Telerehabilitation - Technical Validity and Clinical Feasibility
NCT ID: NCT05314686
Last Updated: 2025-09-04
Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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COMPLETED
40 participants
OBSERVATIONAL
2022-11-15
2025-08-28
Brief Summary
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The aim of the first step is to assess the technical validity of transmitting data remotely from different devices connected to a telerehabilitation system. These will include real-time oximetry data during exercise on a cycle ergometer (heart rate and transcutaneous oxygen saturation) as well as daily step count from a commercially available physical activity tracker.
The aim of the second step of the study is to assess the clinical feasibility of using the telerehabilitation system in real life conditions (in the home environment). Briefly, participants will benefit from a eight weeks pulmonary rehabilitation program performed at home, using the telerehabilitation system. Further details about the content of the program and the outcomes are provided below.
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Detailed Description
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Participants referred for pulmonary rehabilitation to the ADIR Association will be screened for eligibility. They will be contacted to initiate their program. During the first session, they will be offered to participate in the study.
This protocol will be held in two steps : the first step will aim to assess the clinical validity of the data transmitted remotely through the system (from two different devices) and the second step will aim to assess the clinical feasibility of using the system in the home environment.
Participant recruitment for each of these steps will be performed chronologically (the first twenty eligible participants will participate in the technical validity step of the study and the last twenty eligible participants will participate in the clinical feasibility step).
Step one: Clinical validity. The first step of the study aims to assess the clinical validity of data transmitted remotely from two devices connected to the telerehabilitation system (a. oximetry data during exercise and b. daily step count from a commercially available physical activity tracker).
1. Oxymetry data during exercise on a cycle ergometer.
Participants who agree to participate will be trained to use the system within the pulmonary rehabilitation centre. Training includes different steps such as to turn on the tablet, to connect to the application, to start the session using the app, to synchronise the oximeter with the app, to perform the session and to validate the end of the session.
Participants will be asked to perform five endurance exercise sessions of forty-five minutes each, over five different days, within the centre. During these sessions a connected pulsed oximeter device will record heart rate and transcutaneous oxygen saturation at a frequency of one hertz. These data will be recorded in the internal memory of the oximeter itself as well as transmitted in real-time through Bluetooth to the app. The app will transmit the data to a secured remote server through the Global System for Mobile communication network. These two datasets (those locally stored and those remotely transmitted) will be analysed and compared (proportion of artefact, data deletion, data transformation, comparability etc - see outcomes for further details).
2. Data from a physical activity tracker.
Concurrently, the same participants will be asked to wear a physical activity tracker over a ten-day period. The data (daily step count) will be automatically and daily transmitted to the app through Bluetooth and then from the app to the remote secured server. Participants will be asked to remove the sensor when going to bed and to note the number of steps displayed on the screen on a standardized data sheet.
Step two: Clinical feasibility. The aim of the second step of the study is to assess the clinical feasibility of using the telerehabilitation system in real life conditions (in the home environment), during an eight week period.
During their initial pulmonary rehabilitation session (held in the centre), participants will be offered to perform their pulmonary rehabilitation program at home, using the telerehabilitation system. Those who agree to participate will be taught to use the system during this first face-to-face session. The telerehabilitation system as well as a cycle ergometer will be subsequently provided in their home environment by a local home healthcare provider.
The telerehabilitation program will take place over an eight-week period and includes:
* Endurance exercise training on a cycle ergometer (performed independently with remote monitoring or through video conference (also with remote monitoring), according to the participant's preference), three times per weeks. The duration of the sessions along with the training intensity will be progressively adjusted using an automated algorithm (aimed to first increase the training duration up to forty-five minutes and then workload intensity). The algorithm is based on previous sessions performed, monitored data and perceived exertion.
* Peripheral muscle strengthening using the app (the patient will be requested to reproduce different exercises after watching a video) or through video conference, three times per weeks (thirty minutes).
* Daily walking (automated coaching based on Demeyer et al. Thorax. 2017).
* Self management education (one to nine sessions according to each individual's needs, scheduled through videoconference).
* A self evaluation of symptoms through daily or weekly questionnaires.
Different types of alerts will be triggered at the center according to remote monitoring : "non-adherence", "clinical issue" during endurance exercise sessions and change in "symptoms".
Participants will be encouraged to contact physiotherapists at the centre for any situation that would require assistance (related to their program or to cope with any technical issue).
Conditions
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Study Design
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OTHER
PROSPECTIVE
Study Groups
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Technical validity of data transmitted remotely.
The first twenty participants will participate in the step of the study aimed at assessing the technical validity of data transmitted remotely from devices connected to the telerehabilitation system.
Five exercise sessions of forty-five minutes within the pulmonary rehabilitation centre and ten days of using a physical activity tracker.
