Telerehabilitation for upper limb disabilities: a scoping review on functions, outcomes, and evaluation methods

Moulaei, Khadijeh; Sheikhtaheri, Abbas; Nezhad, Mansour Shahabi; Haghdoost, Ali-Akbar; Gheysari, Mohammad; Bahaadinbeigy, Kambiz

doi:10.1186/s13690-022-00952-w

Cited by 20 publications

(20 citation statements)

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“…As discussed above, telerehabilitation and virtual reality were two types of technology used along with rehabilitation robots. Some studies [ 3 , 82 , 83 ] showed that if special interventions such as game-based virtual reality, and telerehabilitation with rehabilitation robots are used, upper limb function, mental health and patients’ participation in rehabilitation exercises can be improved. Moulaei et al [ 3 ], showed in a scoping review that telerehabilitation could lead to “improving in musculoskeletal functions”, “increasing patients’ interest and motivation to perform rehabilitation exercises”, “increasing adherence to rehabilitation exercises and more participation in treatment processes”, “remote monitoring and control of patients”, “reducing or relieved pain” and “improving quality of life”.…”

Section: Discussionmentioning

confidence: 99%

“…Some studies [ 3 , 82 , 83 ] showed that if special interventions such as game-based virtual reality, and telerehabilitation with rehabilitation robots are used, upper limb function, mental health and patients’ participation in rehabilitation exercises can be improved. Moulaei et al [ 3 ], showed in a scoping review that telerehabilitation could lead to “improving in musculoskeletal functions”, “increasing patients’ interest and motivation to perform rehabilitation exercises”, “increasing adherence to rehabilitation exercises and more participation in treatment processes”, “remote monitoring and control of patients”, “reducing or relieved pain” and “improving quality of life”. Fernández-Vázquez et al [ 84 ], also pointed out that virtual reality as a very interesting tool in treating upper limb disorders along with rehabilitation robots can improve the motor function of the upper limb, increase users’ motivation and enjoyment, a large number of repetitions or high intensity rehabilitation.…”

Section: Discussionmentioning

confidence: 99%

“…Impaired upper limb (UL) functions to restrict the performance of activities of daily living, limit social participation [ 1 ], specifically decrease the independence of affected individuals and reduce patients’ quality of life [ 2 , 3 ]. In upper limb disabilities, patients develop musculoskeletal problems such as paresis, pain, loss of sensation, and spasticity in different parts of the upper limb and so these problems can have manifold consequences in the daily lives of those impacted.…”

Section: Introductionmentioning

confidence: 99%

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Overview of the role of robots in upper limb disabilities rehabilitation: a scoping review

Moulaei,

Bahaadinbeigy,

Haghdoostd

et al. 2023

Arch Public Health

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Background Neuromotor rehabilitation and improvement of upper limb functions are necessary to improve the life quality of patients who have experienced injuries or have pathological outcomes. Modern approaches, such as robotic-assisted rehabilitation can help to improve rehabilitation processes and thus improve upper limb functions. Therefore, the aim of this study was to investigate the role of robots in upper limb disability improvement and rehabilitation. Methods This scoping review was conducted by search in PubMed, Web of Science, Scopus, and IEEE (January 2012– February 2022). Articles related to upper limb rehabilitation robots were selected. The methodological quality of all the included studies will be appraised using the Mixed Methods Appraisal Tool (MMAT). We used an 18-field data extraction form to extract data from articles and extracted the information such as study year, country, type of study, purpose, illness or accident leading to disability, level of disability, assistive technologies, number of participants in the study, sex, age, rehabilitated part of the upper limb using a robot, duration and frequency of treatment, methods of performing rehabilitation exercises, type of evaluation, number of participants in the evaluation process, duration of intervention, study outcomes, and study conclusions. The selection of articles and data extraction was made by three authors based on inclusion and exclusion criteria. Disagreements were resolved through consultation with the fifth author. Inclusion criteria were articles involving upper limb rehabilitation robots, articles about upper limb disability caused by any illness or injury, and articles published in English. Also, articles involving other than upper limb rehabilitation robots, robots related to rehabilitation of diseases other than upper limb, systematic reviews, reviews, and meta-analyses, books, book chapters, letters to the editor, and conference papers were also excluded. Descriptive statistics methods (frequency and percentage) were used to analyses the data. Results We finally included 55 relevant articles. Most of the studies were done in Italy (33.82%). Most robots were used to rehabilitate stroke patients (80%). About 60.52% of the studies used games and virtual reality rehabilitate the upper limb disabilities using robots. Among the 14 types of applied evaluation methods, “evaluation and measurement of upper limb function and dexterity” was the most applied evaluation method. “Improvement in musculoskeletal functions”, “no adverse effect on patients”, and “Safe and reliable treatment” were the most cited outcomes, respectively. Conclusions Our findings show that robots can improve musculoskeletal functions (musculoskeletal strength, sensation, perception, vibration, muscle coordination, less spasticity, flexibility, and range of motion) and empower people by providing a variety of rehabilitation capabilities.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Overview of the role of robots in upper limb disabilities rehabilitation: a scoping review

