Cargando…
An Internet- and Kinect-Based Multiple Sclerosis Fitness Intervention Training With Pilates Exercises: Development and Usability Study
BACKGROUND: Balance impairments are common in people with multiple sclerosis (MS), with reduced ability to maintain position and delayed responses to postural adjustments. Pilates is a popular alternative method for balance training that may reduce the rapid worsening of symptoms and the increased r...
| Autores principales: | , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
JMIR Publications
2023
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10666018/ https://www.ncbi.nlm.nih.gov/pubmed/37938895 http://dx.doi.org/10.2196/41371 |
| _version_ | 1785138954557718528 |
|---|---|
| author | Tacchino, Andrea Ponzio, Michela Confalonieri, Paolo Leocani, Letizia Inglese, Matilde Centonze, Diego Cocco, Eleonora Gallo, Paolo Paolicelli, Damiano Rovaris, Marco Sabattini, Loredana Tedeschi, Gioacchino Prosperini, Luca Patti, Francesco Bramanti, Placido Pedrazzoli, Elisabetta Battaglia, Mario Alberto Brichetto, Giampaolo |
| author_facet | Tacchino, Andrea Ponzio, Michela Confalonieri, Paolo Leocani, Letizia Inglese, Matilde Centonze, Diego Cocco, Eleonora Gallo, Paolo Paolicelli, Damiano Rovaris, Marco Sabattini, Loredana Tedeschi, Gioacchino Prosperini, Luca Patti, Francesco Bramanti, Placido Pedrazzoli, Elisabetta Battaglia, Mario Alberto Brichetto, Giampaolo |
| author_sort | Tacchino, Andrea |
| collection | PubMed |
| description | BACKGROUND: Balance impairments are common in people with multiple sclerosis (MS), with reduced ability to maintain position and delayed responses to postural adjustments. Pilates is a popular alternative method for balance training that may reduce the rapid worsening of symptoms and the increased risk of secondary conditions (eg, depression) that are frequently associated with physical inactivity. OBJECTIVE: In this paper, we aimed to describe the design, development, and usability testing of MS Fitness Intervention Training (MS-FIT), a Kinect-based tool implementing Pilates exercises customized for MS. METHODS: MS-FIT has been developed using a user-centered design approach (design, prototype, user feedback, and analysis) to gain the target user’s perspective. A team composed of 1 physical therapist, 2 game programmers, and 1 game designer developed the first version of MS-FIT that integrated the knowledge and experience of the team with MS literature findings related to Pilates exercises and balance interventions based on exergames. MS-FIT, developed by using the Unity 3D (Unity Technologies) game engine software with Kinect Sensor V2 for Windows, implements exercises for breathing, posture, and balance. Feedback from an Italian panel of experts in MS rehabilitation (neurologists, physiatrists, physical therapists, 1 statistician, and 1 bioengineer) and people with MS was collected to customize the tool for use in MS. The context of MS-FIT is traveling around the world to visit some of the most important cities to learn the aspects of their culture through pictures and stories. At each stay of the travel, the avatar of a Pilates teacher shows the user the exercises to be performed. Overall, 9 people with MS (n=4, 44% women; mean age 42.89, SD 11.97 years; mean disease duration 10.19, SD 9.18 years; Expanded Disability Status Scale score 3.17, SD 0.75) were involved in 3 outpatient user test sessions of 30 minutes; MS-FIT’s usability was assessed through an ad hoc questionnaire (maximum value=5; higher the score, higher the usability) evaluating easiness to use, playability, enjoyment, satisfaction, and acceptance. RESULTS: A user-centered design approach was used to develop an accessible and challenging tool for balance training. All people with MS (9/9, 100%) completed the user test sessions and answered the ad hoc questionnaire. The average score on each item ranged from 3.78 (SD 0.67) to 4.33 (SD 1.00), which indicated a high usability level. The feedback and suggestions provided by 64% (9/14) of people with MS and 36% (5/14) of therapists involved in the user test were implemented to refine the first prototype to release MS-FIT 2.0. CONCLUSIONS: The participants reported that MS-FIT was a usable tool. It is a promising system for enhancing the motivation and engagement of people with MS in performing exercise with the aim of improving their physical status. |
| format | Online Article Text |
| id | pubmed-10666018 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2023 |
| publisher | JMIR Publications |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-106660182023-11-08 An Internet- and Kinect-Based Multiple Sclerosis Fitness Intervention Training With Pilates Exercises: Development and Usability Study Tacchino, Andrea Ponzio, Michela Confalonieri, Paolo Leocani, Letizia Inglese, Matilde Centonze, Diego Cocco, Eleonora Gallo, Paolo Paolicelli, Damiano Rovaris, Marco Sabattini, Loredana Tedeschi, Gioacchino Prosperini, Luca Patti, Francesco Bramanti, Placido Pedrazzoli, Elisabetta Battaglia, Mario Alberto Brichetto, Giampaolo JMIR Serious Games Original Paper BACKGROUND: Balance impairments are common in people with multiple sclerosis (MS), with reduced ability to maintain position and delayed responses to postural adjustments. Pilates is a popular alternative method for balance training that may reduce the rapid worsening of symptoms and the increased risk of secondary conditions (eg, depression) that are frequently associated with physical inactivity. OBJECTIVE: In this paper, we aimed to describe the design, development, and usability testing of MS Fitness Intervention Training (MS-FIT), a Kinect-based tool implementing Pilates exercises customized for MS. METHODS: MS-FIT has been developed using a user-centered design approach (design, prototype, user feedback, and analysis) to gain the target user’s perspective. A team composed of 1 physical therapist, 2 game programmers, and 1 game designer developed the first version of MS-FIT that integrated the knowledge and experience of the team with MS literature findings related to Pilates exercises and balance interventions based on exergames. MS-FIT, developed by using the Unity 3D (Unity Technologies) game engine software with Kinect Sensor V2 for Windows, implements exercises for breathing, posture, and balance. Feedback from an Italian panel of experts in MS rehabilitation (neurologists, physiatrists, physical therapists, 1 statistician, and 1 bioengineer) and people with MS was collected to customize the tool for use in MS. The context of MS-FIT is traveling