Effects of seating education and cushion management for adaptive sitting posture in spinal cord injury

Park, Myoung-Ok; Lee, Sang‐Heon

doi:10.1097/md.0000000000014231

Cited by 2 publications

(2 citation statements)

References 16 publications

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“…10 SCI patients perform such exercises in a sitting position. However, long-term sitting increases the risk of pressure ulcers 11 and reduces smooth bowel movement. 12 To avoid these problems, standing and gait training program are used as the standard rehabilitation for SCI patients.…”

Section: Introductionmentioning

confidence: 99%

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<p>Effect of Gait Training Program with Mechanical Exoskeleton on Body Composition of Paraplegics</p>

Choi

Kim

Chai

et al. 2020

JMDH

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Purpose: To identify the effect of a 52-weeks gait training program with an exoskeletal body-powered gait orthosis on the body composition of paraplegics. Patients and Methods: Ten subjects with spinal cord injury at the thoracolumbar spine level for more than 2 years participated and were divided into exercise (n=5) and nonexercise (n=5) groups. A gait training program comprising stages 1-6 with customized exoskeletal body-powered gait orthosis was conducted for 52-weeks. A six-stage gait training program was conducted to manage the body composition and prevent obesity, and the changes in the body composition before and after the program were determined through bioelectrical impedance analysis. Results: No significant changes in weight, fat-free mass (kg), lean body mass (kg), and percent fat mass (%) are seen in the exercise group before and after the 52-weeks program. However, fat-free mass (pre = 47.3± 6.5, post = 44.3 ± 5.4, kg), lean body mass (pre = 45.2 ± 6.3, post = 42.3±5.2, kg), and percent fat mass (pre = 30.1 ± 12.1, post = 40.9 ± 9.1, kg) show significant changes (p < 0.05) in the nonexercise group. In the nonexercise group, among lean body mass changes over 52-weeks in the upper limbs (−31%), trunks (−9.7%), and lower limbs (−8.6%), upper limbs exhibit the most significant decrease (p < 0.05). Conclusion: The gait training program with exoskeletal body-powered gait orthosis has a positive effect on fat management in the whole body and lean body mass loss in paraplegics. Furthermore, it is effective in preventing continuous muscle loss and in maintaining health by reducing body fat. Body composition measurements with bioelectrical impedance analysis for paraplegics can be applied in various clinical areas and can be combined with various arbitration methods such as rehabilitation program.

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Section: Introductionmentioning

confidence: 99%

“… 10 SCI patients perform such exercises in a sitting position. However, long-term sitting increases the risk of pressure ulcers 11 and reduces smooth bowel movement. 12…”

Section: Introductionmentioning

confidence: 99%

<p>Effect of Gait Training Program with Mechanical Exoskeleton on Body Composition of Paraplegics</p>

Choi

Kim

Chai

et al. 2020

JMDH

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Smart Cushion Based on Pressure Sensor Array for Human Sitting Posture Recognition

Yuan

2021

2021 IEEE Sensors

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With the emphasis on healthcare, early childhood education, and fitness, non-invasive measurement and recognition methods have received more attention. Pressure sensing has been extensively studied due to its advantages of simple structure, easy access, visualization application, and harmlessness. This paper introduces a smart pressure e-mat (SPeM) system based on a piezoresistive material Velostat for human monitoring applications, including sleeping postures, sports, and yoga recognition. After a subsystem scans e-mat readings and processes the signal, it generates a pressure image stream. Deep neural networks (DNNs) are used to fit and train the pressure image stream and recognize the corresponding human behavior. Four sleeping postures and five dynamic activities inspired by Nintendo Switch Ring Fit Adventure (RFA) are used as a preliminary validation of the proposed SPeM system. The SPeM system achieves high accuracies on both applications, which demonstrates the high accuracy and generalization ability of the models. Compared with other pressure sensor-based systems, SPeM possesses more flexible applications and commercial application prospects, with reliable, robust, and repeatable properties.

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Effects of seating education and cushion management for adaptive sitting posture in spinal cord injury

Cited by 2 publications

References 16 publications

<p>Effect of Gait Training Program with Mechanical Exoskeleton on Body Composition of Paraplegics</p>

<p>Effect of Gait Training Program with Mechanical Exoskeleton on Body Composition of Paraplegics</p>

Smart Cushion Based on Pressure Sensor Array for Human Sitting Posture Recognition

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