Your search keyword '"Kuo, Tien-Yu"' showing total 7 results

1. Meta-analysis of effectiveness of parent-mediated telehealth interventions in children with Autism spectrum disorder

Author

Pan, Chieh-Yu, Kuo, Tien-Yu, and Kuo, Fen-Ling

Published

2023

2. Effects of a wearable sensor–based virtual reality game on upper-extremity function in patients with stroke

Author

Kuo, Fen-Ling, Lee, Hsin-Chieh, Kuo, Tien-Yu, Wu, Yi-Shien, Lee, Yi-Shan, Lin, Jui-Chi, and Huang, Shih-Wei

Published

2023

3. Injection therapy for carpal tunnel syndrome: A systematic review and network meta-analysis of randomized controlled trials.

Author

Yang, Fu-An, Wang, Hsun-Yi, Kuo, Tien-Yu, Peng, Chih-Wei, Liou, Tsan-Hon, Escorpizo, Reuben, and Chen, Hung-Chou

Subjects

CARPAL tunnel syndrome, PLATELET-rich plasma, RANDOMIZED controlled trials, ANALGESIA, INJECTIONS

Abstract

Various injectants are available for the treatment of carpal tunnel syndrome. This systematic review and network meta-analysis was conducted to investigate the effectiveness of different injection therapies in alleviating the symptoms of carpal tunnel syndrome. Various databases were searched for relevant studies from inception until May 10, 2023. Eligible studies were identified using the patient (P), intervention (I), comparison (C), and outcomes (O) model, which involved (P) participants with carpal tunnel syndrome, (I) an intervention based on injection therapy, (C) the use of placebo or another injectant as a control treatment, and (O) the measurement of clinical and electrodiagnostic outcomes of interest. A total of 18 studies were included in the analysis. The network meta-analysis revealed that platelet-rich plasma is effective in the treatment of carpal tunnel syndrome in terms of symptom and pain relief and functional improvement in both the short and long term, whereas steroids are effective only in the short term. Additionally, injections of dextrose solution may offer long-term pain relief as well as short- and long-term symptom alleviation and functional improvement. The study findings suggest that platelet-rich plasma should be used as the first-line treatment for carpal tunnel syndrome, with dextrose and steroids serving as alternative treatment options. [ABSTRACT FROM AUTHOR]

Published

2024

4. Effects of 3D-printed assistive device on daily life function in patients with neurological impairment: a pilot study.

Author

Kuo, Fen-Ling, Wu, Yi-Shien, Kuo, Tien-Yu, Lee, Yi-Shan, Huang, Shih-Wei, and Lee, Hsin-Chieh

Subjects

TASK performance, DATA analysis, RESEARCH funding, PILOT projects, STATISTICAL sampling, RANDOMIZED controlled trials, MANN Whitney U Test, ASSISTIVE technology, NEUROLOGICAL disorders, COMMERCIAL product evaluation, STATISTICS, THREE-dimensional printing, BODY movement, COMPARATIVE studies, DATA analysis software, ACTIVITIES of daily living

Abstract

To explore the effects of customized 3D-printed assistive technology (AT) on functional performance and feasibility in patients with neurological impairment. Patients with neurological impairment were recruited and randomized into customized 3D-printed assistive device group (group 1; n = 17) or standard device group (group 2; n = 14). The device was designed to assist their writing, spoon using, and typing. Each patient underwent 4-week intervention with the device (30 min per session, twice a week). We observed significant differences in shoulder abduction (p =.00), external rotation (p =.01), and internal rotation (p =.02) in group 1. And significant differences in abduction (p =.05) and external rotation (p =.05) between the 2 groups. Group 1 achieved significant improvements in writing without AT (p =.04) and with AT (p =.02), spoon use without AT (p =.02) and with AT (p =.03), and hemiplegia-side typing with AT (p =.00). Group 2 achieved significant improvements in writing without AT (p =.01), hemiplegia-side typing without AT (p =.01), and bil-side typing with AT (P =.05). Moreover, no significant differences were noted in other outcome measures. This study demonstrated that customized 3D-printed AT can improve shoulder active motion for patients with neurological impairment. A positive effect in functional hand tasks after AT intervention. Offering customized AT with specific training could enhance the efficacy of interventions. The feasibility of using 3D printing technology to produce customized AT, which has the potential to be cost-effective and efficient. 3D-printed assistive device incorporating a splint can improve shoulder active motion compared to conventional assistive device for patients with neurological impairment. A positive effect in functional hand tasks after assistive device intervention. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effects of 3D-printed assistive device on daily life function in patients with neurological impairment: a pilot study

