Workplace ergonomic assessment pada komunitas pekerja internet marketing society

Regular use of computers in the workspace contributes to suffering from many risk factors associated with musculoskeletal disorders (MSDs). Ergonomic principles is a determining factor of comfort and increased worker productivity at work. Ergonomics is also very important for workers who use computers. Working with computers is at high risk of suffering from a variety of complaints, including having the three biggest risk factors: back posture, repetition, and static strength. Preventive measures can minimize the negative impact of the main risks above. The purpose of this study is to assess and measure the ergonomics of the Internet Marketing Society's workplace workers. This service research uses observational methods from survey results with questionnaires distributed via google form. The total sampling is 33 workers from the Internet Marketing Society. The results show that 54.5% of workers do not know about ergonomics, 75.8% of workers do not use wrist and arm support devices. In the complaint problem, most of the workers experienced muscle pain 27.3% and back pain 24.2%, and 24.2% workers experienced shoulder conditions that were not relaxed while working. Based on these results, it is concluded that workers need to implement the principles of K3 and ergonomics in their work while working with computers.

Feasibility and effectiveness of a novel dynamic arm support in persons with spinal muscular atrophy and duchenne muscular dystrophy

Background Neuromuscular disorders (NMD) commonly affect the upper extremity. Due to muscle weakness, performance of daily activities becomes increasingly difficult, which leads to reduced independence and quality of life. In order to support the performance of upper extremity tasks, dynamic arm supports may be used. The Yumen Arm is a novel dynamic arm support specially developed for people with NMD. The aim of this study is to evaluate the feasibility and effectiveness of the Yumen Arm in persons with Duchenne Muscular Dystrophy (DMD) and persons with Spinal Muscular Atrophy (SMA). Methods Three persons with DMD and three persons with SMA participated in this study. All participants conducted a set of measures with and without the Yumen Arm. Outcome measures were: active range of motion of the arm and trunk (i.e. Reachable Workspace, Functional Workspace, and trunk movement), fatigue (OMNI-RPE), Performance of Upper Limb (PUL) scale and some additional activities of daily living. User experiences were collected using a questionnaire. Results The Yumen Arm could be used by all participants. Results showed a median increase in active range of motion (4% relative surface area), and a median increase of function ability (> 11% PUL score) when using the Yumen Arm. In addition, three out of four (data from 2 participants was missing) participants indicated that activity performance was less fatiguing when using the Yumen Arm. Four out of five (data from 1 participant was missing) participants indicated that they would like to use the Yumen Arm in their daily lives. Conclusion This study is one of the first studies describing a range of objective measures to examine the effectiveness of a dynamic arm support. Based on these measurements we can conclude that the Yumen Arm effectively improves arm function in NMD patients, however the effectiveness varies a lot between individual subjects. We provided detailed recommendations for the improvement of the Yumen Arm, and possible also for the development of other dynamic arm supports. This study showed a lot of variability between individual subjects, which emphasizes the importance of tuning dynamic arm supports based on individual user characteristics, such as scoliosis, functional capacity and muscle strength.

Feasibility of motor-assisted elliptical to improve walking, fitness and balance following pediatric acquired brain injury: A case series

PURPOSE: Walking, fitness, and balance deficits are common following acquired brain injury (ABI). This study assessed feasibility, acceptability, and usefulness of a modified motor-assisted elliptical (ICARE) in addressing walking, fitness, and balance deficits in children with chronic ABIs. METHODS: Three children (> 5 years post-ABI) completed 24 ICARE exercise sessions (exercise time, speed, and time overriding motor-assistance gradually increased) to promote mass repetition of gait-like movements and challenge cardiorespiratory fitness. Parents’ and children’s perceptions of ICARE’s safety, comfort, workout, and usability were assessed. Cardiovascular response, gait and balance outcomes were assessed. RESULTS: No adverse events occurred. Parent’s Visual Analogue Scale (VAS) scores of perceived device safety (range 80–99), workout (range 99–100), and usability (range 75–100) were high, while comfort were 76–80 given commercial harness fit and arm support. Children’s VAS scores all exceeded 89. Comfortable walking velocity, 2-Minute Walk Test, fitness, and Pediatric Balance Scale scores improved post-training, with many outcomes surpassing established minimal clinically important differences. CONCLUSION: Following engagement in moderate- to vigorous-intensity exercise promoting repetitive step-like movements on a specially adapted motor-assisted elliptical, three children with chronic ABI demonstrated improvements in walking, fitness and balance. Future research in community-based environments with a larger cohort of children with ABI is needed.