日常生活及工作場所由於環境限制或物件特徵，人們會利用單手進行搬運行為。過去研究文獻針對單手抬舉作業，多以坐姿水平面抬舉及腰椎受力情形進行探討，對於站姿垂直面單手抬舉及手部肌群施力負荷之影響，其探討仍為少數。
本研究利用肌電訊號量測模組及三軸力荷重計，收集15位受測者上肢肌群肌電訊號(Electromyography, EMG)、手部抬舉時產生之三軸作用力等資料。抬舉型態包括單手抬舉5種型態及雙手抬舉1種型態。利用實驗室開發的Motion Processor軟體，處理並計算各肌群EMG之均方根及%MVC。三軸作用力方面，則計算其合力與峰值，以觀察三軸作用力之趨勢。
結果顯示，抬舉起始點之改變，對於肱橈肌與肱三頭肌EMG有顯著差異。起始點在右側的抬舉型態，可降低肱橈肌施力負荷約12%MVC。作業型態改變對於三軸作用力之影響，則無顯著差異。單手與雙手抬舉作業的比較，研究發現雙手抬舉峰值會平均分攤於雙手，而單手抬舉之峰值作用力，只能靠作業手承受此一負荷，因此承受作用力較大。因此，從事單手抬舉作業，建議抬舉起始位置應位於身體右側，抬舉時避免軀幹扭轉，同時應減少物件重量，降低手部承受之峰值負荷。

People sometimes use single hand to lift objects at worksites or in daily life due to the environment constraint or object characteristics. The topics of seated horizontal manual lifting and lumbar loads for one-handed lifting task were the main focus in the literature. However, only few studies have been emphasized on the issues of vertical one-handed lifting with erect postures and muscular strain on hand-arm-shoulded system.
An experiment was conducted to collect the biomechanical behavior of upper extremities in the laboratory where two 3-component force transducers and EMG system were performed. Fifteen subjects were recruited. The software of Motion Processor developed in the laboratory was used to compute the root mean square and percentage of maximum voluntary contraction (MVC) for the tested muscles. The resultant and peak forces obtained from 3-component force transducers were also calculated and observed.
The EMG results showed that there was statistically significant difference between brachioradialis and triceps brachii when the initial lifting location was changed. The decrease about 12% of MVC for brachioradialis was found when the initial lifting location was on the right side of the body. No significant difference for 3-component forces was shown when the lifting patterns were changed. The peak force for one-handed lifting was larger than the average peak values obtained from two-handed lifting. It is recommended that the initial lifting location showed be on the right side of the body and no trunk twisting when lifting is performed. In addition, the object weight showed be decreased to reduce the loads on the hands.

