The Relationship Between Physical Activity and Musculoskeletal Disorders (Using The Rula, GPAQ and Nbm Methods)

Linda Theresia; Gadih  Ranti; Yenny  Widianty; Besta  Rahmasari

doi:10.36418/syntax-literate.v7i11.12175

Linda Theresia Program Studi Teknik Industri, Institut Teknologi Indonesia
Gadih Ranti Program Studi Teknik Industri, Institut Teknologi Indonesia
Yenny Widianty Program Studi Teknik Industri, Institut Teknologi Indonesia
Besta Rahmasari Program Studi Teknik Industri, Institut Teknologi Indonesia

DOI: https://doi.org/10.36418/syntax-literate.v7i11.12175

Keywords: Rapid Upper Limb Assessment, Musculoskeletal Disorders, Global Physical Activity Questionnaire, Nordic Body Map, Furniture Manufacturing Company

Abstract

This research at PT Inspira Multi Karya, a furniture-producing company where most activities are done manually. Lot of physical activities may cause workers to suffer from musculoskeletal disorders (MSD) whose symptom are feelings of pain and discomfort in muscles. Therefore, this study aims to see the relationship between physical activity and MSD complaints and also the sensitivity of tools for improving work systems. Tools to measure physical activity used the Global Physical Activity Questionnaire and tools to measure MSD complaints used Rapid Upper Limb Assessment and Nordic Body Map. The observed operators total 15 people, working at 6 different workstations with different postures. Interesting findings show that there is a significant correlation between physical activity and complaints of musculoskeletal disorders. When physical activity increases, MSD complaints also increase. The research findings show that 60% of operators have a work posture that needs immediate attention to be corrected because it has a high chance of causing MSDs complaints. The body parts that experience the biggest subjective complaints of MSD are the left calf, waist, forearm, back, right hand, and right calf. Mainly urgent repairs need to be done on the press machine (operators work in static postures for more than 10 minutes, with a lifting load of 2 kg-10 kg). Improvements were made by increasing the height of the base of the press machine as high as 50 cm. The improvement of work system can reduce MSD score from 7 to 4 in RULA scale. A comparison of the three methods shows that the RULA is the most suitable methods for analysing MSD in furniture factories because it can analyse upper/lower extreme body postures, both in static and dynamic postures, with repetitive activities, with loads, and carried out for a long time.

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References

Ainsworth, B. E., Haskell, W. L., Leon, A. S., Jacobs Jr, D. R., Montoye, H. J., Sallis, J. F., & Paffenbarger Jr, R. S. (1993). Compendium of physical activities: classification of energy costs of human physical activities. Medicine and Science in Sports and Exercise, 25(1), 71â€“80.

Budiyanto, T., & Pambajeng, T. R. (2022). Work Facility Design of the Ergonomic Tempeh Plastic Wraps Punching Tool Reduces Musculoskeletal Complaints and Working Time (A Case Study at MSME HM Tempe Murni, Ngoto, Yogyakarta). Jurnal Ilmiah Teknik Industri, 21(2), 215â€“224.

Bull, F. C., Maslin, T. S., & Armstrong, T. (2009). Global physical activity questionnaire (GPAQ): nine country reliability and validity study. Journal of Physical Activity and Health, 6(6), 790â€“804.

Choobineh, A. (2004). Posture assessment methods in occupational ergonomics. Hamedan: Fanavaran Publication, 80â€“89.

Choobineh, A., Rahimifard, H., Jahangiri, M., & Mahmoodkhani, S. (2012). Musculoskeletal injuries and their associated risk factors in office workplaces. Iran Occupational Health, 8(4).

Choobineh, A., Tabatabaee, S. H., & Behzadi, M. (2009). Musculoskeletal problems among workers of an Iranian sugar-producing factory. International Journal of Occupational Safety and Ergonomics, 15(4), 419â€“424.

Christogianni, A., Bibb, R., Davis, S. L., Jay, O., Barnett, M., Evangelou, N., & Filingeri, D. (2018). Temperature sensitivity in multiple sclerosis: an overview of its impact on sensory and cognitive symptoms. Temperature, 5(3), 208â€“223.

Esgin, T., Hersh, D., Rowley, K. G., Macniven, R., Glenister, K., Crouch, A., & Newton, R. U. (2021). Physical activity and self-reported metabolic syndrome risk factors in the Aboriginal population in Perth, Australia, measured using an adaptation of the global physical activity questionnaire (gpaq). International Journal of Environmental Research and Public Health, 18(11), 5969.

Fathallah, F. A. (2010). Musculoskeletal disorders in labor-intensive agriculture. Applied Ergonomics, 41(6), 738â€“743.

GÃ³mez-GalÃ¡n, M., CallejÃ³n-Ferre, Ã.-J., PÃ©rez-Alonso, J., DÃaz-PÃ©rez, M., & Carrillo-Castrillo, J.-A. (2020). Musculoskeletal risks: RULA bibliometric review. International Journal of Environmental Research and Public Health, 17(12), 4354.

Herrmann, S. D., Heumann, K. J., Der Ananian, C. A., & Ainsworth, B. E. (2013). Validity and reliability of the global physical activity questionnaire (GPAQ). Measurement in Physical Education and Exercise Science, 17(3), 221â€“235.

