Study on Muscle Fatigue Property of Human Body in Shoulder Loaded Walking Based on Surface Electromyogram_Journal of Biomedical Engineering

Authors：

 SONGHaiyan ¹ , ZHANGJianguo ² , WANGJun ² , WANGFang ²

1. College of Packaging and Printing Engineering, Tianjin University of Science and Technology, Tianjin 300222, China;
2. College of Mechanical Engineering, Tianjin University of Science and Technology, Tianjin 300222, China;

Corresponding author：

SONGHaiyan, Email: songhaiyan00@126.com

Keywords：

surface electromyogram; weight-bearing walking; muscle; fatigue

DOI：

10.7507/1001-5515.20160072

Video：

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Abstract Full text Figures/Tables Video References Cited by

We carried out study on surface electromyogram (sEMG) signal generated from cluster muscles in trunk and lower limbs on condition of human body walking with heavily burdened shoulder to explore functional status and fatigue property of human muscles and to offer an important reference for finding better ways of loading, improving the performance and design of backpack as well as weight-bearing system more suitable for ergonomics. We measured and obtained surface electromyography signals from the primary muscles clusters in neck, shoulder, back and leg of 20 test recipients loaded with different burdens on their shoulders. The eigenvalue of mean power frequency (MPF) were processed with SPSS 16.0. It could be concluded that with the increase of loading weights, male are more likely to be fatigued due to dramatic decrease of trapezius' MPF. While for the female test recipients, the cervical extensor muscles' MPF dropped significantly and were more easily fatigued. Moreover, there was a remarkable difference in terms of electromyography signal before and after the weight reaches certain limit (P<0.05) . The maximum weight limit loaded on shoulders for man is 12% of the total bodyweight while such limit for woman is just 9%.

Citation： SONGHaiyan, ZHANGJianguo, WANGJun, WANGFang. Study on Muscle Fatigue Property of Human Body in Shoulder Loaded Walking Based on Surface Electromyogram. Journal of Biomedical Engineering, 2016, 33(3): 426-430. doi: 10.7507/1001-5515.20160072 Copy

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1. BIRRELL S A, HASLAM R A. Subjective skeletal discomfort measured using a comfort questionnaire following a load carriage exercise[J]. Mil Med, 2009, 174(2) :177-182.
2. STEVENSON J M, BRYANT J T, REID S A, et al. Development and assessment of the Canadian personal load carriage system using objective biomechanical measures[J]. Ergonomics, 2004, 47(12) :1255-1271.
3. ANDERS C, BROSE G, HOFMANN G O, et al. Evaluation of the EMG-force relationship of trunk muscles during whole body tilt[J]. J Biomech, 2008, 41(2) :333-339.
4. PETER K. The ABC of EMG[M]. USA:Noraxon, 2005.
5. BOBET J, NORMAN R W. Use of the average electromyogram in design evaluation. Investigation of a whole-body task[J]. Ergonomics, 1982, 25(12) :1155-1163.
6. NEUMANN D A, HASE A D. An electromyographic analysis of the hip abductors during load carriage:implications for hip joint protection[J]. J Orthop Sports Phys Ther, 1994, 19(5) :296-304.
7. RAMADAN M Z, AL-SHAYEA A M. A modified backpack design for male school children[J]. Int J Ind Ergon, 2013, 43(5) :462-471.
8. SIMPSON K M, MUNRO B J, STEELE J R. Backpack load affects lower limb muscle activity patterns of female hikers during prolonged load carriage[J]. Journal of Electromyography and Kinesiology, 2011, 21(5) :782-788.
9. SILDER A, DELP S L, BESIER T. Men and women adopt similar walking mechanics and muscle activation patterns during load carriage[J]. J Biomech, 2013, 46(14) :2522-2528.
10. 李青青. 疲劳和步行的表面肌电图研究[D].重庆:第三军医大学,2005.
11. 黄萍, 齐进,邓廉夫,等.正常青年人自然步态下肢肌的表面肌电图分析[J].中国组织工程研究,2012,16(20) :3680-3684.
12. 王珺.人体背部负重行走的表面肌电信号特性研究[D].天津:天津科技大学,2014.
13. 张祖怀.基于人体生理信号的驾驶疲劳研究方法及其应用[D].哈尔滨:哈尔滨工业大学,2006.
14. 张立.一种简易监测运动强度和评定运动能力的方法-RPE等级值[J].武汉体育学院学报,1995,108(1) :41-45.
15. 寻红星,满明辉,冯晴.优秀男子散打运动员低氧环境下心率及主观体力感觉等级变化特征研究[J].搏击·武术科学,2011,8(1) :62-65.
16. 高慧敏.包呼格吉乐图.主观强度感等级评定效果的量化分析[J].内蒙古师范大学学报,2011,40(1) :99-103.

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