目 錄
誌 謝 I
摘 要 II
Abstract III
表目錄 VII
圖目錄 VIII
第一章 緒論 1
1.1 研究背景與動機 1
1.2 研究目的 4
1.3 研究架構 5
第二章 文獻回顧 7
2.1 人工物料搬運 7
2.1.1肌肉骨骼傷害 7
2.1.2常見評估方法 8
2.1.3 NIOSH抬舉指引 10
2.1.4單手抬舉作業 12
2.1.5單手抬舉與雙手抬舉作業之比較 17
2.2 肌電訊號 20
2.2.1肌電訊號之強度與頻率分佈 20
2.3 三軸力荷重計 21
第三章 研究方法與步驟 23
3.1受測者 23
3.2實驗設備 24
3.2.1實驗用箱子 24
3.2.2生理訊號量測系統 25
3.2.3三軸力荷重計 26
3.2.4 主觀施力評估（Rating of Perceived Exertion, RPE） 27
3.3實驗因子 28
3.3.1實驗自變項 28
3.4實驗程序 31
3.5資料分析 32
第四章 實驗結果 36
4.1單手抬舉時肌肉施力及三軸力荷重計表現 36
4.1.1單手抬舉肌肉EMG 36
4.1.2單手抬舉三軸作用力、合力及峰值 42
4.2單手與雙手抬舉肌肉施力及三軸力荷重計表現 46
4.2.1單手與雙手抬舉肌肉EMG 46
4.2.2單手與雙手抬舉之三軸作用力、合力及峰值 48
4.3受測者主觀評量 52
第五章 討論 54
5.1單手抬舉對肌肉施力、手部作用力之影響 54
5.1.1單手抬舉型態改變，對肌群EMG影響 54
5.1.2單手抬舉型態改變，對手部作用力之影響 58
5.2單手與雙手抬舉時對群施力、手部作用力之影響 60
5.3受測者主觀施力評估之影響 61
第六章 結論與建議 63
6.1結論 63
6.2建議 64
參考文獻 65
附錄一 受測者須知及實驗同意書 75
附錄二 主觀知覺施力評估表（RPE） 76
表目錄
表3.1相關人體計測資料（n=15） 24
表3.2量測肌肉位置 26
表3.3單手抬舉的物件移動方向 28
表3.4單手抬舉各作業型態之代稱 28
表4.1各肌群在不同作業型態之EMG平均値及標準差(n=15) 37
表4.2各肌群在不同抬舉起始位置之EMG平均數及標準差(n=15) 39
表4.6不同作業型態下，三軸力及合力之平均值及標準差 (n=15) 44
表4.7抬舉時手臂偏移型態之作用力及峰值差異百分比(n=15) 45
表4.8三軸作用力、合力及峰值於不同作業型態下單因子變異數分析 45
表4.9各肌群在單手與雙手抬舉之EMG平均値及標準差(n=15) 47
表4.10單手及雙手抬舉之EMG差異百分比(n=15) 47
表4.11各肌群在不同作業型態之EMG變異數分析彙整表 48
表4.12單手及雙手抬舉時三軸力、合力及峰值之平均值及標準差(n=15) 50
表4.13單手及雙手抬舉之作用力、合力及峰值差異百分比 50
表4.14單手及雙手抬舉時三軸作用力、合力及峰值變異數分析 51
表4.15 y軸及峰值作用力在單手及雙手抬舉型態之Duncan''s multiple range test 52
表4.16受測者主觀施力評量表(RPE)平均數及標準差(n=15) 53
表5.1物重與峰值之比率表(峰值/物重) 60
圖目錄
圖1.1研究流程架構 6
圖2.1 Strasser研究手臂移動示意圖 (Strasser et al., 1999) 15
圖2.2 Kothiyal研究手臂移動示意圖 (Kothiyal et al., 2001) 16
圖3.1本研究自製箱子與手把、三軸荷重計之結合圖 25
圖3.2肌電訊號量測模組（Biopac System, Inc., MP150） 26
圖3.3肌群量測位置圖 26
圖3.4三軸力荷重計(LSM-B-500NSA1, Kyowa) 27
圖3.5 InstruNet 資料擷取盒 27
圖3.6物件置於在正前方，單手向前、向右及向左抬舉 29
圖3.8自由式抬舉 30
圖3.9 Motion Processor軟體 33
圖4.1各種作業型態之肌群EMG 38
圖4.2各肌群在不同作業型態之EMG 39
圖4.3單手抬舉不同作業型態之三軸作用力以及合力圖 43
圖4.4單手、雙手抬舉之三軸作用力及合力圖 49
圖5.1抬舉時肱二頭肌及肱三頭肌EMG情形 55
圖5.2單手抬舉上肢動作圖 55

