Clinical Trials Logo

Stroke, Acute clinical trials

View clinical trials related to Stroke, Acute.

Filter by:
  • Enrolling by invitation  
  • Page 1

NCT ID: NCT06042179 Enrolling by invitation - Stroke Clinical Trials

Frequency vs Error Augmentation Training in Acute Physical Therapy Post Stroke

FEAT
Start date: January 15, 2024
Phase: N/A
Study type: Interventional

The Department of Physical Therapy in conjunction with the Comprehensive Stroke Center at the Medical University of South Carolina (MUSC) seeks support for developing an evidence-based approach for the mobilization of patients within the first 24 hours of admission for an acute stroke and for increasing the frequency and intensity of acute PT services while inpatient. This evidence will prepare physical therapists and guide practice in the delivery of acute stroke mobilization in the hospital setting to optimize length of stay, disposition planning, and enhance long term recovery outcomes. This research hopes to challenge the clinical paradigm regarding the possibility of decreased functional outcomes with early mobilization post stroke. The investigators acknowledge that acute stroke patients may not be able to tolerate an extensive early mobility program but may benefit from shorter more frequent sessions of therapy early in their recovery. Throughout the literature, there are clinical practice guidelines for both the inpatient rehabilitation and outpatient therapy sectors and post stroke recovery. Little is known about the contribution of therapy services in the acute hospital setting and therapy's impact on long term functional gains. The goal of this project is to determine the appropriate dosage of post stroke mobility in the acute care hospital setting.

NCT ID: NCT06038175 Enrolling by invitation - Stroke, Acute Clinical Trials

vHIT Testing for Presentation of Dizziness at a Comprehensive Stroke Center

Start date: January 16, 2024
Phase: N/A
Study type: Interventional

The purpose of this study is to evaluate the sensitivity and specificity of the video head impulse test (vHIT) device, when implemented in the acute ED setting to identify acute ischemic stroke or central pathology vs peripheral vestibular dysfunction in patient's presenting with vertigo. This study will evaluate the implementation of the device, consistency with current diagnostic standards, unnecessary administration of antithrombolytics and will further study the reduction in hospital admissions and overall healthcare costs.

NCT ID: NCT05602740 Enrolling by invitation - Stroke, Acute Clinical Trials

Detection of hEad Pulse for Ischemic StrOke Verification Study

EPISODE_VS
Start date: June 15, 2023
Phase:
Study type: Observational

Prehospital providers encounter patients with suspected stroke frequently. Prehospital providers need tools to help triage large vessel stroke patients to comprehensive stroke centers. This device will identify large vessel stroke to ultimately improve triage decisions and optimize outcomes.

NCT ID: NCT05110300 Enrolling by invitation - Stroke Clinical Trials

A Multisite Exploration of Balance Perturbations With and Without Body Weight Support

Start date: December 15, 2021
Phase: N/A
Study type: Interventional

ZeroG is an FDA-listed robotic body weight support system (BWSS). Mounted on an overhead track, patients are fitted in a harness system tethered to said track, and are able to practice gait and balance activities without the risk of falling. This compensates for ineffective postural control permitting intensive therapy sessions earlier in recovery. The purpose of this study is to determine if inducing effective and safe balance perturbations during standing and walking in the BWSS more effectively improve postural control than the BWSS without perturbations. The target population are those patients in the post-acute phase of stroke admitted for inpatient rehabilitation of balance impairments. Site investigators and/or research staff will obtain names of potential subjects from internal reporting identifying inpatients who may qualify for the study based on the inclusion criteria. Trained site investigators will meet with potential subjects to explain the study, complete a screening interview for exclusion and inclusion criteria, answer any questions, obtain informed consent and HIPAA authorization, and schedule the study therapy sessions involving the protocol. Based on the randomization scheme provided by the lead site, consented subjects will be randomized to either the BWSS with perturbations (BWSS-P) or standard BWSS control without perturbations. Subjects will perform 2 to 6 sessions in their designated intervention using a structured protocol for each session. To compare differences between treatment groups, outcome measures will be collected at baseline before any BWSS sessions are performed and within 48 hours after completing the final treatment session.

NCT ID: NCT04775693 Enrolling by invitation - Stroke, Acute Clinical Trials

Robotic Exoskeleton Gait Training During Acute Stroke Rehabilitation

RERC
Start date: May 12, 2017
Phase: N/A
Study type: Interventional

The objective of this RCT is to explore the clinical, functional and neurophysiological effectiveness of RE-assisted (Robotic Exoskeleton) early intervention gait therapy in stroke patients during inpatient and outpatient stroke rehabilitation as compared to traditional gait training in three groups: 1) RE; 2) RE-Standard of Care (SOC) and 3) SOC. We will evaluate the short and long-term effects on functional mobility, clinical, neurophysiological, community participation and quality of life.

