Clinical Research Directory

Promoting Recovery After STroke With Amantadine

The investigators aim to examine whether amantadine can help patients recover from stroke. This will be a blinded randomized clinical trial (RCT). Patients will be randomized post-ischemic or hemorrhagic stroke either to the placebo arm or amantadine arm. Patients will be on study drug or placebo for 1 month but will be enrolled for 3 months total. At various time points patients will be examined and fill out questionnaires to determine level of stroke recovery.

Rapid Evacuation and Access of Cerebral Hemorrhage Trial

The main purpose of this study is to compare patients with a deep bleed in the brain undergoing surgery to patients receiving routine medical care. The standard treatment involves admission to the Intensive Care Unit (ICU) with close monitoring and blood pressure control. It also includes other medical (non-surgical) treatments to prevent more bleeding or another stroke. Sometimes, doctors will recommend surgery to remove the blood if medical treatment alone is not successful. There is evidence that doing minimally invasive surgery early-using a small opening in the skull to remove blood-may help some patients. Researchers aim to understand whether this surgery is better than current medical treatment, which may include surgeries to relieve pressure on the brain in some cases. This study, called REACH, is comparing usual medical care to early minimally invasive surgery so doctors can know which is better for patients.

earlY Upper Limb Rehabilitation WIth EEG-Neurofeedback After Stroke

The aim of this study is to evaluate the effect of early rehabilitation treatment by electroencephalographic neurofeedback on upper limb motor function after stroke. Researchers will compare : Interventional group: electroencephalographic neurofeedback + traditional reference rehabilitation programme Control group: SHAM electroencephalographic neurofeedback + traditional reference rehabilitation programme

Utility of CC7 Transfer in Stroke Subtypes

The purpose of this study is to evaluate the limb functional improvement after contralateral C7 root transfer in stroke patients.

Statistical Learning as a Novel Intervention for Cortical Blindness

This project aims to develop a novel visual training paradigm for use in visually-intact participants and those sufferings from stroke-induced visual impairments. Our task design is built upon theories of statistical learning to reduce the overall training burden while still producing profound improvements to visual abilities. Efficacy will be first established in visually-intact controls before testing in stroke survivors to assess the feasibility of this form of learning in the damaged visual system.

Vision Loss Impact on Navigation in Virtual Reality

The purpose of this research is to better understand the impact of cortically-induced blindness (CB) and the compensatory strategies subjects with this condition may develop on naturalistic behaviors, specifically, driving. Using a novel Virtual Reality (VR) program, the researchers will gather data on steering behavior in a variety of simulated naturalistic environments. Through the combined use of computer vision, deep learning, and gaze-contingent manipulations of the visual field, this work will test the central hypothesis that changes to visually guided steering behaviors in CB are a consequence of changes to the visual sampling and processing of task-related motion information (i.e., optic flow).

Task-Specific Self-Rehabilitation Training (TASSRET) Trial

The goal of this pilot RCT is to evaluate the effectiveness of a Task-specific Self-rehabilitation Training (TASSRET) program and compare the effect of the two formats of the TASSRET (video vs manual) on functional ability (upper extremity fine and gross motor skills, upper extremity manual dexterity and speed, voluntary movement and basic mobility, gait velocity, balance) and health-related quality of life among Hausa-native stroke survivors. The main questions it aims to answer are: 1. What is the immediate effect and durability of TASSRET on functional ability (upper extremity fine and gross motor skills, upper extremity manual dexterity and speed, voluntary movement and basic mobility, gait velocity, balance) and health-related quality of life among the Hausa-native stroke survivors? 2. Which of the self-rehabilitation formats (TASSRET-manual or TASSRET-video) is more effective (immediate and durable) at improving functional ability (upper extremity fine and gross motor skills, upper extremity manual dexterity and speed, voluntary movement and basic mobility, gait velocity, balance) and health-related quality of life among the Hausa-native stroke survivors?

Visual Rehabilitation After Occipital Stroke

This research aims to examine changes in plastic potential of the visual system with time from stroke affecting primary visual cortex. We will measure structural and mechanistic aspects of progressive degeneration along the early visual pathways, correlating them with changes in visual performance, and in responsiveness to visual restoration training. This project will advance both scientific knowledge, as well as technical capability and clinical practices for restoring vision and quality of life for people suffering from cortical blindness.

