Comparative Analysis of Muscle Activity and Circulatory Dynamics: A Crossover Study Using Leg Exercise Apparatus and Ergometer.

Background and Objectives: Bedridden patients are at a high risk of venous thromboembolism (VTE). Passive devices such as elastic compression stockings and intermittent pneumatic compression are common. Leg exercise apparatus (LEX) is an active device designed to prevent VTE by effectively contracting the soleus muscle and is therefore expected to be effective in preventing disuse of the lower limbs. However, few studies have been conducted on the kinematic properties of LEX. Therefore, this study aimed to compare the exercise characteristics of LEX with those of an ergometer, which is commonly used as a lower-limb exercise device, and examine its effect on the two domains of muscle activity and circulatory dynamics. Materials and Methods: This study used a crossover design in which each participant performed both exercises to evaluate the exercise characteristics of each device. Fifteen healthy adults performed exercises with LEX and an ergometer (Terasu Erugo, SDG Co., Ltd., Tokyo, Japan) for 5 min each and rested for 10 min after each exercise. Muscle activity was measured using surface electromyography (Clinical DTS, Noraxon, Scottsdale, AZ, USA), and circulatory dynamics were recorded using a non-invasive impedance cardiac output meter (Physioflow Enduro, Manatec Biomedical, Paris, France). The primary outcome was the mean percentage of maximum voluntary contraction (%MVC) of the soleus muscle during exercise. Results: The mean %MVC of the soleus muscle was significantly higher in the LEX group, whereas no significant differences were observed across the periods and sequences. Heart rate, stroke volume, and cardiac output increased during exercise and decreased thereafter; however, the differences between the devices were not significant. Conclusions: LEX may not only have a higher thromboprophylaxis effect, but also a higher effect on preventing muscle atrophy as a lower-extremity exercise device. Additionally, LEX could potentially be used safely in patients who need to be monitored for changes in circulatory dynamics.

Safety of Venous Thromboembolism Prophylaxis Protocol Using a Novel Leg Exercise Apparatus in Bedridden Patients due to Spinal Diseases.

PURPOSE: Venous thromboembolism (VTE) is a complication in patients with a spinal disease requiring bedfast for conservative therapies. We previously developed a novel leg exercise apparatus (LEX) to encourage patients to exercise their lower extremities during bed rest. The purpose of this study was to evaluate the feasibility and safety of the LEX for the prevention of VTE in patients on bed rest due to spinal disease. METHODS: Patients with spinal diseases requiring bed rest were included in the study. Exercise using the LEX was performed for ≥5 minutes. The exercises were performed three or more times per day during the bed rest period. In addition, we evaluated adverse events, such as symptomatic VTE and changes in vital signs, using venous ultrasonography, blood tests, and measurement of vital signs. RESULTS: In total, 31 patients were enrolled (11 men, 20 women), with mean age, height, weight, and body mass index of 72.4 years, 155.2 cm, 55.0 kg, and 22.6 kg/m2, respectively. Twenty-four subjects had spinal fractures. Twenty-nine patients continued exercising until they could leave their beds. No symptomatic VTE was observed in any patient, and no other severe adverse events were observed. There were no significant changes in vital signs. The average number of exercise days with LEX and length of hospitalization were 11 and 31 days, respectively. CONCLUSIONS: This is the first study regarding mechanical thromboprophylaxis through in-bed exercise for patients with bedridden spinal disease. The LEX exercise protocol, in addition to mechanical prophylaxis with graduated compression stockings and intermittent pneumatic compression devices, for the prevention of symptomatic VTE may be feasible and safe for patients with bedridden spinal disease.

The voluntary driven exoskeleton Hybrid Assistive Limb (HAL) for postoperative training of thoracic ossification of the posterior longitudinal ligament: a case report.

CONTEXT: The hybrid assistive limb (HAL) is a wearable robot suit that assists in voluntary control of knee and hip joint motion by detecting bioelectric signals on the surface of the skin with high sensitivity. HAL has been reported to be effective for functional recovery in motor impairments. However, few reports have revealed the utility of HAL for patients who have undergone surgery for thoracic ossification of the posterior longitudinal ligament (thoracic OPLL). Herein, we present a postoperative thoracic OPLL patient who showed remarkable functional recovery after training with HAL. FINDINGS: A 63-year-old woman, who could not walk due to muscle weakness before surgery, underwent posterior decompression and fusion. Paralysis was re-aggravated after the initial postoperative rising. We diagnosed that paralysis was due to residual compression from the anterior lesion and microinstability after posterior fixation, and prescribed bed rest for a further 3 weeks. The incomplete paralysis gradually recovered, and walking training with HAL was started on postoperative day 44 in addition to standard physical therapy. The patient underwent 10 sessions of HAL training until discharge on postoperative day 73. Results of a 10-m walk test were assessed after every session, and the patient's speed and cadence markedly improved. At discharge, the patient could walk with 2 crutches and no assistance. Furthermore, no adverse events associated with HAL training occurred. CONCLUSION: HAL training for postoperative thoracic OPLL patients may enhance improvement in walking ability, even if severe impairment of ambulation and muscle weakness exist preoperatively.