王茂駿，王明揚，林昱呈，「台灣地區人體計測資料庫手冊」，中華民國人因工程學會，新竹(2002)。
行政院勞工委員會，「勞動情勢統計要覽」(2008)。
行政院勞工委員會，「勞動統計月報」，第189期(2008)。
行政院勞委會勞工安全衛生研究所，「台灣地區勞工人體計測資料庫」，臺北(1990)。
吳水丕、許芳榮，「非對稱提舉方式對男性提舉能力之效應」，勞工安全衛生研究季刊，第11卷第4期，頁251-260 (2003)。
李正隆，「勞工下背痛預防研究-三度空間動態評估模式之建立」，勞工安全衛生研究所研究報告，IOSH84-H323，臺北(1995)。
李正隆、李永輝、黃証柳、陳志勇，「房屋建築業勞工肌肉骨骼傷害問題調查研究」，勞工安全衛生研究季刊，第11卷第3期，頁227-236 (1993)。
李正隆、林彥輝，「勞工下背痛預防研究-三度空間動態評估模式驗證」，勞工安全衛生研究所研究報告，IOSH85-H323，臺北(1996)。
李開偉，人因工程：基礎與應用第二版，全華科技圖書股份有限公司，臺北(2000)。
周有禮、蘇芳慶、周伯禧、林啟禎、林聖哲、黃國峰，「具生物回饋之下肢受力量測復健系統之研發」，行政院國家科學委員會，NSC92-2218-E309-001，臺北(2003)。
林久翔，「抬舉速度生理成本之研究」，行政院國家科學委員會專題研究計畫成果報告(NSC92-2213-E-033-021)，臺北(2003)。
林久翔、王順正、陳志勇、葉文裕，「人工物料搬運作業分析與評估：實地研究」，勞工安全衛生研究季刊，第8卷第3期，頁285-298 (2000)。
林婷瑩，「雙手與單手伸及物對中風患者軀幹動作影響之運動學分析」，碩士論文，高雄醫學大學行為科學研究所，高雄(2005)。
張家豪，「脊椎活動度量測系統之研究開發」，行政院國家科學委員會，NSC95-2622-E003-002-CC3，臺北(2006)。
張嘉玫，「理容業上肢肌肉骨骼危害暴露量化分析」，碩士論文，朝陽科技大學工業工程與管理系，臺中(2007)。
許勝雄、彭游、吳水丕，人因工程第三版，滄海書局，台北 (2004)。
陳志勇、陳協慶，「上肢重複性傷害危險因子現場監測技術開發」，勞工安全衛生研究所研究報告，IOSH91-H345，臺北(2002)。
陳志勇、盧士一，「平面與斜坡步道之步態特徵研究」，勞工安全衛生研究所研究報告，IOSH95-H316，臺北(2006)。
陳秋蓉，「世界主要國家職業災害統計分析(三)」，勞工安全衛生研究所研究報告，IOSH90-M323，臺北(2002)。
游志雲，「手腕部施力資料值規範」，勞工安全衛生研究所研究報告，IOSH89-H122，臺北(2000)。
黃正龍，「輔助搬運背帶對抬舉瞬間手部施力之影響」，碩士論文，中原大學工業工程學系，桃園(2001)。
黃翠華，「握持姿勢、握持物體重量對握力之影響」，碩士論文，中華大學工業工程與管理系，新竹(1999)。
廖欣怡，「作業面高度對於勞工上肢重複性作業之生理負荷評估」，碩士論文，朝陽科技大學工業工程與管理系，臺中(2004)。
趙國竣，「製造業上肢肌肉骨骼危害暴露與重複性危害因子探討」，碩士論文，朝陽科技大學工業工程與管理系，臺中(2005)。
劉紋君，「單手揮拍擊球練習對國小低年級學童兩側遷移之研究」，碩士論文，國立嘉義大學體育與健康休閒研究所，嘉義(2005)。
蔡宜宏，「單手接球動作相關訊息與時宜控制之探討」，碩士論文，國立新竹教育大學體育學系，新竹(2005)。
蔡秉昇，「負重移動角度、抬舉高度與頻率對非對稱抬舉能力影響之研究」，碩士論文，華梵大學工業管理學系，臺北 (2002)。
鄭誠功、林燕慧、葉文裕、陳志勇，「下背痛之生物力學評估與預防：以鞋廠從業人員為例」，勞工安全衛生研究季刊，第11卷第1期，頁45-52 (2003)。
閻嘉義，「鋼纖維混凝土梁柱接頭受反覆載重作用下之行為」，行政院國家科學委員會，NSC83-0410-E005-014，臺北(1994)。
應宜雄、陳志勇，「以生物力學法評估勞工下背傷害之研究—檢核表之製作」，勞工安全衛生研究所研究報告，IOSH87-H334，臺北(2001)。
戴基福、楊瑞鐘、葉文裕，「受雇者工作環境安全衛生狀況認知調查」，勞工安全衛生研究所研究報告，IOSH90-H304，臺北(2001)。
Allread, W.G., Marras, W.S., and Parnianpour, M., “Trunk kinematics of one-handed lifting, and the effects of astmmetry and load weight”, Ergonomics, Vol. 39, pp. 322-334 (1996).