1. Five exercise sessions of forty-five minutes within the centre on a cycle ergometer using a pulse oximetry device connected to the telerehabilitation system through Bluetooth. Data recorded in the internal memory of the pulse oximeter will be compared with those transmitted through the telerehabilitation system.
2. Ten days of use of a physical activity tracker connected to the telerehabilitation system. Self-reported daily step count by the participants (using a standardized data sheet) will be compared with the daily step count transmitted through the telerehabilitation system.
Clinical feasibility.
The last twenty participants will perform their pulmonary rehabilitation program at home using the telerehabilitation system over an eight-week period.
Telerehabilitation
An eight-week program including:
* Endurance training on a cycle ergometer (performed independently with remote monitoring or through video conference, according to the participant's preference), three times per week. Training prescription is progressively adjusted using an automated algorithm (aimed to first increase the training duration and then workload intensity).
* Peripheral muscle strengthening using the app (the patient will be requested to reproduce different exercises after watching a video) or through video conference, three times per week (thirty minutes).
* Daily walking with automated coaching.
* Self management education (one to nine sessions according to each individual needs, scheduled through videoconference).
* A self evaluation of symptoms through daily or weekly questionnaires. Different types of alert will be triggered at the center according to remote monitoring: "non-adherence", "clinical issue" during endurance exercise sessions and change in "symptoms".
Interventions
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Five exercise sessions of forty-five minutes within the pulmonary rehabilitation centre and ten days of using a physical activity tracker.
1. Five exercise sessions of forty-five minutes within the centre on a cycle ergometer using a pulse oximetry device connected to the telerehabilitation system through Bluetooth. Data recorded in the internal memory of the pulse oximeter will be compared with those transmitted through the telerehabilitation system.
2. Ten days of use of a physical activity tracker connected to the telerehabilitation system. Self-reported daily step count by the participants (using a standardized data sheet) will be compared with the daily step count transmitted through the telerehabilitation system.
Telerehabilitation
An eight-week program including:
* Endurance training on a cycle ergometer (performed independently with remote monitoring or through video conference, according to the participant's preference), three times per week. Training prescription is progressively adjusted using an automated algorithm (aimed to first increase the training duration and then workload intensity).
* Peripheral muscle strengthening using the app (the patient will be requested to reproduce different exercises after watching a video) or through video conference, three times per week (thirty minutes).
* Daily walking with automated coaching.
* Self management education (one to nine sessions according to each individual needs, scheduled through videoconference).
* A self evaluation of symptoms through daily or weekly questionnaires. Different types of alert will be triggered at the center according to remote monitoring: "non-adherence", "clinical issue" during endurance exercise sessions and change in "symptoms".
Eligibility Criteria
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Inclusion Criteria
* Stable (\> four weeks) chronic obstructive pulmonary disease, GOLD stage II to IV
* Referred to pulmonary rehabilitation (no contraindication to exercise training on a cycle ergometer).
* With or without oxygen during exercise.
* Able to perform forty-five minutes of exercise training on a cycle ergometer.
* Person of legal age who may be present during home exercise sessions (relatives).
* Pregnancy or likely to be.
* Guardianship.
* Unable to consent.
* Referred to pulmonary rehabilitation before lung cancer surgery.
* Referred to pulmonary rehabilitation before lung volume reduction surgery scheduled in the next few months.
Exclusion Criteria
18 Years
ALL
No
Sponsors
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Union des Kinésithérapeutes Respiratoires
UNKNOWN
CogSci
UNKNOWN
KerNel Biomedical
INDUSTRY
Groupe Havrais d'Aide aux Handicapés Respiratoires
UNKNOWN
ADIR Association
OTHER
Responsible Party
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Principal Investigators
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Tristan Bonnevie, PT, PhD
Role: PRINCIPAL_INVESTIGATOR
ADIR Association, Rouen University, Rouen, France
Antoine Cuvelier, MD, Prof
Role: STUDY_CHAIR
CHU-Hôpitaux de Rouen, Rouen, France.
Jean-François Muir, MD, Prof
Role: STUDY_CHAIR
ADIR Association, Rouen, France.
Francis-Edouard Gravier, PT, PhD
Role: STUDY_CHAIR
ADIR Association, Rouen, France.
Aurélie Vallée, PhD
Role: STUDY_CHAIR
CogSci, Rouen, France.
Michelle Leclerc, PT, MSc
Role: STUDY_CHAIR
Union des Kinésithérapeutes Respiratoires, Rouen, France.
Zoe McKeough, PT, Prof
Role: STUDY_CHAIR
Faculty of Medicine and Health, The University of Sydney, Sydney, New South Wales, Australia.
Locations
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ADIR Association
Bois-Guillaume, ADIR Association, France
Countries
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Other Identifiers
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TelerehApp-Valid/Feasib
Identifier Type: -
Identifier Source: org_study_id
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