View clinical trials related to Stroke.
Filter by:There are everal scales designed to help ambulance paramedics to identify a patient with a stroke and activate a stroke code. These scales were never tested in the field in a large unselected patient sample. We aim to perform an in-the field head tot head comparison of all published stroke scales designed to be used by ambulance paramedics
A 6-month pilot randomized controlled trial designed to test the effect of the Mediterranean-DASH Intervention for Neurodegenerative Delay (MIND) Diet + usual medical care versus usual medical care on cognitive change and several other secondary outcomes through a randomized controlled trial in 60 mild stroke patients aged 35-70 years without dementia.
Impairments in aspects of social cognition are disorder-transcending: these have been demonstrated in various neurological disorders, such as traumatic brain injury (TBI), stroke, brain tumours (both low grade glioma's and meningioma's) and multiple sclerosis (MS). Social cognition involves processing of social information, in particular the abilities to perceive social signals, understand others and respond appropriately (Adolphs 2001). Crucial aspects of social cognition are the recognition of facial expressions of emotions, perspective taking (also referred to as mentalizing or Theory of Mind), and empathy. Impairments in social cognition can have a large negative impact on self-care, communication, social and professional functioning, and thus on quality of life of patients. Recently, a first multi-faceted treatment for social cognitive impairments in TBI was developed and evaluated; T-ScEmo (Training Social Cognition and Emotion). T-ScEmo turned out to be effective in reducing social cognitive symptoms and improving daily life social functioning in this particular group, with effects lasting over time (Westerhof-Evers et al, 2017, 2019). Unfortunately, up till now there are no evidence based, transdiagnostic treatment possibilities available for these impeding social cognition impairments in neurological patient groups, other than TBI. Therefore the aim of the present study is to investigate whether T-ScEmo is effective for social cognition disorders in patients with different neurological impairments, such as stroke (including subarachnoidal haemorrhage (SAH)), brain tumours, MS, infection (meningitis, encephalitis) and other. The secondary objective is to determine which patient related factors are of influence on treatment effectiveness. In short, hopefully this study can contribute to a treatment possibility for social cognition disorders for all patients with various neurological disorders. It is expected that T-ScEmo will be effective for various neurological disorders, based on previous research of Westerhof-Evers et al. (2017, 2019). Since social cognition disorders within patients with traumatic brain injury do all have the same ethiology it is expected that the treatment will show the same effects for patients with various neurological disorders. Therefore it is expected that patients will improve on social cognition, social participation and quality of life and social behaviour, that these results will last over time.
The goal of lower limb rehabilitation after stroke is recovery of independent walking at home and in the community. Few stroke survivors achieve this goal. Suboptimal outcomes are due to the serious and intransigent nature of movement impairments caused by stroke and the scarcity of feasible and effective therapies that restore movement lost to stroke. Our team has developed a novel exercise intervention called CUped (pronounced cupid, like the Roman god) to address barriers to recovery and improve walking after stroke. CUped is so called because it compels use of the paretic limb during a movement that resembles pedaling. This project will examine safety, acceptability, and tolerance to CUped, characterize its therapeutic effects, and identify dose-response relationships. Results will provide preliminary data for an R01 to support a randomized controlled trial (RCT). CUped is designed to help stroke survivors recover lower limb movement lost to stroke, thereby improving walking. It is intended to be used as an adjunct to gait training. CUped uses a robotic technology that eliminates compensatory movements that interfere with recovery, compels use of the paretic lower limb, and targets 3 key movement impairments caused by stroke: decreased muscle output from the paretic limb, inappropriate paretic muscle timing, and abnormal interlimb coordination. Exercise is done in sitting which enables high repetition practice. Like walking, CUped requires continuous, reciprocal use of both lower limbs; effects are likely to transfer to walking. The risk-reward profile of this proposal is ideal for an R21, which is an NIH funding opportunity intended to encourage exploratory/developmental research by providing support for the early and conceptual stages of project development. CUped is a novel therapy grounded in a physiologic premise and based on prior observations from our laboratory. The investigators have pilot data suggesting that CUped fulfills its design specifications, and this study will be the first to test its therapeutic effects. In this Stage 1 rehabilitation trial, The investigators will support or quickly refute the hypothesis that CUped is safe, acceptable, and capable of eliciting a therapeutic response in stroke survivors. The investigators will also examine tolerance to CUped and dose-response effects. If our hypotheses are supported, the investigators will be poised to run an RCT to isolate the effects of CUped and compare them to standard care. Future work will investigate physiologic mechanisms underlying the effects of CUped.
The goal of this type of study: clinical trial is to assess K-OCS clinical utility in participant population. The main aims: - validate the reliability and validity of the Korean version of the Oxford Cognitive Screen (K-OCS) - analyze its sensitivity, specificity, and diagnostic accuracy, and compare its examination participation rates with existing assessment tools to determine the effectiveness of K-OCS in detecting post-stroke cognitive impairment.
A randomized, controlled, subject and rater-blind, exploratory clinical trial to evaluate the safety and efficacy of repetitive transcranial magnetic stimulation for improvement of upper extremity function after stroke.
The purpose of this study was to evaluate the effectiveness of early administration of BXOS110 for injection in reducing overall disability in patients with acute ischaemic stroke.
Patients with stroke frequently present phonation difficulties. An intervention combining myofunctional and respiratory training is presented in order to improve phonation outcomes.
Weight loss interventions for neurologically health individuals have established benefits for improving physical and psychosocial function. The investigators believe that Veterans who have had a stroke would realize similar benefits and that the effects would be enhanced with concurrent exercise training. The investigators will study the effects of a 15-week lifestyle management program to determine if it can effectively improve some of the physical and psychosocial problems common in Veterans who have had a stroke.
Clinical implication of eventual blood biomarkers for stroke diagnosis and prognosis would be limited, mainly because clinical evaluation and scales (providing stroke severity) or neuroimaging (providing accurate size of the lesion) are more reliable predictors for clinical outcome prediction. In clinical practice, it would be more useful to find a biomarker, which can help to orientate the physician in conditions in which the clinical picture and imaging provide a limited support. Transient Ischemic Attacks (TIAs) represent a classical example for which a biomarker would be of interest to confirm and distinguish a brain ischemic process from a stroke mimic. Diagnostic biomarkers of TIA have been investigated, but none of the potential candidates reached enough accuracy for TIA diagnosis. Our group has found that Extracellular Vesicles (EVs) could be useful as biomarkers for detecting brain ischemia in patients with TIA because the EV-surface antigen profile appears to be different in patients with transient symptoms, adjudicated to be very likely caused by brain ischemia, compared to patients whose symptoms were less likely to due to brain ischemia. Our study has raised interest in the scientific community recognizing the promising role of of blood-derived EVs analysis in expanding the possibilities to correctly diagnose and classify TIA and stroke events, discriminate them from TIA or stroke mimics, with important future implications in management and therapy of the patients with acute ischemic cerebrovascular syndrome. the validity of our approach needs to be tested in a larger, prospective, multicenter study.