrast stress echocardiograms; and to determine the effect of contrast agents used during real-time myocardial contrast stress echocardiograms on serum troponin I levels.
Perioperative cardiac adverse events \[heart injuries caused by general anesthesia and surgical procedures\] are a significant public health issue, with more than 60,000 deaths per annum in patients having surgery for non-heart related issues. There are virtually no evidence-based medical strategies for effective prevention of these events. Preoperative drug treatment with beta blockade drugs used for high blood pressure, perioperative therapy with lipid lowering drugs such as statins, alpha-receptor agonists such as clonidine used for high blood pressure, and aspirin have all been investigated as potential mitigating treatments, but without positive clinical outcomes and, in some cases, creating more hemodynamic instabilities that result in heart injury. In light of this, investigators propose to evaluate the safety and efficacy of using increasing doses of beta blockade drugs immediately after surgery and to assess the value of high-sensitivity cardiac troponin level testing of the blood in predicting those patients who would benefit most from perioperative beta blocker therapy.
Pilot trial to determine diagnostic efficacy of post-reperfusion troponin kinetics in detection of hemorrhagic myocardial infarction
The Siemens POC High Sensitivity Troponin-I Test System is an in vitro diagnostic test for the quantitative measurement of cardiac troponin I (cTn-I) in fresh human capillary (fingerstick) whole blood, and lithium-heparinized venous whole blood or plasma, to be used by healthcare professionals at the point of care (POC) as well as in the clinical laboratory. The Siemens POC High Sensitivity Troponin-I Test System is to be used as an aid in the diagnosis of myocardial infarction (MI).
At the end of December of 2019, a series of patients in Wuhan, China were struck with a mysterious respiratory infection. These isolated events have rapidly grown into a deadly, global pandemic. This pandemic is caused by the Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2), which results in the Coronavirus Disease 2019 (COVID-19). For individuals infected with COVID-19, approximately 30% of the hospitalized cases are associated with cardiovascular complications. Data are emerging that individuals with pre-exiting conditions (like hypertension, diabetes, cancer, or medical issues related to the immune system) are most susceptible to complications related to COVID-19. Furthermore, individuals of certain racial and ethnic backgrounds (e.g. African American and Hispanic) are at a higher risk of death from COVID-19. Despite these emerging observations, it remains unclear who will develop the cardiovascular complications (acute myocardial injury with evidence of a myocarditis-like picture and cardiogenic shock) and what the long term sequelae of this disease will be for survivors of this infection after hospitalization. Thus, the goals of this project are to better understand the epidemiology of cardiac injury in acutely ill COVID-19 patients through deep cardiac phenotyping and identify the molecular profile of individuals most susceptible to cardiac injury from COVID-19.
The goal of this study is to determine if sleep disordered breathing results in a measurable degree of overnight myocardial stress/injury in patients with acutely decompensated congestive heart failure. A secondary goal is to determine of a period of medical management attenuates this sleep disordered breathing-induced cardiac injury in this patient population.
All neonates with congenital heart disease undergoing stage one palliation (Norwood procedure, Damus-Kaye-Stansel procedure) at Texas Children's Hospital will be regularly monitored for B-type natriuretic peptide (BNP) and Troponin level before the surgical procedure, on arrival to the cardiac intensive care unit after their surgical procedure, every 6 hours during the first 24 hours of the post-operative period, followed by daily levels for the first week, and then weekly during patient's regular laboratory work up schedule. These cardiac biomarkers are linked to demographic, hemodynamic, respiratory, pharmacological data available via Sickbay.
Despite advances in cardiovascular care, the occurrence of heart failure (HF) is steadily increasing. The increase in HF rates poses enormous challenges, as once an individual becomes symptomatic or requires hospitalization with HF, the prognosis remains poor. Therefore, prevention of HF is essential. HF prevention is a critical issue as HF risk factors that include common medical conditions such as hypertension and diabetes are also increasing. However, not everyone with these risk factors develops HF. Using novel blood tests, the investigators propose to identify and treat subjects at higher HF risk to see if the investigators can stabilize or improve ultrasound measures known to be associated with HF risk. This study will enroll only Veterans.