Search Articles

View query in Help articles search

Search Results (1 to 10 of 15 Results)

Download search results: CSV END BibTex RIS


Progressive Transition From Supervised to Unsupervised Robot-Assisted Therapy After Stroke: Protocol for a Single-Group, Interventional Feasibility Study

Progressive Transition From Supervised to Unsupervised Robot-Assisted Therapy After Stroke: Protocol for a Single-Group, Interventional Feasibility Study

As opposed to most telerehabilitation interventions, whose development was fueled, for instance, by the COVID-19 pandemic and the need for neurorehabilitation services to decrease reliance on hospital presence (eg, by proposing remotely supervised physiotherapy sessions [41,42]), robot-assisted therapy may not rely on the presence of a therapist [7].

Giada Devittori, Raffaele Ranzani, Daria Dinacci, Davide Romiti, Antonella Califfi, Claudio Petrillo, Paolo Rossi, Roger Gassert, Olivier Lambercy

JMIR Res Protoc 2023;12:e48485

Virtual Reality–Based Neurorehabilitation Support Tool for People With Cognitive Impairments Resulting From an Acquired Brain Injury: Usability and Feasibility Study

Virtual Reality–Based Neurorehabilitation Support Tool for People With Cognitive Impairments Resulting From an Acquired Brain Injury: Usability and Feasibility Study

Neurorehabilitation is a meticulously supervised process designed to assist individuals with ABIs in reclaiming their functional abilities and enhancing their quality of life. Fundamental components of neurorehabilitation encompass a spectrum of expert and multidisciplinary assessments, the implementation of realistic and goal-oriented tasks, and the evaluation of clinically appropriate outcome measures.

Alba Prats-Bisbe, Jaume López-Carballo, Alberto García-Molina, David Leno-Colorado, Alejandro García-Rudolph, Eloy Opisso, Raimon Jané

JMIR Neurotech 2024;3:e50538

Cognitive Training With Head-Mounted Display Virtual Reality in Neurorehabilitation: Pilot Randomized Controlled Trial

Cognitive Training With Head-Mounted Display Virtual Reality in Neurorehabilitation: Pilot Randomized Controlled Trial

The primary goal of neurorehabilitation is to restore or preserve critical function, thereby enabling patients to participate in daily life. Neurological diseases can lead to severe disabilities. This requires the patient to make great effort in rehabilitation. For example, stroke is one of the leading causes of disability. It is estimated that 33% to 42% of stroke survivors require assistance in managing activities of daily living (ADL).

Julian Specht, Barbara Stegmann, Hanna Gross, Karsten Krakow

JMIR Serious Games 2023;11:e45816

Benefits of Telerehabilitation for Patients With Severe Acquired Brain Injury: Promising Results From a Multicenter Randomized Controlled Trial Using Nonimmersive Virtual Reality

Benefits of Telerehabilitation for Patients With Severe Acquired Brain Injury: Promising Results From a Multicenter Randomized Controlled Trial Using Nonimmersive Virtual Reality

Thus, a specific neurorehabilitation pathway is necessary for these individuals with frailty and should also be planned postdischarge to ensure the continuity of care. Indeed, SABI motor and cognitive therapy should be as intensive and long lasting as possible to allow patients to achieve the best independence and Qo L [7].

Rocco Salvatore Calabrò, Mirjam Bonanno, William Torregrossa, Luisa Cacciante, Antonio Celesti, Carmela Rifici, Paolo Tonin, Rosaria De Luca, Angelo Quartarone

J Med Internet Res 2023;25:e45458

Determining the Optimal Virtual Reality Exergame Approach for Balance Therapy in Persons With Neurological Disorders Using a Rasch Analysis: Longitudinal Observational Study

Determining the Optimal Virtual Reality Exergame Approach for Balance Therapy in Persons With Neurological Disorders Using a Rasch Analysis: Longitudinal Observational Study

This has a significant negative impact on patients’ quality of life; therefore, improvement of balance is key during neurorehabilitation [4,5]. A high treatment dose is important for effective balance rehabilitation; this consists of a high amount of repetitions and challenging exercises [6]. Virtual reality (VR) exergames have gained popularity for delivering VR therapy with a high treatment dose during neurological rehabilitation [7,8].

Evelyne Wiskerke, Jan Kool, Roger Hilfiker, Karl Martin Sattelmayer, Geert Verheyden

JMIR Serious Games 2022;10(1):e30366

Validating the Safe and Effective Use of a Neurorehabilitation System (InTandem) to Improve Walking in the Chronic Stroke Population: Usability Study

Validating the Safe and Effective Use of a Neurorehabilitation System (InTandem) to Improve Walking in the Chronic Stroke Population: Usability Study

To help close this gap, Med Rhythms has designed MR-001 (In Tandem, Med Rhythms, Inc), a neurorehabilitation system that delivers a RAS-based intervention for chronic stroke walking impairment and is intended to be used independently at home. The In Tandem system (Figure 1) consists of 2 shoe-worn sensors that measure gait parameters, a locked touchscreen device preloaded with proprietary software, a headset, and charging equipment (not shown). The rhythmic stimulation used in In Tandem is music.

Kirsten Elisabeth Smayda, Sarah Hodsdon Cooper, Katie Leyden, Jackie Ulaszek, Nicole Ferko, Annamaria Dobrin

JMIR Rehabil Assist Technol 2023;10:e50438

Effectiveness of Game-Based Training of Selective Voluntary Motor Control in Children With Upper Motor Neuron Lesions: Randomized Multiple Baseline Design Study

Effectiveness of Game-Based Training of Selective Voluntary Motor Control in Children With Upper Motor Neuron Lesions: Randomized Multiple Baseline Design Study

Reference 15: Robot-aided neurorehabilitation: a pediatric robot for ankle rehabilitationneurorehabilitationCognitive and Neurorehabilitation Neurorehabilitation and Technology

Annina Fahr, Andrina Kläy, Larissa S Coka, Hubertus J A van Hedel

JMIR Form Res 2024;8:e47754

Cranial Nerve Noninvasive Neuromodulation in Adults With Neurological Conditions: Protocol for a Scoping Review

Cranial Nerve Noninvasive Neuromodulation in Adults With Neurological Conditions: Protocol for a Scoping Review

What has previous research shown on the effects of CN-NINM in neurorehabilitation? What are the current gaps in the evidence base and the implications for rehabilitation science? The proposed scoping review will follow the JBI methodology for scoping reviews [38]. The study is designed and will be conducted in accordance with the PRISMA-Sc R (Preferred Reporting Items for Systematic Reviews and Meta-Analyses extension for Scoping Reviews) framework [39].

Keaton Boughen, Tyler Neil, Shayan Dullemond, Kevin Lutowicz, Ahmed Bilgasem, Tyler Hastings, Dina Brooks, Julie Vaughan-Graham

JMIR Res Protoc 2021;10(7):e29965

Cookie Consent

We use our own cookies and third-party cookies so that we can show you this website and better understand how you use it, with a view to improving the services we offer. If you continue browsing, we consider that you have accepted the cookies.