Armstong, T.J., Marshall, M.M., Martin, B.J., Foulke, J.A., Grieshaber, D.C., and Malone, G. “Exposure to forceful exertions and vibration in a foundry”, International Journal of Industrial Ergonomics, Vol. 30, pp. 163-179 (2002).
Basmajian, J.V., De Luca, Muscles Alive: Their functions revealed by electromyography 5th Edition. Williams and Wilkins, Baltimore U.S.A (1985).
Bautista, M.A., de Arellano-Lopez, A.R., Martinez-Fernandez, J., Bravo-Leon A., and Lopez-Cepero J.M., “Optimization of the fabrication process for medium density fiberboard (MDF)-based biomimetic SiC”, Int. Journal of Refractory Metals & Hard Materials, Vol.27, pp. 431-437 (2009).
Bernard, T.M., Ayoub, M.M., and Lin, C.J., “Evaluation of a biomechanical simulation model for sagittal plane lifting”, International Journal of Industrial Ergonomics, Vol. 24, pp. 157-171 (1999).
Bobick, T.G., Belard, J.L., Hsiao, H., and Wassell, J.T., “Physiological effects of back belt wearing during asymmetric lifting”, Applied Ergonomics, Vol. 32, pp. 541-547 (2001).
Brown, H., Paul, L., Hislop, J., and McFadyen, A., “Erector spinae activity during three metjods of lifting a baby car seat in postnatal women and matched controls”, Physiotherapy, Vol. 90, pp. 204-209 (2004).
Burton, A.K., “Spinal strain from shopping bags with and without handles”, Applied Ergonomics, Vol.17, No.1, pp. 19-23 (1986).
BystrÖm, S., and Fransson-Hall, C., “Ptability of intermittent handgrip constractions based on phys response”, Human Factors, Vol.36, No.1, pp. 158-171 (1994).
BystrÖm, S., and Kilbom, Å., “Biologic response in the forearm during and after intermittent isometric handgrip”, European Journal of Applied Physiology, Vol.60, pp. 457-466 (1990).
Chen, H.J., Lin, C.J., and Huang, C.L. “Effects of a new industrial lifting belt on back muscular activity, hand force, and body stability during symmetric lifting”, Industrial Health, Vol.44, pp. 493–502 (2003).
Chen, Y.L., “Changes in lifting dynamics after localized arm fatigue”, International Journal of Industrial Ergonomics, Vol. 25, pp. 611-619 (2000).
Chung, H.C., Wang, M.J., “The effects of container design and stair climbing on maximal acceptable lift weight, wrist posture, psychophysical, and physiological responses in wafer-handling tasks”, Applied Ergonomics, Vol. 32, pp. 593-598 (2001).
Cook, T.M., Mann, S., and Lovested, G.E., “Dynamic comparison of the Two-hand stoop and assisted One-hand lift methods”, Journal of Safety Research, Vol. 21, pp. 53-59 (1990).
Danz M.E., “The effects of speed, frequency, and load on measured hand forces for a floor to knucjle lifting task.”, Ergonomics, Vol. 35, pp. 833-843 (1992).
