Shoulder pain in wheelchair basketball athletes: A scoping review.

CONTEXT: Wheelchair basketball athletes have increased upper limb stress, which frequently leads to shoulder pain. OBJECTIVE: The purpose of this scoping review was to summarize the existing literature on shoulder pain in wheelchair basketball athletes. METHODS: We searched PubMed, Cochrane Library, Scopus, and PEDro databases for studies performed between January 1990 and February 2021. Two independent reviewers screened the studies according to the inclusion and exclusion criteria. Participants' characteristics and results were extracted from the study. RESULTS: The initial database search yielded 2455 articles, 11 of which met the inclusion criteria. This review included seven studies in its final analysis; among them, seven determined the prevalence and incidence of shoulder pain, five investigated the factors and mechanisms contributing to shoulder pain, and two reported the treatment and preventive measures. The prevalence of shoulder pain in wheelchair basketball players ranged from 38%-75%, and the incidence of shoulder pain was 14%. Factors/mechanisms included overuse, decreased trunk control, and driving posture. Treatment/preventive measures consisted of shoulder and scapular muscle strengthening and stretching exercises. However, the literature on treatment/prevention was scarce, and its effectiveness was unclear. CONCLUSION: This scoping review confirmed the high prevalence of shoulder pain in wheelchair basketball players; despite this, studies regarding treatment or preventive measures remain lacking. Further studies investigating the mechanism of onset of shoulder pain and the effectiveness of therapeutic and preventive measures are needed in the future.

Effect of Knee Orthosis Pressure Variation on Muscle Activities during Sit-to-Stand Motion in Patients with Knee Osteoarthritis.

It is yet not known whether the variation in knee orthotics pressure would lead to changes in muscle activity during-sit-to-stand postural transition in patients with knee osteoarthritis (OA). Participants in this analytical study were patients with knee OA. The research design was a cross-sectional study. They were enrolled in the study through a sample of convenience method. The primary outcome measure was surface electromyography for measuring muscle activity while changing knee orthotics pressure during sit-to-stand motion. Data were summarized with mean and standard deviation while Friedman's test was performed for multiple comparison of variables, at a significance level of p = 0.05. Seven elderly patients with knee osteoarthritis (mean age 71.4 ± 11.8 years) participated in the study. Moderate orthotics (7.3 mmHg) led to a significant increase in the percentage maximum voluntary contraction (MVC) of tibialis anterior compared to that obtained without orthotics. Rectus femoris, vastus medialis, vastus lateralis, and biceps femoris tended to increase the % MVC with an increase in wearing pressure. It was therefore concluded that the muscle activity during sit-to-stand motion could be increased in patients with knee osteoarthritis by wearing flexible orthotics with varying pressure.

Foot Position Measurement during Assistive Motion for Sit-to-Stand Using a Single Inertial Sensor and Shoe-Type Force Sensors.

Assistive motion for sit-to-stand causes lower back pain (LBP) among caregivers. Considering previous studies that showed that foot position adjustment could reduce lumbar load during assistive motion for sit-to-stand, quantitative monitoring of and instructions on foot position could contribute toward reducing LBP among caregivers. The present study proposes and evaluates a new method for the quantitative measurement of foot position during assistive motion for sit-to-stand using a few wearable sensors that are not limited to the measurement area. The proposed method measures quantitative foot position (anteroposterior and mediolateral distance between both feet) through a machine learning technique using features obtained from only a single inertial sensor on the trunk and shoe-type force sensors. During the experiment, the accuracy of the proposed method was investigated by comparing the obtained values with those from an optical motion capture system. The results showed that the proposed method produced only minor errors (less than 6.5% of body height) when measuring foot position during assistive motion for sit-to-stand. Furthermore, Bland-Altman plots suggested no fixed errors between the proposed method and the optical motion capture system. These results suggest that the proposed method could be utilized for measuring foot position during assistive motion for sit-to-stand.

Spinal postural alignment measurements using markerless digital photography.

BACKGROUND: A device that can measure posture alignment repeatedly is important for the prevention of hyperkyphosis. OBJECTIVE: We devised a markerless measurement method for hyperkyphosis using digital photography and investigated the correlation with other noninvasive measurements and the validity and accuracy of this method. METHODS: The study included 27 participants. The craniovertebral angle in supine (CVAS) and craniohorizontal angle in supine (CHAS) were calculated from digital photographs of the head and neck areas of the studied subjects with ImageJ. The correlations of CVAS and CHAS with the kyphosis index (KI) and block method (BM) were investigated. Intrarater correlation coefficient and Bland-Altman analyses were used to verify the reliability and accuracy of the measured results. RESULTS: CHAS exhibited an excellent correlation with the KI and the BM. The intra- and interrater reliabilities of CHAS were almost perfect. Bland-Altman analysis revealed that CHAS was associated with minor addition errors. CONCLUSION: CHAS founded an excellent correlation and reliability with the conventional spinal postural alignment measurements. The addition error suggested that the manual was needed to confirm the landmark. The CHAS is a method used to measure the spinal postural alignment in a supine position without markers and without exposing the skin surface.

Optimal foot-position of caregiver based on muscle activity of lower back and lower limb while providing sit-to-stand support.

[Purpose] In caregivers, low load posture is necessary to prevent lower back pain during patient handling activities such as sit-to-stand support. This study focused on the foot-position of caregivers as an adjustable and useful parameter. A wide stance decreases the stress on the lumbar vertebra. However, this foot-position increases loading of the spinae erector muscles. The aim of this study was to investigate the relationship of anterior-posterior and lateral-medial distances between feet and activity of the spinae erector muscles to determine the optimal foot-position for reducing stress on the lumbar vertebra without increasing spinae erector muscle load. [Participants and Methods] Five young male participants were asked to provide sit-to-stand support 10 times using nine normalized foot-positions with different anterior-posterior and lateral-medial distances. Surface electromyograms of the erector spinae and lower limb muscles were measured during sit-to-stand support. [Results] The results showed that the optimal foot-position (anterior-posterior 55%, lateral-medial 20% of body height) increased muscle activity within the lower limb muscles compared with the lower back muscles and did not increase loads on the erector spinae muscle. [Conclusion] Optimizing foot-position can reduce stress on the lumbar vertebra without increasing load on the spinae erector muscles.