Clinical Research Directory

A Prospective Evaluation of Clinical Outcomes in Acute Ischemic Stroke After Endovascular Treatment w/Doppler

Endovascular therapy (EVT) has proven to be more beneficial for patients with AIS caused by large vessel occlusions (LVO) than medical management alone. A recent meta-analysis of 5 RCTs showed that EVT significantly reduced disability at 90 days compared to medical management \[1\]. Despite its obvious benefits, patients may have neurological deterioration despite successful thrombectomy due to ischemia progression, intracranial hemorrhage, re-occlusion, or vasogenic edema. The incidence of early neurological deterioration (END) following EVT for acute stroke has been reported to be ranging from 14.1-35.2% with some studies defining END up to 7 days and some restricting the definition between 6-72 hours post thrombectomy. A small proportion of these patients, approximately 5.9-10.5%, experienced sICH following EVT. Whether END occurs due to ischemic or hemorrhagic it leads to worse outcomes.

Cardiac Assessment for Recurrent Stroke Risk Evaluation in Atrial Fibrillation

Background Atrial fibrillation (AF) is the most common cardiac arrhythmia, affecting up to 10% of the elderly. Ischemic stroke is the main complication of AF and cardioembolism is one of the leading causes of ischemic stroke, accounting for approximately one third of cases. Oral anticoagulant therapy (OAC) is a cornerstone in stroke prevention in patients with AF. According to randomized controlled trials of direct oral anticoagulants, a residual risk of ischemic stroke of 1-2% per year for so-called "breakthrough stroke" remains, despite adequate intake of OAC. The majority (\>70%) of these breakthrough strokes are cardioembolic in nature and only a minority are related to medication issues (e.g. non-compliance) or other, non-AF related etiologies. Stroke recurrence risk after such a breakthrough stroke markedly increases to 8-9% per year indicating a particularly high-risk situation. Why OAC fails in certain patients, but not in others remains as poorly understood, as does the reason why the subsequent risk of stroke is so high. Current risk stratification tools, such as the widely used CHA2DS2-VA(Sc)-score, fail to predict stroke risk in such a high-risk cohort, as they were intended to guide the initiation of OAC in low to moderate risk patients. In light of new therapeutic strategies currently being investigated, such as percutaneous left atrial appendage occlusion in patients with breakthrough strokes (ELAPSE - NCT05976685) or in AF-patients deemed high-risk (LAAOS IV - NCT05963698), improved risk stratification and characterization of high-risk AF patients is highly warranted. Several clinical factors, such as those reflected in the CHA2DS2-VA(Sc)-score, and especially a high AF-burden are associated with increased risk of cardioembolic stroke. Several cardiac serum biomarkers are thought to be surrogates not only of cardiac function, but also of cardioembolic risk. Reflecting ventricular and atrial wall tension, myocardial injury, oxidative stress and thrombogenicity, elevated NT-proBNP, MR-proANP, high-sensitive Troponin T and D-Dimers have all been associated with cardioembolic stroke in different AF and non-AF populations. As the main location of thrombus formation, the left atrium (LA) and more specifically its appendage (LAA) are of particular interest in the pathogenesis of cardioembolism. Pronounced LA-enlargement, compared to a normal-sized LA, correlates with an increased risk of cardioembolism in AF-patients. As over 80% of thrombi form within the LAA, several LAA-characteristics, such as slower LAA-flow velocity and larger LAA-orifice area have also been demonstrated to be associated with higher stroke risk. Although there is data on each one of these factors, they have only been investigated in low to moderate risk populations, such as AF-patients without prior stroke, OAC-naïve patients, or even within the general population as a whole. Their role in high-risk AF-patients and in breakthrough stroke is unknown. Hypothesis The investigators hypothesize that specific clinical factors, serum cardiac biomarkers and markers of LA- and LAA-morphology and function are associated with breakthrough stroke / OAC-failure and may improve risk stratification. Methods CARE-AF is a single-center, prospective cohort study conducted at the Stroke Center of the Inselspital, University Hospital Bern, Switzerland. Patients with an index ischemic stroke and AF (breakthrough and non-breakthrough cases) will be enrolled. The investigators will collect clinical data, serum cardiac biomarkers and echocardiographic indices of the LA and LAA. All patients will receive standardized annual follow-ups until the end of the study, defined as 12 months after the inclusion of the last participant. The primary endpoint is ischemic stroke or systemic embolism during follow-up. First, in a cross-sectional design, the study will assess the association between serum cardiac biomarkers and echocardiographic indices among patients with breakthrough vs. non-breakthrough stroke as index event, applying multivariate regression models. Second, the investigators will perform a longitudinal analysis assessing the association between the variables mentioned above and breakthrough stroke as index event with the primary endpoint, using multivariate Cox regression models. The study aims to enroll a minimum of 500 patients, which provides sufficient power to detect a clinically meaningful adjusted hazard ratio for recurrent stroke of 1.5 with 80% power at an alpha level of 5%. Conclusion The results of this project will enhance understanding of the role of specific clinical factors, cardiac serum biomarkers and echocardiographic indices in the residual risk of stroke in patients with AF on anticoagulation therapy. They may improve current risk stratification and have the potential to help guide therapeutic decisions in high-risk situations considering evolving therapeutic possibilities.

