Weight Approximation in Stroke Before Thrombolysis
StrokeThrombolysis using Alteplase (tPA) is still the only approved specific therapy for acute ischemic stroke (AIS). Current guidelines in western countries recommend an tPA dose of 0.9mg/kg up to a maximum dose of 90mg for patients weighing more than 100kg. However, larger dose-finding rtPA trials for intravenous thrombolysis in AIS are missing. Based on results from research on myocardial infarction only a few open label studies with low case rates were initiated to evaluate the optimal dose for tPA in cerebral ischemia. These studies suggested a narrow therapeutic range with decreased efficacy in lower dosages and an increased risk for thrombolysis related intracerebral hemorrhage (ICH) at doses above 0.95mg/kg. The ECASS-1 trial which used a dosage of 1.1mg/kg rt-PA showed significantly higher rate of large parenchymal hemorrhages compared to trials using 0.9mg/kg. Therefore accurate dosing is crucial. In the acute phase two aspects complicate rtPA dosing in AIS: First, unlike in other diseases many stroke patients are unable to communicate information on their body weight (BW) because of their stroke symptoms (e.g. aphasia, decreased consciousness). In addition motor symptoms prohibit easy weighing procedures in many patients. Second, the ultra-early and narrow time window for treatment does not allow time loss to weigh each patient in the emergency situation. Therefore routinely the attending physician has to make a visual estimation of the patient's BW. This may be inaccurate and may cause dosing errors which has been shown for other weight based emergency medication. There is little data on tPA-dosing errors in stroke patients and prospective data are lacking. The aim of our study is to evaluate availability of BW-information, accuracy of estimations and final dosing of tPA in a routine clinical setting. Therefore the investigators evaluate different sources of body weight estimations and also compare visual estimation with recently proposed anthropometric measurements for body weight approximation. Finally, impact of dosing errors on safety and efficacy are analyzed. The initial phase will consist of 100 enrolled patients as a pilot phase for further power calculations. Based on the results of the pilot phase enrollment will continue. The envisioned inclusion target is up to 800 patients.
Comparative Study of Arterial Properties After an Ischaemic Stroke or an Acute Coronary Syndrome...
Ischemic StrokeAcute Coronary Syndrome1 moreA pilot, prospective, comparative study. To include both male and female patients who have presented an ischaemic stroke (full stroke or TIA) or an ACS, 5 to 30 days prior to inclusion. The proposed study aims to investigate and analyse the differences in functional and structural arterial properties between the patients who presented an ischaemic stroke and those who presented ACS. The hypothesis is that the patients in both groups will present differences partly in terms of their "traditional" cardiovascular risk factors, but also in terms of their arterial properties. All of the confounding factors studied (cardiovascular risk factors, treatments) will be taken into account in order to explain the differences in the arterial properties found between the two groups. Furthermore, the prevalence of signs and symptoms in the two populations will be studied.
Function Benefits of a Myoelectric Elbow-Wrist-Hand Orthosis
Cerebrovascular AccidentsThe objective of this study is to evaluate the functional benefits of a myoelectric Elbow-Wrist-Hand orthosis for persons with upper limb paralysis caused by a cerebrovascular accident (CVA).
Validation and Standardisation of a Pool of Simplified Evaluation Aimed to the Diagnoses of Aphasic...
StrokeEvery year in France, from 100 000 to 145 000 people are affected by a stroke. 75% patients survived with aftereffects, in particular aphasic disorders. A sketch of a new tool called BESTA aiming to a rapid handover to the acute phase post stroke had been worked out. After a meeting, 13 multidisciplinary experts have discussed, adjusted and a new complete tool (BESTA) had been created in order to evaluate the different states of aphasia. The goal of this study is the validation and the standardization of this new BESTA tool.
Clinical Applications and Evaluations of A Portable In-Shoe Plantar Pressure Monitoring and Biofeedback...
StrokeThe purposes of this paper were to determine whether walking speed affected gait parameters and force impulse in patients with stroke or not, and if the changes varied in various foot regions.
