Sit-stand endoscopic workstations equipped with a wearable chair

Comparing Mental Strain and Subjective Sensations With and Without a Wearable Chair While Performing Simulated Suturing Tasks

Introduction Prolonged standing during surgery is a cause of musculoskeletal disorders in surgeons. Wearable chairs have reportedly reduced musculoskeletal strain effectively when used in industry. However, discomfort and instability issues may remain. This study examines whether using a wearable chair for surgical procedures imposes negative effects, such as mental or physical strain on surgeons prior to its clinical implementation. Methods This prospective cross-over study compared mental strain and subjective sensations in simulated suturing tasks with and without using Archelis®, a wearable chair (Archelis Inc, Yokohama, Japan). Six surgeons participated in the study. Mental strain was examined using heart rate variations calculated during tasks. Four subjective sensations (fatigue, comfort, balance, and workability) after each task and differences in body localized pain pre- and post-task were compared using a 10 centimetres (cm)-visual analog scale (VAS) score questionnaire. Results Results showed no significant differences in mental strain nor subjective sensations with or without the wearable chair. The mean VAS scores for all four subjective sensations with the wearable chair were relatively positive. There was a slight yet insignificant post-task increase in VAS mean scores for body-localized pain in the lower legs. Conclusions Significant negative effects on surgeons from the wearable chair were not observed during simulated suturing procedures. This demonstrates no major barriers in the initial phases of wearable chairs integration into the surgery environment.

[Design and support performance evaluation of medical multi-position auxiliary support exoskeleton mechanism]

Aiming at the status of muscle and joint damage caused on surgeons keeping surgical posture for a long time, this paper designs a medical multi-position auxiliary support exoskeleton with multi-joint mechanism by analyzing the surgical postures and conducting conformational studies on different joints respectively. Then by establishing a human-machine static model, this study obtains the joint torque and joint force before and after the human body wears the exoskeleton, and calibrates the strength of the exoskeleton with finite element analysis software. The results show that the maximum stress of the exoskeleton is less than the material strength requirements, the overall deformation is small, and the structural strength of the exoskeleton meets the use requirements. Finally, in this study, subjects were selected to participate in the plantar pressure test and biomechanical simulation with the man-machine static model, and the results were analyzed in terms of plantar pressure, joint torque and joint force, muscle force and overall muscle metabolism to assess the exoskeleton support performance. The results show that the exoskeleton has better support for the whole body and can reduce the musculoskeletal burden. The exoskeleton mechanism in this study better matches the actual working needs of surgeons and provides a new paradigm for the design of medical support exoskeleton mechanism.

Musculoskeletal injury and ergonomics in pediatric gastrointestinal endoscopic practice

BACKGROUND AND AIMS

Endoscopy-related musculoskeletal injuries (ERI) are increasingly prevalent in adult endoscopists; however, there are no studies that have evaluated ERI and ergonomic practices among pediatric gastroenterologists and trainees. We aimed to examine the prevalence, nature, and impact of musculoskeletal injuries in pediatric endoscopic practice and assess attitudes towards ergonomic training needs.

METHODS

Pediatric gastroenterologists and trainees were surveyed to collect information on endoscopist and practice characteristics, the prevalence, nature, and impacts of ERI, ergonomics strategies employed in practice, previous ergonomics training, and perceptions of ergonomics training (elicited using a 1 (strongly disagree) to 5 (strongly agree) Likert scale). Responses were analyzed using descriptive statistics, and bivariate analyses were conducted to explore correlates of ERI.

RESULTS

Among 146 survey respondents, 50 (34.2%) were trainees and 96 (65.8%) were practicing endoscopists with a mean duration of endoscopic practice of 9.7 ± 9.4 years. Overall, 55.6% (n = 80/144) reported experiencing a musculoskeletal injury, with 34.7% (n = 50/144) reporting an injury attributable to endoscopy. Among those with ERI, the most common sites were the neck/upper back (44.0%), thumb (42.0%), hand/finger (38.0%), and lower back (36.0%). Women were more likely to experience ERI compared to men (43.4% vs. 23.4%; p = 0.013). Only 20.9% of participants had formal training in ergonomics. Respondents reported being motivated to implement practice changes to prevent ERI (4.41 ± 0.95) and perceived ergonomics training as important (4.37 ± 0.96).

CONCLUSIONS

Pediatric endoscopists, and particularly women, experience significant ERI; however, formal endoscopy ergonomics training is rare. Improved ergonomics training is needed for both practicing pediatric gastroenterologists and trainees.

Effects of endoscopy-related procedure time on musculoskeletal disorders in Japanese endoscopists: a cross-sectional study

Background and study aims  There has been little evidence assessing the prevalence of musculoskeletal disorders (MSDs) among endoscopists performing recent diagnostic and therapeutic endoscopic procedures requiring prolonged procedural times. We evaluated the prevalence and identified the risk factors for developing MSDs, focusing on procedural time. Methods  An electronic survey of endoscopists (n = 213) employed at the Nagoya University Hospital and its affiliated hospitals was developed by a multidisciplinary group.  Results  Of the 110 endoscopists (51.6 %) who responded to the survey, eighty-seven endoscopists (79.1 %) had experienced endoscopy-related MSDs during the previous 1 year, and 49 endoscopists (44.5 %) had experienced these MSDs during the previous week. Nineteen endoscopists (17.3 %) reported absence from work due to severe MSDs. The most frequent sites of MSDs were neck, low back, and shoulders. Logistic regression analyses showed that longer upper endoscopic submucosal dissection ESD, (odds ratio: 5.7; 95 %CI: 1.3-25.0), lower ESD (odds ratio 4.9; 95 %CI: 1.1-22.0), and lower gastrointestinal treatment (odds ratio: 5.6; 95 %CI: 2.3-13.3) were significantly associated with the development of MSDs in the low back area. Moreover, longer lower ESD (odds ratio: 5.0; 95 % CI: 1.2-20.2) was a risk factor for symptoms in the left shoulder. Conclusion  This study suggests a correlation between the volume of therapeutic endoscopic procedures including ESD and the risk of MSDs mainly low back area and left shoulder. Managing monthly total endoscopic time, in light of organizational ergonomics, could contribute to minimizing such risks of endoscopy-related MSDs.