Non-invasive Intracranial Pressure Monitoring to Improve Emergency Care in Brazil's Public Health System

The goal of this observational study is to evaluate the diagnostic accuracy of non-invasive intracranial pressure (ICP) and intracranial compliance (ICC) pulse morphology and associated parameters (such as the P2/P1 ratio and nTTP) obtained with the brain4care system for the screening of intracranial hypertension (ICH) in patients with traumatic brain injury (TBI) and stroke treated in Brazil's public health system (SUS). The main questions it aims to answer are: Can non-invasive ICP and ICC pulse morphology reliably identify or exclude intracranial hypertension, cerebral edema, and hemorrhage compared to CT findings and clinical/neurological evaluations? Can this approach differentiate ischemic stroke from hemorrhagic stroke with sufficient accuracy? Does the use of brain4care contribute to earlier detection, improved clinical decision-making, and cost reduction in emergency settings?

Can Listening to Music Improve Attention and Language After Post-Stroke Aphasia?

The goal of this clinical trial is to learn if a music-based intervention can acutely improve three types of attention (alerting, orientating, executive control) in people with aphasia following a stroke. The main questions it aims to answer are: 1. Is a music based intervention effective at improving attention with someone who has aphasia? 2. Does music-induced changes in attention improve language abilities and quality of life with someone who has aphasia? Researchers will compare a group that listening to music, to listing to an audiobook group, to a group that serves as a control to see if there are changes in attention over time. Participants will: 1. Listen to music or an audiobook for 30 minutes a day for 8 weeks 2. Complete a daily journal about each day's listening experience 3. Complete three testing sessions where attention, language, and quality of life are assessed.

Clinical validatiOn of an AI-based DEcision Support System for Robotic Upper Limb Rehabilitation in Patients With Stroke. A CO-AIDER Study.

The goal of this clinical trial is to validate an artificial intelligence-based decision support system (AI-DSS) for robotic rehabilitation in participants with stroke. The study aims to answer the following questions: * Can the AI-DSS support therapists in setting therapy parameters and adapting personalized robotic rehabilitation programs effectively? * Can AI-supported robotic rehabilitation improve upper limb function, activities of daily living (ADL), cognitive function, and quality of life compared with standard therapist-guided robotic rehabilitation? Researchers will compare two groups: * Robotic rehabilitation supported by the AI-DSS (CO-AIDER); * Robotic rehabilitation with parameters set by therapists (control group). Participants will: * Receive robotic rehabilitation for the upper limb, either guided by the AI-DSS or by therapists; * Be monitored throughout the program, with therapy parameters adjusted according to their progress; * Complete assessments to evaluate changes in upper limb function, activities of daily living, cognitive function, and quality of life. The study will also evaluate the usability and acceptability of the AI-supported robotic system as perceived by participants and clinical staff, and will include a cost-effectiveness analysis of the two interventions.

Use of Physical Therapy Outcome Measures to Predict Discharge Destination in People With Stroke From Acute Care Hospital

Physical therapy assessments assist in discharge planning along with demographic and social factors for patients with stroke in acute care. Understanding where a patient can be discharged to, based on the patient's functional status post stroke is important to be able to use resources effectively, decrease length of stay, and facilitate early initiation of rehabilitation services if needed. Standardized outcome measures can help quantify functional deficits and the scores on the standardized outcome measures can in turn guide the discharge planning process. The Activity Measure for Post Acute Care "6-Clicks" (AM-PAC "6-Clicks") has been used in the acute care setting to guide discharge planning. Based on its cutoff scores, it also can assist in predicting discharge destination. The Mobility Scale for Acute Stroke (MSAS) has been used to determine discharge to home versus not home in patients with stroke. Understanding the validity of the MSAS in comparison with the Postural Assessment Scale for Stroke (PASS) and the AM-PAC "6-Clicks" can be beneficial as the MSAS is a stroke specific outcome measure which is mainly used in acute care and is easy to administer. It can be administered in a short duration and consists of mobility and balance assessments which can help determine functional deficits.

