Neurorehabilitation Ecosystem for Sustained Therapy (NEST): A Feasibility Study — NEST  

Stroke Clinical Trial

Official title: Neurorehabilitation Ecosystem for Sustained Therapy (NEST): A Feasibility Study

Status Recruiting

Clinical Trial Summary

The global burden of stroke is staggering, with over 15M new cases reported annually. Of these cases, around 40% require motor and cognitive rehabilitation, resulting in approximately 6M new patients requiring treatment each year, in addition to the more than 33M chronic patients worldwide. This massive incidence puts great pressure on healthcare systems and mounting costs. Consequently, there is an urgent need for patient-specific solutions that maximize rehabilitation efficiency and improve the patient´s performance, activities of daily living (ADLs), and quality of life. While several technological solutions have been proposed for stroke recovery during hospitalization, there is a notable lack of attention to home rehabilitation, which is crucial for long-term recovery, cost reduction and minimizing the demand for rehabilitation personnel.

Investigators propose NEST, the Neurorehabilitation Ecosystem for Sustained Treatment based on the Rehabilitation Gaming System (RGS), an advanced digital rehabilitation program that uses serious gaming and Augmented Reality (AR)- and Virtual Reality VR-based training and is grounded on neuroscientific principles, that has been shown to promote motor recovery after stroke at the clinic and at home (Ballester et al., 2017; Ballester et al., 2019).

NEST uses a patient's user model solution interfaced via a novel digital and portable technology to provide a home rehabilitation program accepted by the patients and clinicians. The NEST system integrates the following components:

• RGS-wear advances a multimodal unobtrusive wearable interface starting from the state-of-the-art wearable technologies including off-the-shelf wearables for the detection of arm activity. This data is sent through Bluetooth to a paired smartphone, which allows for the filtering of body movements.

• The RGS-Mobile App (smartphones) communicates with the RGS-wear and integrates sensor data for the delivery of patient-tailored Augmented Reality AR-based exercises for motor and cognitive training, customized feedback via the AWA coach, and activity reports through the MIMS.

• The AWA Coach (Agent for Wellbeing Assistance) which provides specific feedback based on the performance and the status of well-being of the user. The user can access information through the AWA Coach dashboard (AWAtar App), which is an interface that reports their performance.

and progress. It also provides the user with direct and motivational feedback and training activities in order to assist them in acting when needed.

• MIMS (Medical Information Management System) is a cloud service in which relevant information on the patient's state is uploaded, allowing the monitoring of progress and the customization of the RGS-based training and evaluation protocols.

Guaranteeing the correct use of this NEST ecosystem by post-stroke patients performing upper limb telerehabilitation implies conducting an usability study to measure its usability, adherence, acceptance and the user's experience. Investigators will also explore effectiveness of the NEST ecosystem in improving motor function of the paretic arm after stroke. Furthermore, uncovering end-user's experiences with NEST in an international multi-centre study should give valuable information into improving its features for a future clinical trial focusing on the effectiveness of the NEST system. This multicenter study will follow a mixed methods approach (quantitative and qualitative measurements).

Clinical Trial Description

The main objective of the feasibility study is to assess 1) the usability, 2) adherence, 3) user experience and 4) acceptability of the NEST system during a six-week intervention. In particular, Investigators will study the long-term adherence by measuring the time participants use the system beyond the prescribed exercises. Investigators will also examine the user's feedback to further improve the NEST system's design and functionality. Our hypothesis is that the NEST system will be a practical and well-accepted rehabilitation solution for home use. More specifically, investigators expect this approach to show good adherence to treatment.

Investigators will also explore the impact of the NEST system on arm hand function, impairment and quality of life.

By conducting this investigation across three clinical sites in Spain, Italy, and The Netherlands, each with 5-10 subjects, investigatorsI can gain diverse insights into the system's performance.

Primary objective The first objective of this study is to measure the usability, adherence, user experience and acceptance of the NEST system.

Secondary objectives Investigators will also evaluate the user needs and preferences to further improve the NEST system's features and functionalities.

In addition, the impact of the NEST system on arm hand function, impairment, pain, fatigue and quality of life will be evaluated.

1. STUDY DESIGN AND POPULATION The study is a feasibility study based on both quantitative and qualitative data collection. The general objective is to measure the usability of the system, the user experience, the adherence and the acceptance of the NEST system. Each clinical site will include 5 to 10 late subacute and chronic stroke patients (in total a minimum of 15 and a maximum of 30 patients), aged 18-80 years. Over a period of six weeks, the participants will integrate the NEST system into their daily routines, running parallel to their regular neurorehabilitation treatment.

1.1 STUDY SETTING The study will be conducted in parallel in 3 European hospitals: Hospital Universitari Vall d'Hebron in Spain, Sint MaartensKliniek in the Netherlands and INRCA in Italy. The experimentation involves 3 different phases: Recruitment (R), Baseline assessment (T0) before the start of the trial, Final evaluation (T1) at the end of the trial, after 6 weeks. ;

Related Conditions & MeSH terms

• Stroke

• NCT number: NCT06219382
• Study type: Observational
• Source: Hospital Universitari Vall d'Hebron Research Institute
• Contact: Susana Rodriguez, MD
• Phone: +34607609067
• Email: susana.rodriguezgonzalez@vallhebron.cat
• Status: Recruiting
• Start date: January 15, 2023
• Completion date: April 30, 2024