Clinical Trials Logo
  1. Home
  2. Motor Disorders
  3. NCT06270420

Technological Devices and Home Automation System in Neurological Rehabilitation — SMART

Motor Disorders Clinical Trial

Official title:
Treatment Improvement With the Use of Innovative Technologies and Robotics in Rehabilitation Process: Observational Longitudinal Pilot Study

Clinical Trial Summary

The use of home automation system may be useful in rehabilitation to collect data about the environment and the amount of therapy. Then, the data may be stored in a cloud and integrated with data collected during training provided by technological devices. The main goal of this longitudinal pilot study is to define the productivity of the rehabilitation room (i.e., HoSmartAI room) in the IRCCS San Camillo Hospital (Venice, Italy) service, where the investigators will install home automation sensors and treat patients with neurological disease using technological devices (e.g., robotic and virtual reality). The secondary goals are to define the patients' satisfaction, usability of the system and the clinical effect of treatments delivered with technological devices in the HoSmartAI room. The patient will be assessed to personalized the treatment based on their needs. The treatment will consist of 15 sessions (1h/day, 5day/week, 3 weeks). At the end of the study, the patients will be assessed to define any clinical improvements. Finally, the investigators will define the characteristics of the patients who will benefit from the rehabilitation provided in the HoSmartAI room.

Clinical Trial Description

The recovery of motor function is a primary goal for individuals diagnosed with neurological disease, such as Stroke, Parkinson's Disease, Multiple Sclerosis. Various rehabilitation methods have been using in neurorehabilitation hospital, including conventional training and those involving technological devices. Nowadays, the integration of technology into rehabilitation room has been expanding within the National Health System, and their effectiveness in enhancing functionality and quality of life remains a subject of ongoing research in rehabilitation. In addition to rehabilitation devices, such as robotic and virtual reality systems, home automation system may play a crucial role in monitoring and recording patient movements. These sensors can also be employed for home automation in environments such as hospital rehabilitation settings, helping to reduce paid carer hours, quantify the impact of automated data acquisition on the functionality and offer many benefits to people with a disability. Indeed, potentially, the application of home automation system in technological rehabilitation rooms, may allow for the synchronization of environmental data with the patient's clinical history, facilitating the study of functional recovery. This study is a part of the HosmartAI project (EU Horizon 2020 research and innovation program - grant agreement No 101016834 Pilot #3). The main aim of HoSmartAI project is to develop hospitals based on artificial intelligence (AI) technologies. In Pilot #3, the investigators will integrate data collected by technological devices for motor rehabilitation and home automation sensors installed in room (HosmartAI room) at the Neuromotor Rehabilitation Service of the San Camillo IRCCS Hospital (Venice, Italy). These sensors are able to detect the effective numbers of minutes of therapy, the number of sessions delivered in the room, and detect the presence and falls of the patients. Moreover, all these sensors are managed directly by physiotherapists through an App for smartphone. All data collected will be integrated in a cloud infrastructure, where physiotherapist will check the patients' profile and data collected from clinical assessment and home automation sensors. In the study, the investigators will enroll patients with neurological disease and motor impairment who are hospitalized in Camillo IRCCS Hospital (Venice, Italy). The treatment (5time/week, for 3 weeks) will consist of 1 hour/day of motor training provided by technological devices (i.e., OAK, VRRS, AMADEO, PABLO) in the HoSmartAI room, in addition to daily 1 hour of conventional motor training. Firstly, the patients will be assessed to define their motor function and personalize the treatment based on their needs, to improve balance, manual dexterity, or upper and lower limb motor recovery. Then, at the end of the treatment, the patients will be assessed using validated clinical scales and questionnaire to determine the clinical effect and patient-reported outcome measurements (i.e., usability, technology acceptability, and user satisfaction). ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT06270420
Study type Interventional
Source IRCCS San Camillo, Venezia, Italy
Contact Giorgia Pregnolato
Phone +39 0412207
Email giorgia.pregnolato@hsancamillo.it
Status Recruiting
Phase N/A
Start date February 5, 2023
Completion date May 30, 2024
View Details
See also
  Status Clinical Trial Phase
Recruiting NCT04899830 - Study of the Acceptability and Psychosocial Impact of Using a Telepresence Robot in the Living Space of Inpatients N/A
Recruiting NCT06086951 - Pai.ACT - An Artificial Intelligence Driven Chatbot Assisted ACT N/A
Completed NCT04681235 - Virtual Reality Training Affects on Motor Functions and Mental Health in Stroke Patients N/A
Completed NCT04361149 - Motor Unit Abnormalities After Experimentally Induced Sensitization Phase 4
Recruiting NCT04620707 - RGS@Home: Personalized 24/7 Home Care Post-stroke N/A
Completed NCT04619953 - Cognitive-motor Dual Task Training in Patients With Multiple Sclerosis N/A
Completed NCT04684173 - A Preliminary Study on Artificial Intelligence for Infant Motor Screening
Recruiting NCT05637775 - DiSCIoser: Improving Arm Sensorimotor Functions After Spinal Cord Injury Via Brain-Computer Interface Training N/A
Active, not recruiting NCT03114748 - Electroencephalographic Monitoring in Patients Treated by Deep Brain Stimulation N/A
Completed NCT05373394 - Evaluation of Cognitive and Motor Neurological Disorders in the Short and Long Term After Surgery for the Removal of a Diffuse Low-grade Glioma of the Supplementary Motor Area
Recruiting NCT05511207 - Clinical Validation of a Hybrid BCI-controlled FES for Upper Limb Rehabilitation After Stroke N/A
Recruiting NCT05872737 - FAB Programme for Parents of Children With NDD N/A
Not yet recruiting NCT05900310 - Linus Health CDS Retrospective Validation Study
Completed NCT02828813 - Neural Mechanisms of Motor and Cognitive Networks
Completed NCT02821598 - Effects of the Proprioceptive Neuromuscular Facilitation for Promoting Muscular Irradiation N/A
Recruiting NCT05183152 - Non-invasive BCI-controlled Assistive Devices N/A
Recruiting NCT05316519 - Transcutaneous Auricular Vagus Nerve Stimulation to Enhance Motor Learning N/A
Recruiting NCT05349539 - Instrumental Assessment of Motor Symptoms by Means of Wearable Sensors in Patients With Parkinson's Disease
Completed NCT04203589 - Explorer Babies Early Intervention Program N/A
Completed NCT02816541 - Effects of Pilates-based Therapeutic Exercises on the Postural Control N/A