The REACTplusNMES Trial: A Double-blinded RCT

The aim of this study is to compare the effectiveness of 6-weeks of reactive balance training (REACT) with and without neuromuscular electrical stimulation (NMES) to paretic lower limb muscles on biomechanical, clinical, neuromuscular and neuroplastic outcomes of reactive balance control. This project is a Phase-I study and incorporates a double-blinded, randomized controlled trial design. Methods: Forty-six individuals with chronic stroke will be recruited and screened for determining their eligibility for the study. Once enrolled, they will be randomized into either of the two groups: intervention group (23 participants) and control group (23 participants). Both groups will undergo series of pre-training assessments which includes a postural disturbance in the form of a slip- or trip-like perturbations and walking tests in laboratory environment. After the pre-training assessment, individuals will undergo 6-weeks of training (2 hour per session, 2 sessions per week). The intervention group will receive NMES with the REACT training and the control group will receive ShamNMES. NMES will be applied to the different muscle groups of the paretic lower limb using an advanced software which is able to synchronize muscle activation with the time of perturbation onset and according to the phases of gait. After training, both groups will again be tested on all the assessments performed pre training. This study will help us understand the immediate therapeutic and mechanistic effects of REACT+NMES and inform stroke rehabilitation research and clinical practice. Our study will provide foundational evidence for future use of NMES to implement clinically applicable neuromodulation adjuvants to reactive balance training, which could be leveraged for designing more effective future interventions for fall-risk reduction.

Prognosis and Diagnosis of Spasticity in Acute-post Stroke Patients

Spasticity, or greater muscle resistance, is a major disabling condition following stroke. Recovery of lost motor function in patients with stroke may be affected by spasticity, which most commonly develops in elbow and ankle muscles. However, despite its clinical relevance, the natural development of spasticity over the first 3 months after stroke is not clearly understood. Indeed, common clinical measures of spasticity such as the Modified Ashworth Scale (MAS) do not take into account the neurophysiological origin of spasticity and lack reliability and objectivity. The objective of this study is to examine the natural history of the development of spasticity among patients with stroke over the first 3 months using a new neurophysiological measure (TSRT, the tonic stretch reflex threshold angle) and its velocity sensitivity (mu) in comparison to MAS and other common clinical tests. In addition, detailed brain imaging will be used to understand the relationship between damage to brain regions relevant to the development of spasticity and TSRT/mu values. It is hypothesized that 1) TSRT/mu will indicate the presence of spasticity earlier than MAS/clinical tests; 2) TSRT/mu measures will be more closely related to motor impairments and activity limitations than MAS; 3) the lesion severity (identified by imaging) will be related to the change in TSRT/mu values. Outcomes will be measured in a pilot cohort of 12 patients hospitalized for first-ever stroke. Measurements will be taken at the bedside within the 1st week of the patient's admission and will be done once per week for 12 weeks with a follow-up at week 16. Brain Imaging will be done around the 6th week post-stroke.

The Role of Cognition in Motor Learning After Stroke

Stroke leads to lasting problems in using the upper limb (UL) for everyday life activities. While rehabilitation programs depend on motor learning, UL recovery is less than ideal. Implicit learning is thought to lead to better outcomes than explicit learning. Cognitive factors (e.g., memory, attention, perception), essential to implicit motor learning, are often impaired in people with stroke. The objective of this study is to investigate the role of cognitive deficits on implicit motor learning in people with stroke. The investigators hypothesize that 1) subjects with stroke will achieve better motor learning when training with additional intrinsic feedback compared to those who train without additional intrinsic feedback, and 2) individuals with stroke who have cognitive deficits will have impairments in their ability to use feedback to learn a motor skill compared to individuals with stroke who do not have cognitive deficits. A recent feedback modality, called error augmentation (EA), can be used to enhance motor learning by providing subjects with magnified motor errors that the nervous system can use to adapt performance. The investigators will use a custom-made training program that includes EA feedback in a virtual reality (VR) environment in which the range of the UL movement is related to the patient's specific deficit in the production of active elbow extension. An avatar depiction of the arm will include a 15 deg elbow flexion error to encourage subjects to increase elbow extension beyond the current limitations. Thus, the subject will receive feedback that the elbow has extended less than it actually has and will compensate by extending the elbow further. Subjects will train for 30 minutes with the EA program 3 times a week for 9 weeks. Kinematic and clinical measures will be recorded before, after 3 weeks, after 6 weeks, and after 9 weeks. Four weeks after the end of training, there will be a follow-up evaluation. Imaging scans will be done to determine lesion size and extent, and descending tract integrity with diffusion tensor imaging (DTI). This study will identify if subjects with cognitive deficits benefit from individualized training programs using enhanced intrinsic feedback. The development of treatments based on mechanisms of motor learning can move rehabilitation therapy in a promising direction by allowing therapists to design more effective interventions for people with problems using their upper limb following a stroke.