Author

Kuo, Fen-Ling, Wu, Yi-Shien, Kuo, Tien-Yu, Lee, Yi-Shan, Huang, Shih-Wei, and Lee, Hsin-Chieh

Abstract

To explore the effects of customized 3D-printed assistive technology (AT) on functional performance and feasibility in patients with neurological impairment. Patients with neurological impairment were recruited and randomized into customized 3D-printed assistive device group (group 1; n = 17) or standard device group (group 2; n = 14). The device was designed to assist their writing, spoon using, and typing. Each patient underwent 4-week intervention with the device (30 min per session, twice a week). We observed significant differences in shoulder abduction (p = .00), external rotation (p = .01), and internal rotation (p = .02) in group 1. And significant differences in abduction (p = .05) and external rotation (p = .05) between the 2 groups. Group 1 achieved significant improvements in writing without AT (p = .04) and with AT (p = .02), spoon use without AT (p = .02) and with AT (p = .03), and hemiplegia-side typing with AT (p = .00). Group 2 achieved significant improvements in writing without AT (p = .01), hemiplegia-side typing without AT (p = .01), and bil-side typing with AT (P = .05). Moreover, no significant differences were noted in other outcome measures. This study demonstrated that customized 3D-printed AT can improve shoulder active motion for patients with neurological impairment. A positive effect in functional hand tasks after AT intervention. Offering customized AT with specific training could enhance the efficacy of interventions. The feasibility of using 3D printing technology to produce customized AT, which has the potential to be cost-effective and efficient. 3D-printed assistive device incorporating a splint can improve shoulder active motion compared to conventional assistive device for patients with neurological impairment.A positive effect in functional hand tasks after assistive device intervention. 3D-printed assistive device incorporating a splint can improve shoulder active motion compared to conventional assistive device for patients with neurological impairment. A positive effect in functional hand tasks after assistive device intervention.

Published

2023

6. Evaluation of a 3D-Printed Writing Assistive Device for People With Brain Injury

Author

Kuo, Fen-Ling, Kuo, Tien-Yu, Lee, Yi-Shan, Wu, Yi-Shien, Huang, Shih-Wei, and Lee, Hsin-Chieh

Abstract

Three-dimensional-printed assistive devices hold promise for improving writing abilities, yet factors influencing device selection and their impact on satisfaction and effectiveness remain unclear, especially in adults, as they are typically tested on children. The aim of this article is to assess the efficacy and satisfaction with a writing assistive device at different angles among individuals with brain injury and explore device selection factors. Twenty-six participants with brain injuries selected their preferred device angle. Writing speed, quality, and satisfaction were recorded. Immediate speed improvements were significant at 5° and 30° (p= .006, .013, respectively). Satisfaction scores did not significantly differ among angles. Normotonia in elbow (p< .001; odds ratio: 3.403) and wrist (p≤ .001; odds ratio: 2.695) muscles increased the likelihood of selecting the 5° device. Immediate speed improvements at specific angles highlight the influence of muscle normotonia on device selection, vital for tailored brain injury rehabilitation.

Published

2024

7. Evaluation of a 3D-Printed Writing Assistive Device for People With Brain Injury.

Author

Kuo FL, Kuo TY, Lee YS, Wu YS, Huang SW, and Lee HC

Abstract

Three-dimensional-printed assistive devices hold promise for improving writing abilities, yet factors influencing device selection and their impact on satisfaction and effectiveness remain unclear, especially in adults, as they are typically tested on children. The aim of this article is to assess the efficacy and satisfaction with a writing assistive device at different angles among individuals with brain injury and explore device selection factors. Twenty-six participants with brain injuries selected their preferred device angle. Writing speed, quality, and satisfaction were recorded. Immediate speed improvements were significant at 5° and 30° ( p = .006, .013, respectively). Satisfaction scores did not significantly differ among angles. Normotonia in elbow ( p < .001; odds ratio: 3.403) and wrist ( p ≤ .001; odds ratio: 2.695) muscles increased the likelihood of selecting the 5° device. Immediate speed improvements at specific angles highlight the influence of muscle normotonia on device selection, vital for tailored brain injury rehabilitation., Competing Interests: Declaration of Conflicting InterestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024