De Luca, C.J., “The use of surface electromyography in Biomechanic”, Journal of Applied Biomechanics, Vol. 13, pp. 135-163 (1997).
Dempsey, P.G., “A survey of lifting and lowering tasks”, International Journal of Industrial Ergonomics Vol. 31, pp. 11-16 (2003).
Dolan, P., Adams, M.A., “Repetitive lifting tasks fatigue the back muscles and increase the bending moment acting on the lumbar spine”, Journal of Biomechanics, Vol. 31, pp. 713-721 (1998).
Ferguson, S.A., Marras, W.S., “A literature review of low back disorder surveillance measures and risk factors”, Clinical Biomechanics, Vol. 12, No. 4, pp. 211-216 (1997).
Gagnon, M., Delisle, A., and Desjardins, P., “Biomechanical differences between best and worst performances in repeated free asymmetrical lifts”, International Journal of Industrial Ergonomics, Vol. 29, pp. 73-83 (2002).
Gall, B., Parkhouse, W., “Changes in physical capacity as a function of age in heavy manual work”, Eegonomics, Vol. 47, No. 6, pp. 671–687 (2004).
Garg, R., Saxena, U., “Maximum frequency acceptable to femle workers for one-handed lifts in the horizontal plane”, Ergonomics, Vol. 25, pp. 839-853 (1982).
Habes, D., Carlson, W., and Badger, D., “Muscle fatigue associated with repetitive arm lifts: effects of height, weight and reach”, Ergonomics, Vol. 28, pp. 471-488 (1985).
Hagg, G.M., Kadefors, R., “EMG alterations at sustained contractions with special emphasis on applications in ergonomics” In: Kumar, S., Mital, A. (Eds.), Electromyo graphy in Ergonomics. Taylor & Francis, London, UK, pp. 1-177
Hermens, H.J., V.Bruggen, T.A.M., Baten, C.T.M., Rutten, W.L.C., and Boom, H.B.K., “The median frequency of the surface EMG power spectrum in relation to motor unit firing and action potential properties”, Journal of Electromtography and Kinesiology, Vol. 2, pp.15-25 (1992).
Hsiang, S.M., Brogmus, G.E., and Courtney, “Low back pain (LBP) and lifting technique – a review”, International Journal of Industrial Ergonomics, Vol. 19, pp.59-74 (1997).
Jäger, M., Lttmann, A., “Critical survey on the biomechanical criterion in the NIOSH method for the design and evaluation of manual lifting tasks”, International Journal of Industrial Ergonomics Vol. 23, pp. 331-337 (1999).
Kingma, I., de Looze, M.P., Toussaint, H.M., Klijnsma, H.G., and Bruijnen, T.B.M., “Validation of a full body 3-D dynamic linked segment model”, Human Movement Science, Vol. 15, pp. 833-860 (1996).
kingma, I., van Dieën, J.H., “Lifting over an obstacle: effects of one-handed lifting and hand support on trunk kinematics and low back loading”, Journal of Biomechanics, Vol. 37, pp. 249-255 (2004).
Kothiyal, k., Kayis, B., “Workplace layout for seated manual handling tasks: an electromyography”, International Journal of Industrial Ergonomics, Vol. 27, pp. 19-32 (2001).
Kumar, S., “Development of predictive equations for lifting strengths”, Applied Ergonomics, Vol. 26, pp. 327-341 (1995).
Kumar, S., “The physiological cost of three different methods of lifting in sagittal and lateral planes”, Ergonomics, Vol.27, 425-433 (1984).
Lee, T.H., “Minimal acceptable handling time intervals for lifting and lowering tasks”, Applied Ergonomics, Vol. 34, pp. 629-634 (2003).
Lee, T.H., “Static lifting strengths at different exertion heights”, International Journal of Industrial Ergonomics, Vol. 34, pp. 263-269 (2004).