Moulaei,

Bahaadinbeigy,

Haghdoostd

et al. 2023

Arch Public Health

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“…64,65 Likewise, if the games are combined with telerehabilitation technologies, robots and/or smart wearables, they can increase the motivation and tendency of patients to perform therapeutic exercises, easily perform repetitive, boring and longterm exercises, increase the patient's independence in performing therapeutic exercises, increasing adherence to rehabilitation exercises and ultimately improving the quality of life of patients with upper limb disability. 2 Other outcomes identified in this review were "High user satisfaction with the system," and "Increasing patients' autonomy in daily life activities." Some studies [66][67][68] have shown that rehabilitation games are useful and effective for people with upper limb disabilities, and these individuals and therapists have also reported a high level of satisfaction and acceptance of these games.…”

Section: Discussionmentioning

confidence: 99%

An analysis of clinical outcomes and essential parameters for designing effective games for upper limb rehabilitation: A scoping review

Moulaei,

Bahaadinbeigy,

Haghdoostd

et al. 2023

Health Science Reports

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Background and Aims: Upper limb disabilities are one of the most common disabilities among different groups of people who always need rehabilitation. One of the important methods in helping to carry out efficient rehabilitation processes and exercises is the use of games. The aim of this study is to identify the parameters necessary to design a successful rehabilitation game and the outcomes of using these games in upper limb disabilities rehabilitation.Methods: This scoping review was conducted by searching the Web of Science, PubMed, and Scopus. The eligibility criteria were: any form of game-based upper limb rehabilitation, published in a peer-reviewed journal, published in English, and not include articles that did not focus upper limb disabilities rehabilitation games, review, meta-analysis, or conference papers. Analysis of collected data was done using descriptive statistics (frequency and percentage). Results:The search strategy retrieved 537 relevant articles. Finally, after removing irrelevant and repetitive articles, 21 articles were included in this study. Among the six categories of diseases or complications of upper limb disabilities, games were mostly designed for stroke patients. Smart wearables, robots and telerehabilitation were three technologies that were used for rehabilitation along with games. Sports and shooters were the most used games for upper limb disability rehabilitation.Among 99 necessary parameters for designing and implementing a successful rehabilitation game in ten categories. "Increasing the patient's motivation to perform rehabilitation exercises", "Game difficulty levels", "Enjoying and the attractiveness of the game for patients", and "Providing positive or negative audiovisual feedback" were the most important parameters. "Improvement in musculoskeletal performance" and "Increasing users' enjoyment/joy of therapeutic exercises and their motivation to perform these exercises" were the most important positive outcomes,

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“…In particular, the technology allows more intensive and tailored patient rehabilitation activities and services (increasing the amount and quality of therapy that can be administered and supervised) and enable all the involved actors in the team (e.g., physicians, therapists, bioengineers and others) to design patient-centered and custom intervention collaboratively. Moreover, technology can transform rehabilitation from a one-on-one human resource intensive treatment that can only be provided in specialized centers to a technology-driven, remotely-supervised and widely accessible enterprise (Moulaei et al, 2022 ). Given the increased costs associated with long-term rehabilitation and the difficulty in providing appropriate duration and intensity of rehabilitation services required to manage disability, cost-effective development of robotic rehabilitation is greatly warranted.…”

Section: Introductionmentioning

confidence: 99%

Editorial: How can wearable robotic and sensor technology advance neurorehabilitation?

Chang

Tseng

et al. 2022

Front. Neurorobot.

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Telerehabilitation for upper limb disabilities: a scoping review on functions, outcomes, and evaluation methods

Cited by 20 publications

References 105 publications

Overview of the role of robots in upper limb disabilities rehabilitation: a scoping review

Overview of the role of robots in upper limb disabilities rehabilitation: a scoping review

An analysis of clinical outcomes and essential parameters for designing effective games for upper limb rehabilitation: A scoping review

Editorial: How can wearable robotic and sensor technology advance neurorehabilitation?

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