Jadhav, G. S., Shinde, G., Sawant, S. M., & Jamadar, V. (2014). Ergonomic evaluation tools RULA and REBA analysis: case study. National Conference on Industrial Engineering and Technology Management (NCIETM) NITIE, Mumbai.

JettÃ©, M., Sidney, K., & BlÃ¼mchen, G. (1990). Metabolic equivalents (METS) in exercise testing, exercise prescription, and evaluation of functional capacity. Clinical Cardiology, 13(8), 555â€“565.

Kamalinia, M., Nasl Saraji, G., Choobineh, A., & Hosseini, M. (2009). Postural loading on upper limbs in workers of the assembly line of an Iranian Telecommunication Manufacturing Company usimg the LUBA technique. Journal of School of Public Health and Institute of Public Health Research, 6(3), 101â€“109.

Keating, X. D., Zhou, K., Liu, X., Hodges, M., Liu, J., Guan, J., Phelps, A., & Castro-PiÃ±ero, J. (2019). Reliability and concurrent validity of global physical activity questionnaire (GPAQ): a systematic review. International Journal of Environmental Research and Public Health, 16(21), 4128.

Kee, D. (2022). Systematic comparison of OWAS, RULA, and REBA based on a literature review. International Journal of Environmental Research and Public Health, 19(1), 595.

Mathews, E., Salvo, D., Sarma, P. S., Thankappan, K. R., & Pratt, M. (2016). Peer reviewed: Adapting and validating the global physical activity questionnaire (GPAQ) for Trivandrum, India, 2013. Preventing Chronic Disease, 13.

Mattioli, S., Brillante, R., Zanardi, F., & Bonfiglioli, R. (2006). Occupational (and non-occupational) risk factors for musculoskeletal disorders. La Medicina Del Lavoro, 97(3), 529â€“534.

McAtamney, L., & Corlett, E. N. (1993). RULA: a survey method for the investigation of work-related upper limb disorders. Applied Ergonomics, 24(2), 91â€“99. https://doi.org/10.1016/0003-6870(93)90080-S

Mohammadfam, I., Kianfar, A., & Afsartala, B. (2010). Assessment of musculoskeletal disorders in a manufacturing company using QEC and LUBA methods and comparison of results. J Iran Occup Health, 7(1), 54â€“60.

Moradi, M., Poursadeghiyan, M., Khammar, A., Hami, M., Darsnj, A., & Yarmohammadi, H. (2017). REBA method for the ergonomic risk assessment of auto mechanics postural stress caused by working conditions in Kermanshah (Iran). Annals of Tropical Medicine and Public Health, 10(3).

Mostaghasi, M., Davari, M., Mollaei, F., Salehi, M., & Mehrparvar, A. (2011). The frequency of musculoskeletal disorders and to assess posture while working as RULA in auto parts manufacturing industry workers. J Occupat Med Special, 3(4), 26â€“32.

Pratiwi, I., & Adhitama, T. (2022). Ergonomic Risk Evaluation to Minimize Musculoskeletal Disorders in SMEs Leather Shoes at Indonesia. Jurnal Ilmiah Teknik Industri, 21(2), 205â€“214.

Restuputri, D. P., Achmad, R. U., Lukman, M., & Masudin, I. (2021). Analysis of Work Posture Using the Muscle Fatigue Assessment (MFA) and Novel Ergonomic Postural Assessment (NERPA). Jurnal Ilmiah Teknik Industri, 20(1), 9â€“20.

Rowshani, Z., Khavanin, A., Mirzaei, R., & Mohseni, M. (2013). Evaluating the Potential of Terminal Sections of Upper Extremity Musculoskeletal Disorders in an Electronic Company. J Qazvin Med Sci, 17(2), 25â€“32.

Rowshani, Z., Mortazavi, S. B., Khavanin, A., Mirzaei, R., & Mohseni, M. (2013). Comparing RULA and Strain index methods for the assessment of the potential causes of musculoskeletal disorders in the upper extremity in an electronic company in Tehran. KAUMS Journal (FEYZ), 17(1), 61â€“70.

Shuval, K., & Donchin, M. (2005). Prevalence of upper extremity musculoskeletal symptoms and ergonomic risk factors at a Hi-Tech company in Israel. International Journal of Industrial Ergonomics, 35(6), 569â€“581.

Sofyan, D. K. (2019). Determination of Musculoskeletal Disorders (MSDs) complaints level with Nordic Body Map (NBM). IOP Conference Series: Materials Science and Engineering, 505(1), 12033.

Xiang, M., Zhang, Z., & Kuwahara, K. (2020). Impact of COVID-19 pandemic on children and adolescentsâ€™ lifestyle behavior larger than expected. Progress in Cardiovascular Diseases, 63(4), 531.

Yazdanirad, S., Khoshakhlagh, A. H., Habibi, E., Zare, A., Zeinodini, M., & Dehghani, F. (2018). Comparing the effectiveness of three ergonomic risk assessment methodsâ€”RULA, LUBA, and NERPAâ€”to predict the upper extremity musculoskeletal disorders. Indian Journal of Occupational and Environmental Medicine, 22(1), 17.

Yi, L. Y., Samat, N., & Muda, W. M. W. (2017). Accelerometer-Measured Physical Activity and its Relationship with Body Mass Index (BMI) and Waist Circumference (WC) Measurements: A Cross-Sectional Study on Malaysian Adults. Malaysian Journal of Nutrition, 23(3).