Emergency Stroke Unit for Acute Cerebrovascular Events: A Prospective, Single-arm Trial With a Historical Control Group

Background Reperfusion therapies, i.e., intravenous thrombolysis (IVT) and/or endovascular thrombectomy (EVT), are most effective treatments in the management of acute ischemic stroke (AIS) patients. The benefits of reperfusion therapies, however, may be reduced by treatment delays due to tests and examinations and logistic issues. Emergency Stroke Unit (ESU), a new concept of stroke unit locating at the Accident and Emergency Department (AED), equipped with a mobile, low-field MR imaging (lfMRI) scanner for fast diagnosis of ischemic stroke, differentiation of intracranial hemorrhage and identification of large vessel occlusion (LVO), is being tested in Mainland China. It may shorten the door-to-needle time (DNT) for IVT and door-to-groin puncture time (DPT) for EVT, which may hance associate with improved functional outcomes of AIS patients. This is a prospective, single-center, open-label, non-randomized, single-arm study aims to evaluate the safety and efficacy of the ESU workflow using lfMRI in shortening the DNT/DPT and improving functional outcomes in AIS patients, who are potentially eligible for IVT and/or EVT and can be treated within 6 hours after onset, compared with standard practice in Hong Kong; to reveal the changes in the ischemic lesions over a few days after IVT/EVT in these patients, with serial follow-up lfMRI exams.

At-Home taVNS - Stroke Rehab

Early evidence suggests the benefits of post-stroke motor rehabilitation may be enhanced by applying electrical stimulation to the ear. This study aims to test the new approach of pairing ear stimulation with motor rehabilitation in the home setting in stroke survivors with upper limb motor function deficits.

Ischemic Conditioning Improves Walking Function Post Stroke

This innovative study will address scientific and clinical areas relatively unexplored in chronic stroke that could lead to greater recovery of walking. Ischemic Conditioning (IC) is a non-invasive, simple procedure that improves motor function, exercise performance and cardiovascular function in healthy controls, but it has never been applied to the stroke population. We postulate that IC enhances the recruitment of motoneurons and results in positive neural adaptations, improves vascular endothelial function and peripheral blood flow, and together these improvements result in an increased capacity to exercise and faster walking speed. Future studies will examine the effects of IC and traditional therapy at different time points of recovery post stroke, durability of IC, molecular mechanisms of neural and cardiovascular adaptation and the efficacy compared with other adjuncts.

FIND Stroke Recovery - A Longitudinal Study

Stroke survivors frequently suffer disabilities including motor and cognitive problems, impairments in speech and vision, depression, and several other disabilities that worsen their quality of life. Some will recover fully after stroke and others will have permanent impairments. Few studies show trajectories of recovery in different domains after stroke, hence recovery time-lines are not fully known. Also, the whole range of mechanisms leading to recovery are not precisely known (1). To monitor those mechanisms one can utilize biomarkers. In parallel to the studies of recovery, studies on time series of biomarkers after stroke are limited (2). Hence, a crucial first step to increase knowledge on biomarkers of stroke recovery is to gain a better understanding of the time course of both stroke recovery and biomarker patterns. Biomarkers can later be used for outcome predictions after stroke.