around the world to visit some of the most important cities to learn the aspects of their culture through pictures and stories. At each stay of the travel, the avatar of a Pilates teacher shows the user the exercises to be performed. Overall, 9 people with MS (n=4, 44% women; mean age 42.89, SD 11.97 years; mean disease duration 10.19, SD 9.18 years; Expanded Disability Status Scale score 3.17, SD 0.75) were involved in 3 outpatient user test sessions of 30 minutes; MS-FIT’s usability was assessed through an ad hoc questionnaire (maximum value=5; higher the score, higher the usability) evaluating easiness to use, playability, enjoyment, satisfaction, and acceptance. RESULTS: A user-centered design approach was used to develop an accessible and challenging tool for balance training. All people with MS (9/9, 100%) completed the user test sessions and answered the ad hoc questionnaire. The average score on each item ranged from 3.78 (SD 0.67) to 4.33 (SD 1.00), which indicated a high usability level. The feedback and suggestions provided by 64% (9/14) of people with MS and 36% (5/14) of therapists involved in the user test were implemented to refine the first prototype to release MS-FIT 2.0. CONCLUSIONS: The participants reported that MS-FIT was a usable tool. It is a promising system for enhancing the motivation and engagement of people with MS in performing exercise with the aim of improving their physical status. JMIR Publications 2023-11-08 /pmc/articles/PMC10666018/ /pubmed/37938895 http://dx.doi.org/10.2196/41371 Text en ©Andrea Tacchino, Michela Ponzio, Paolo Confalonieri, Letizia Leocani, Matilde Inglese, Diego Centonze, Eleonora Cocco, Paolo Gallo, Damiano Paolicelli, Marco Rovaris, Loredana Sabattini, Gioacchino Tedeschi, Luca Prosperini, Francesco Patti, Placido Bramanti, Elisabetta Pedrazzoli, Mario Alberto Battaglia, Giampaolo Brichetto. Originally published in JMIR Serious Games (https://games.jmir.org), 08.11.2023. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work, first published in JMIR Serious Games, is properly cited. The complete bibliographic information, a link to the original publication on https://games.jmir.org, as well as this copyright and license information must be included. |
| spellingShingle | Original Paper Tacchino, Andrea Ponzio, Michela Confalonieri, Paolo Leocani, Letizia Inglese, Matilde Centonze, Diego Cocco, Eleonora Gallo, Paolo Paolicelli, Damiano Rovaris, Marco Sabattini, Loredana Tedeschi, Gioacchino Prosperini, Luca Patti, Francesco Bramanti, Placido Pedrazzoli, Elisabetta Battaglia, Mario Alberto Brichetto, Giampaolo An Internet- and Kinect-Based Multiple Sclerosis Fitness Intervention Training With Pilates Exercises: Development and Usability Study |
| title | An Internet- and Kinect-Based Multiple Sclerosis Fitness Intervention Training With Pilates Exercises: Development and Usability Study |
| title_full | An Internet- and Kinect-Based Multiple Sclerosis Fitness Intervention Training With Pilates Exercises: Development and Usability Study |
| title_fullStr | An Internet- and Kinect-Based Multiple Sclerosis Fitness Intervention Training With Pilates Exercises: Development and Usability Study |
| title_full_unstemmed | An Internet- and Kinect-Based Multiple Sclerosis Fitness Intervention Training With Pilates Exercises: Development and Usability Study |
| title_short | An Internet- and Kinect-Based Multiple Sclerosis Fitness Intervention Training With Pilates Exercises: Development and Usability Study |
| title_sort | internet- and kinect-based multiple sclerosis fitness intervention training with pilates exercises: development and usability study |
| topic | Original Paper |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10666018/ https://www.ncbi.nlm.nih.gov/pubmed/37938895 http://dx.doi.org/10.2196/41371 |
| work_keys_str_mv | AT tacchinoandrea aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT ponziomichela aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT confalonieripaolo aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT leocaniletizia aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT inglesematilde aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT centonzediego aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT coccoeleonora aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT gallopaolo aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT paolicellidamiano aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT rovarismarco aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT sabattiniloredana aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT tedeschigioacchino aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT prosperiniluca aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT pattifrancesco aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT bramantiplacido aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT pedrazzolielisabetta aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT battagliamarioalberto aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT brichettogiampaolo aninternetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT tacchinoandrea internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT ponziomichela internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT confalonieripaolo internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT leocaniletizia internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT inglesematilde internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT centonzediego internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT coccoeleonora internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT gallopaolo internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT paolicellidamiano internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT rovarismarco internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT sabattiniloredana internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT tedeschigioacchino internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT prosperiniluca internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT pattifrancesco internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT bramantiplacido internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT pedrazzolielisabetta internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT battagliamarioalberto internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy AT brichettogiampaolo internetandkinectbasedmultiplesclerosisfitnessinterventiontrainingwithpilatesexercisesdevelopmentandusabilitystudy |