Abstract
Upper limb dysfunction after stroke is one of the most serious functional disorders, and adequate functional recovery is often not expected. Although various studies have been conducted on effective rehabilitation for upper limb dysfunction, active rehabilitation such as repetitive training of upper limb elevation has not been sufficiently conducted yet because the shoulder joint is highly unstable and the appearance of pain is easily observed. In this study, we performed right shoulder joint elevation training in a seated position using a single-joint hybrid assistive limb (HAL) in a 54-year-old female with right hemiplegia after a stroke. Her right upper limb function improved as follows: passive and active range of motion (ROM) of shoulder flexion, from 105° to 115° and from 65° to 105°, respectively; manual muscle test (MMT), from 2 to 4; box and block test of the right hand, from 1 to 8; right grip strength, from less than 5 to 7.4 kg; and action research arm test (ARAT) total scores, from 10 to 20. No adverse events including shoulder pain were seen. According to the result of the pilot study, HAL may be an effective rehabilitation tool for upper limb dysfunction after stroke.
Highlights
Upper limb dysfunction caused by stroke significantly affects activities of daily living (ADLs) and reduces the quality of life (QOL)
Regarding upper limb dysfunction after stroke, muscle weakness in the paralyzed limb can decrease the stability of the shoulder joint, causing subluxation and shoulder pain that reduced the patient's QOL; training is performed focusing on protection rather than active functional training [3,4]
Focusing on the shoulder dysfunction after stroke, we considered the clinical application of shoulder type hybrid assistive limb (HAL), which was developed in our facility [14,15] for patients after stroke
Summary
Upper limb dysfunction caused by stroke significantly affects activities of daily living (ADLs) and reduces the quality of life (QOL). Regarding upper limb dysfunction after stroke, muscle weakness in the paralyzed limb can decrease the stability of the shoulder joint, causing subluxation and shoulder pain that reduced the patient's QOL; training is performed focusing on protection rather than active functional training [3,4]. It is difficult to improve; it hinders rehabilitation and adversely affects ADLs [5,6]. The risk of shoulder pain has been pointed out in constraint-induced therapy (CI therapy), which is widely used in rehabilitation for upper limb dysfunction, and careful training of the paralyzed shoulder joint is still necessary [7]. Adequate rehabilitation for shoulder dysfunction will be able to enhance patients with stroke
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