Detecting Cardiac Thrombi in Acute Ischemic Stroke on Cardiac CT Versus Transoesophageal Echocardiography

Rationale: Cardiac CT acquired during the acute stroke imaging protocol (acute cardiac CT) has recently been shown to have a superior diagnostic yield than transthoracic echocardiography, which is currently the most commonly used method to screen for structural sources of cardioembolism in patients with acute ischemic stroke. The most common finding on acute cardiac CT are cardiac thrombi located in the left atrium (LA) and specifically the left atrial appendage (LAA). The higher diagnostic yield of acute cardiac CT compared to TTE is partially explained because CT allows for better visualization of the LAA, but also because cardiac thrombi may dissolve in the first days after stroke. Whether acute cardiac CT is the optimal diagnostic modality for LA thrombi in stroke patients is unknown, since data comparing it to transoesophageal echocardiography (TEE), which is the reference standard to detect LA thrombi, are lacking. The general hypothesis of this study is that acute cardiac CT is the optimal method to detect LA thrombi in ischemic stroke patients, since TEE can miss LA thrombi that dissolve in the first days after stroke. Objectives: 1. Determine whether acute cardiac CT has a higher diagnostic probability of detecting LA thrombi compared to TEE or repeated cardiac CT in the subacute phase of ischemic stroke by assessing the rate at which LA thrombi dissolve in the first days after ischemic stroke occurrence. 2. Determine the positive predictive value of acute cardiac CT compared to TEE for the detection of LA thrombi. Study design: Prospective, single-centre, observational cohort Study population: 39 patients of 18 years or older with acute ischemic stroke and a LA thrombus detected on cardiac CT acquired during the acute stroke imaging. Main study parameters/endpoints: 1. Rate at which LA thrombi visualized on acute cardiac CT dissolve in the first days after ischemic stroke. 2. False-positive rate for detection of left atrial thrombi on acute cardiac CT compared to TEE. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Clinical and imaging patient data which are obtained as part of standard care will be prospectively collected after written informed consent. Patient with a LA thrombus on acute cardiac CT will undergo TEE for research purposes after obtaining written informed consent. TEE is semi-invasive and associated with a small risk of major complications (\<0.2%). Patients will also be exposed to additional radiation (1.4 mSV) due to sequential cardiac CT after TEE. The Radiation Dose Committee deemed this to be an intermediate risk. In a small minority of patients (\<10%), another cardiac CT will be acquired 2 minutes after this sequential cardiac CT to ensure a clear, final assessment of the presence of an atrial appendage thrombus. This will result in a total additional radiation of 3 mSV for the two additional cardiac CT's. The Radiation Dose Committee deemed this to be an intermediate risk. As part of standard care, patients will be contacted for follow-up evaluation by a trained stroke nurse at 90 days. As a result of ischemic stroke, some patients become incapacitated to an extent they are unable to give informed consent. In these cases, the legal representative will be asked for informed consent. Decreased leveI of consciousness or aphasia are typical clinical characteristics of cardioembolic stroke. Therefore, it is pivotal to also include incapacitated acute ischemic stroke patients. Excluding these patients from the study would render the study non-representative of the study's target population (acute ischemic stroke patients with cardioembolic stroke due to LA thrombus).

Translational Immunodiagnostics in Stroke (TrImS)

In adult patients presenting to emergency departments within 24 hours of symptom onset with suspected acute stroke, we aim: 1. to identify early brain- and pathology-specific circulating, whole blood, plasma and serum panorOmic biomarkers that enable early acute stroke detection, diagnosis, dynamics, differentiation, monitoring, prediction and prognosis. 2. to identify early brain- and pathology-specific, panorOmic biomarkers in saliva that enable early acute stroke detection, diagnosis, dynamics, differentiation, monitoring, prediction and prognosis. 3. to derive biomarker platforms of models for early acute stroke detection, diagnosis, dynamics, differentiation, monitoring, prediction and prognosis 4. to validate these models in independent and external datasets