Individual Risk Assessment (ERIN)

2022 ◽  
pp. 1550-1576
Author(s):  
Yordán Rodríguez

Work-related musculoskeletal disorders (WMSDs) prevention has become a global phenomenon and nowadays is one of the main challenges that ergonomics and work safety professionals face. The evaluation of risk factors exposition related to the WMSDs is one of the main activities that are performed for prevention. In order to accomplish it, many ergonomic assessment methods have been developed. In this chapter, an ergonomic observational individual risk assessment (ERIN) method is presented, which is distinguished for being easy to learn, apply, and it needs short training time. Results on the reliability, validity, and usability studies of ERIN are included too, as well as an example of how it can be used in the workplace intervention process.

Author(s):  
Yordán Rodríguez

Work-related musculoskeletal disorders (WMSDs) prevention has become a global phenomenon and nowadays is one of the main challenges that ergonomics and work safety professionals face. The evaluation of risk factors exposition related to the WMSDs is one of the main activities that are performed for prevention. In order to accomplish it, many ergonomic assessment methods have been developed. In this chapter, an ergonomic observational individual risk assessment (ERIN) method is presented, which is distinguished for being easy to learn, apply, and it needs short training time. Results on the reliability, validity, and usability studies of ERIN are included too, as well as an example of how it can be used in the workplace intervention process.


2013 ◽  
Vol 3 (1) ◽  
Author(s):  
Sonja Pavlovic-Veselinovic

Work-related musculoskeletal disorders (WRMSDs) are becoming a major problem in world economy. There is many and various risk factors that contribute to their development. Repetitive work is one of the most important risk factor. In this paper is described the body's response to repetitive strain, existing methods for evaluation/ quantification of repetition as risk factor for musculoskeletal disorders. The author proposes a new multidimensional scale for rating the level of risk of repetitive work, which may be useful in the risk assessment of the workplace. Key words: ergonomics, work related musculoskeletal disorders, risk assessment.


2018 ◽  
Vol 35 (1) ◽  
pp. 23-37 ◽  
Author(s):  
Carolyn M. Sommerich ◽  
Kevin D. Evans ◽  
Steven A. Lavender ◽  
Elizabeth Sanders ◽  
Sharon Joines ◽  
...  

For more than two decades, surveys of imaging technologists have consistently reported high prevalence of work-related musculoskeletal discomfort (WRMSD). Yet, workplace intervention research involving sonographers is limited. In this study, a transdisciplinary team of researchers used a participatory approach to work with diagnostic medical sonographers (DMS) and vascular technologists (VT) to identify needs and opportunities for developing new approaches to work that will reduce sonographers’ exposures to WRMSD risk factors. In this paper, we describe the approach and the resulting identified needs. We also describe the prototyping and testing of two work approaches that target specific needs of DMS and VT, respectively. We would like designers, manufacturers, engineers, and ergonomists, in collaboration with sonographers and their managers, to recognize this area of opportunity and come together to apply their knowledge of biomechanics and design in developing useful and usable workplace interventions (solutions) to reduce sonographers’ WRMSD risk factor exposure.


Author(s):  
Gh Halvani ◽  
H Fallah ◽  
R Jafari Nodoushan ◽  
A Haji hosseini ◽  
H Fallah zadeh ◽  
...  

Introduction: The condition of work in handloom weaving industries cause musculoskeletal (MSDS) disorders which are the most prevailing professional problem among weavers. The aim of this research was to determine ergonomic risk factors in the occurrence of musculoskeletal disorders. Method: The present study was done through descriptive cross-section method to assess the risk factors of work-related musculoskeletal disorders of the weavers. Our data collection tools were: demographic questionnaire, job Nordic questionnaire and body map prevalence of musculoskeletal disorders to decide the rate of symptoms. Then, we took film from handloom weavers while wearing to know the condition of their bodies. After reviewing the films, the posture marks was assigned to each duty using the Ergo Intelligence software. At the end, data were analyzed via one-way ANOVA and T-test using SPSS ver.20. Results: The results showed that the most frequent incidence of pain in different organs of the body during last year belonged to neck and shoulder. The average OCRA was 3.65.This indicated that most of the handloom weavers (64.4%) are at high risk. Conclusion: According to the re According to the results of OCRA indices, weavers are at high risk for musculoskeletal injuries, indicating their poor working environment and working conditions, indicating the need for corrective actions.


Author(s):  
Ninica Howard ◽  
Stephen Bao ◽  
Jia-Hua Lin

Background According to Washington State workers’ compensation data, construction as an industry ranked first in its compensable claims rate of work-related musculoskeletal disorders (WMSD) injuries (Anderson, Adams, Bonauto, Howard, & Silverstein, 2015). Many current physical job assessment tools available for ergonomics practitioners to evaluate work-related musculoskeletal disorder risks of the back, shoulder, hand/wrist and knee are mostly of general purposes. This project sought to identify risk factors pertinent to given industries. The construction industry is used as an example in this demonstration. Approach Four hundred thirty-six construction employees from sixteen companies in the State of Washington were observed and evaluated using commonly used exposure assessment tools: Washington State Checklists (Washington State Department of Labor and Industries, 2004a, b), Strain Index (Moore & Garg, 1995), American Congress of Governmental Industrial Hygienists Lifting Threshold Limit Values (ACGIH, 2005), Liberty Mutual Manual Materials Handling Guidelines (Snook & Ciriello, 1991), Quick Ergonomics Checklist (David et al, 2005; David et al, 2008), and the European Union Vibration Directives (EU, 2002). The physical risk factors that were evaluated are those that have been associated with WMSDs. These risk factors included: awkward postures of the back, shoulder, hand/wrist; lifting; pushing, pulling, carrying; high hand forces (pinching, griping); highly repetitive motions of the hand/wrist; repeated impacts of the hand or knee; vibration (whole body, hand); and any specific tasks with potential WMSD risks but were otherwise not covered in any of the common assessment tools. Following the results of the exposure assessments, a comprehensive physical job evaluation checklist was created by retaining items sensitive to differentiate levels of risks within jobs in the construction industry. From our job evaluations, WMSD risk factors may not be the same between industry groups and as such, industry-specific tools may simplify the evaluation process by focusing on unique exposures. The final Physical Job Evaluation Checklist is currently presented in the form of a spreadsheet available for download and use ( www.lni.wa.gov/Safety/Research/Wmsd/WMSD2010.asp ). Accompanying reference guide is also available to provide instructions how data fields can be obtained or measured. The user can print out a paper form first, record the assessment at a job site, then enter the necessary data into the spreadsheet. The algorithm then generates all the evaluation reports and highlight areas that should receive attention. The goals are to raise general awareness of industry-specific physical factors that contribute to work-related musculoskeletal disorders (WMSDs), and help identify specific aspects of the job that pose a risk for back, shoulder, hand/wrist and knee injury common in the construction industry. Using the Physical Job Evaluation Checklists can help prioritize injury prevention efforts by identifying the jobs, or the aspects of the job that pose the greatest risk of injury. It is also possible to evaluate the impact that proposed jobsite changes have on WMSD risk (before and after exposures). And finally, it is possible to compare exposures between workers performing the same or different tasks. Limitation Due to the study design, the Physical Job Evaluation Checklist IS NOT intended to predict the occurrence of WMSDs or to provide guidance or suggestions on how to mitigate exposure to risk factors of WMSDs.


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