Marker for Stroke Recovery
StrokeIschemicThis study aims to develop a neurophysiological marker for post-stroke participants that predicts upper extremity motor recovery in response to a standard upper extremity rehabilitation protocol of task-specific training (TST). For this aim, the researchers will utilize transcranial magnetic stimulation (TMS) combined with electromyography (EMG) and electroencephalography (EEG) to observe inpatients with stroke-related hemiplegia and follow their recovery through outpatient for up to 3 months. Motor-evoked potentials (MEPs), transcranial-evoked potentials (TEPs), action research arm test (ARAT) scores, and clinical outcome measures will be recorded at different time points of the inpatient rehabilitation period. The researchers hypothesize that changes in motor recovery will be reflected in changes in the MEPs and TEPs.
Comparative Evaluation of Stroke Triage Algorithms for Emergency Medical Dispatchers
StrokeThis study will compare the diagnostic accuracy of Card 28 stroke protocol to Card 28 and Cincinnati Stroke Scale, when used by emergency medical dispatchers to interrogate a 911 call suggestive of stroke. The authors hypothesize that a combination of Card 28 plus the Cincinnati Stroke Scale (CSS) will improve the diagnostic accuracy of emergency medical dispatchers for stroke.
MRI Repository for Acute Stroke Clinical and Research Applications
StrokeAcuteStroke is one of the leading causes of death and long-term disability. A major unresolved problem in MRI-based stroke assessment is to relate image features to brain function in a way that can properly guide stratification for treatment and rehabilitation. This requires extracting meaningful and reproducible models of brain function from stroke images, a daunting task severely hindered by the great variability of lesion frequency and pattern. Large datasets are imperative to uncover possible lesion-function relationships. In this project the investigators will create a large database of acute strokes MRIs. The investigators will retrospectively archive an estimated 3,000 MRIs of patients with acute stroke, acquired at the Johns Hopkins Hospital, 2009-2019. This dataset will include 1.5 and 3 Tesla scans, diverse protocols and sequences (e.g., diffusion and perfusion weighted images (DWI/b0, PWI), T1, T2, FLAIR, susceptibility weighted images), with typical clinical low voxel resolution (4-7 mm3). Lesions will be initially delineated on DWI/b0, the most informative MRI sequence for acute stroke. After anonymization and defacing, two trained evaluators will perform the manual lesion segmentation. Two expert neuroradiologists will create consensual structured radiological reports with information about stroke type and location according to different criteria (e.g., 34 brain structures and 11 vascular territories). The investigators will also archive structured information from discharge (demographics, laboratory, and neurological evaluation of patients, including NIH stroke scale and modified Rankin scale, mRS), as well as the 90-days follow-up mRS.
Certainty Of Stroke Symptom Onset Study
Ischemic StrokeIntravenous tissue plasminogen activator (IV t-PA) is the only proven treatment of hyperacute cerebral infarction. The outcome of this treatment highly depends on the time from symptom onset to the administration of thrombolytic agent. Last known normal time is widely used as the standard to determine the symptom onset. These stroke symptoms are usually caused by a sudden decrease in cerebral blood flow related with an embolic or thrombotic event. However, in some cases various symptoms may occur one after another. Myocardial infarction is also caused by a sudden caseation of blood flow. The symptom of myocardial infarction usually contains chest pain, and it is easy to identify the exact time of onset. In contrast, cerebral infarction may cause various symptoms according to the infarcted area of the brain, and sometimes multiple symptoms are presented in rapid succession. Therefore, it may be much unclear and uncertain to determine the onset time of cerebral infarction. Despite the importance of onset time in therapeutic decision making, there was no study focusing on the certainty of onset time in cerebral infarction patients. In this study, we will investigate the subjective certainty of patient about the onset time in clear-onset cerebral ischemia. The discrepancy in diagnosing the onset time will be analyzed among the clinicians involved in the practice. Then, the factors associated with this uncertainty will be verified.
Heart Rate Variability and Orthostatic Hypotension in Stroke Patients Evaluated by Intelligent Biosensor...
Cerebrovascular AccidentThis research investigated the heart rate variability (HRV) and stroke patients' orthostatic hypotension in hospitalized stroke patients accompanied with dizziness at varied tilting angle controlled by tilting table with intelligent biosensor.