Virtual Physical Activity Seated Exercise - Phase 2

This study will determine the acceptability of delivering seated exercises online and if seated exercises can improve balance, mobility, quality of life, and cardiometabolic health in those living with a stroke related mobility impairment. Participants will be allocated to either a 10-week seated exercise program or a delayed 2-week Boot Camp program. All seated exercises sessions and assessments will be conducted virtually.

Prevention of Infection of the Respiratory Tract Through Application of Non-Invasive Methods of Secretion Suctioning

Severe trauma, head trauma, stroke and resuscitated cardiac arrest patients requiring endotracheal intubation and mechanical ventilation are at high risk of early-onset ventilator-associated pneumonia (EO-VAP). A short course of systemic antibiotic is recommended for prophylaxis. This study intends to assess the safety and efficacy of 2 alternative mechanical non-invasive airway clearance techniques in the prevention of EO-VAP in an open label randomized pilot trial of 20 subjects per study group i.e., 60 cases. The interventions will be in place for 7 days and the observational periods will be 14 days.

Effects of Atalante Exoskeleton on Gait Recovery in Non- or Poorly Ambulatory Patients With Hemiparesis in the Acute/Subacute Phase (Month 1 to 4)

The present clinical investigation - EarlyExo, is an interventional, international, multicentric, prospective, single-blinded randomized controlled trial. This clinical investigation is designed to test the hypothesis that early and intense introduction of walking sessions assisted by the Atalante exoskeleton, in a sample of hemiparetic patients with still non or poor ambulatory capacities (FAC 0 or 1) between one- and four-months post stroke, would result in a better recovery of functional walking compared to a control group only receiving conventional therapy. Improved recovery will be measured through the proportion of patients reaching a FAC score of 4 or higher at the end of the intervention period. The tested hypothesis is that this proportion will be higher in the Exo group. The duration of the intervention period in both groups is 6 weeks. * For the Exo group: 3 sessions per week (i.e., 18 one-hour sessions) with the Atalante device and 2 sessions per week (i.e., 12 one-hour sessions) of conventional therapy. * For the Control group: 5 sessions per week of conventional therapy (i.e., 30 one-hour sessions). The study will include 66 patients (33 in each arm) and takes place in two French centers, two German centers and one Spanish center.

Data Collection of Patients Admitted to the Stroke Unit

The purpose of this prospective observational study is to create a database in which data will be collected from every patient admitted to the Stroke unit and who has explicitly given his or her informed consent for this data collection. The data that will be collected are part of the standard clinical data. No additional investigations, blood tests or any other tests will be performed. The purpose of this database is to conduct retrospective observational research in the future and will allow the hospital to keep track of some important quality indicators in stroke care.

Rehabilitation of Visual Function After Brain Injury

In Denmark, about 120,000 people suffer from brain damage, of whom approx. 75,000 with brain damage after stroke. Serious and often lasting vision impairments affect 20% to 35% of people after stroke. Vision is the most important sense in humans, and even smaller permanent injuries can drastically reduce quality of life. Vision impairments after brain damage inhibits rehabilitation and enhances other invalidating effects. Reduced vision results in impaired balance, increased risk of serious falls, increased support needs, reduced quality of life, and impaired ability to perform activities of daily living. Restoration of visual field impairments occur only to a small extent during the first month after brain damage, and therefore the time window for spontaneous improvements is very limited. Hence, brain-impaired persons with visual impairment will most likely experience chronically impaired vision already 4 weeks after brain injury and the need for visual compensatory rehabilitation is substantial. Neuro Vision Technology (NVT) is an supervised training course where people with visual impairments are trained in compensatory techniques using special equipment. Through the NVT process, the individual's vision problems are carefully investigated and personal data is used to organize individual training sessions that practice the individual in coping with situations that cause problems in everyday life. The purpose of this study is to investigate whether rehabilitation with NVT can cause significant and lasting improvement in functional capacity in persons with chronic visual impairments after brain injury. Improving eyesight is expected to increase both physical and mental functioning, thus improving the quality of life. Participants included in the project will be investigated in terms of both visual and mental functions, including quality of life, cognition and depression. Such an investigation has not been performed previously and can have a significant impact on vision rehabilitation both nationally and internationally.