NCT ID: NCT04000971 Enrolling by invitation - Stroke Clinical Trials

Coordinated, Collaborative, Comprehensive, Family-based, Integrated, Technology-enabled Stroke Care

C3FIT
Start date: February 25, 2020
Phase: N/A
Study type: Interventional

Stroke is the 5th leading cause of death and the leading cause of adult disability in the United States (US). Stroke is a complex disease with multiple interacting risk factors (including genetic, high blood pressure and cholesterol, and lifestyle factors like smoking, diet, and exercise) that lead to initial and recurrent stroke. Up to 90% of stroke survivors have some functional deficit that impacts both physical and mental health. Scientific evidence that identifies the best stroke care delivery design is lacking. We completed a three-year, Centers for Medicare & Medicaid Services (CMS) Health Care Innovation Award that tested a new stroke care design called an Integrated Practice Unit (IPU). This IPU was developed through stakeholder input from patients, caregivers, nurses, stroke specialists, rehabilitation specialists, patient advocacy groups, payers, and technology companies. This IPU design was associated with decreased hospital length of stay, readmissions, and stroke recurrence, as well as lower cost. Based on the CMS study, a larger, pragmatic trial was developed that is called C3FIT (Coordinated, Collaborative, Comprehensive, Family-based, Integrated, and Technology-enabled Stroke Care). C3FIT will randomly assign 18 US hospital sites to continue Joint Commission-certified Comprehensive/Primary (CSC/PSC) design or to the novel Integrated Stroke Practice Unit (ISPU) design for stroke care. C3FIT's ISPU uses team-based, enhanced collaboration (called Stroke Central) and follows patients from presentation at the Emergency Department (ED) through 12-months post-discharge (called Stroke Mobile). Stroke Mobile includes a nurse and lay health educator team who visit patients and caregivers at home or at a rehabilitation or skilled nursing facility to assess function and quality of life using telehealth technology to facilitate access to multiple providers. Results from C3FIT will provide high quality scientific evidence to determine the best stroke care design that ensures positive health for patients and caregivers.

NCT ID: NCT03964662 Enrolling by invitation - Stroke Clinical Trials

Stroke Home Rehabilitation With WeReha

WR
Start date: December 18, 2018
Phase: N/A
Study type: Interventional

WeReha is an innovative device for the home rehabilitation of stroke patients developed within the scope of the EU funded project MAGIC-PCP [5]. WeReha is a system that allows patients to perform exercises in a home environment with remote supervision integrated within regular rehabilitation. The principle on which the product is based is that of biofeedback guided rehabilitation, designed to stimulate muscle recovery and contribute to a more effective and more motivating rehabilitation of neuro-motor patterns. WeReha is completely adaptable, allowing only authorized to assign exercises, by planning specific sequences of movements. WeReha product is composed by the following elements: - a tablet with a proprietary application on it (the "WeReha app") - an inertial sensor with accelerometers, gyroscopes and magnetometers (the "sensor") - elastic straps allowing the user to wear it on different parts of the body (the "straps") - a series of 3D printed objects where the sensor can be placed that become animated (the "smart objects") - a web portal for clinical staff through which they can manage and monitor users (the "web-application") The WeReha app presents the patient with a series of rehabilitation exercises in the form of a number of interactive games, driven by body movement, which is captured by the sensor or the hand specific movements using the smart objects. A session with WeReha always starts with a questionnaire on the system, through which the software gains an understanding of the patient's health conditions and the presence or not of a caregiver for the session. Based on this questionnaire, the software adapts the daily session to minimise risks while maintaining a high level of rehabilitation to help the patient reach their goals. The device works with and without an internet connection, but when the device is connected to the internet, supervisors are able to provide supervision and remote support through a web application. The web application is hosted on a dedicated server located inside the hospital. Only trained staff will be provided with access to the web application with a unique username and password required for sign on. The exercises assigned for the client to perform at home, are at the discretion of the clinician who is caring for the patient and might require the presence of a caregiver. The goal of this study is to investigate the applicability and utility of an innovative technology product such as WeReha to the home rehabilitation of stroke patients as an integrative solution to a conventional exercise program and to assess its acceptance by the patient, caregivers and clinic professionals. Patients will use WeReha for their home rehabilitation in addition to traditional treatments for up to 12 weeks. The Inclusion criteria for the study have been kept broad in order to assess these factors on a large enough scale, so as not to limit the usage of the device to a specific sub-group of patients. If patients enrolled are in a subacute phase (i.e. within the first 6 months after the stroke onset), they will be enrolled before leaving the hospital or the rehabilitation department and reaching their home. If patients are considered to be in their chronic phase (i.e. over 6 months after stroke onset), they will be enrolled during an outpatient treatment or on a volunteer basis. Before starting the trial with WeReha, every patient enrolled will receive proper training from a person dedicated to the project (who will be referred to as the "dedicated figure") appointed by the hospital and financially supported by the sponsor of the study.