Li, K.W., Yu, R.F., and Han, X.L., “Physiological and psychophysical reponses in handling maximum acceptable weights under different footwear-floor friction conditions”, Applied Ergonomics, Vol. 38, pp. 259-265 (2007).
Mackinnon, S.N., “Effects of standardized foot positions during the execution of a submaximal pulling task”, Ergonomics, Vol. 45, No. 4, pp.253-266 (2002).
Mital, A., “Comprehensive maximum acceptable weight of lift database for regular 8-hour work shifts”, Ergonomics, Vol. 27, No. 11, pp. 1127-1138 (1984).
Mital, A., Nicholson, A.S., and Ayoub, M.M., A guide to manual materials handling, Taylor and Francis, London, UK (1993).
Nussbaum, M.A., Chaffin, D.B., Stump, B.S., Baker, G., and Foulke, J., “Motion times, hand forces, and trunk kinematics when using material handling manipulators in short-distance transfers of moderate mass objects”, Applied Ergonomics, Vol. 31, pp. 227-237 (2000).
Plamondon, A., Delisle, A., Trimble, K., Desjardins, P., and Rickwood, T., “Manual Materials Handling in Mining: The effect of rod heights and foot positions when lifting “In-the-hole” drill rods”, Applied Ergonomics, Vol. 37, pp. 709-718 (2006).
Plamondon, A., Gagnon, M., and Desjardins, P., “Validation of two 3-D segment models to calculate the net reaction forces and moments at the L5/S1 joint in lifting”, Clinical Biomechanics, Vol. 11, pp. 101-110 (1996).
Shih, Y.C., Wang, M.J., “Psychophysical evaluation of diameter and angle of container handles”, International Journal of Industrial Ergonomics, Vol.19, pp.437-444 (1997).
Shin, G., Nance, M.L., and Mirka, G.A., “Differences in trunk kinematics and ground reaction forces between older and younger adults during lifting”, International Journal of Industrial Ergonomics, Vol. 36, pp. 767-772 (2006).
Shin, H.J., Kim, J.Y., “Measurement of trunk muscle fatigue during dynamic lifting and lowering as recovery time changes”, International Journal of Industrial Ergonomics, Vol. 37, pp. 545-551 (2007).
Shin, Y.I., Kimitaka, N., Hideo, Y., and Tatsuyuki, O., “Differential angle-dependent modulation of the long-latency stretch reflex responses in elbow flexion synergists”, Journal of Electromyography and Kinesiology, Vol.10, pp. 135–142 (2000).
Snook, S.H. “The design of manual handling tasks”, Ergonomics, Vol. 21, pp. 963-985 (1978).
Splittstoesser, R.E., Yang, G., Knapik, G.G., Trippany, D.R., Hoyle, J.A., Parul Lahoti, Sahika Vatan Korkmaz, Sommerich, C.M., Lavender, S.A., and Marras, W.S., “Spinal loading during manual materials handling in a kneeling posture”, Journal of Electromyography and Kinesiology, Vol. 17, pp. 25-34(2008).
Strasser, H., Electromyography of upper extremity muscles and ergonomic applications. In: Kumar, S., Mital, A. (Eds.), Electromyography in Ergonomics. Taylor and Francis, London, New York, pp. 183-226 (1996).
Strasser, H., GroB, E., and Keller, E., Electromyographic evaluation of the physical load of the left hand-arm-shoulder system during simulated work at eight different cash register arrangements. In: Karwowski, W., Yates, J.W. (Eds.), Advances in Industrial Ergonomics and Safety III. Taylor and Francis, London, New York, pp. 457-463 (1991).
Strasser, H., Keller, E., “Local muscular strain dependent on the direction of horizontal arm movements”, Ergonomics, Vol. 32, pp. 899-910 (1989).
Strasser, H., Müller, K.-W., “Favorable movements of the hand-arm system in the horizontal plane assessed by electromyographic investigations and subjective rating”, International Journal of Industrial Ergonomics, Vol. 23, pp. 339-347 (1999).
Vieira, E.R., Kumar, S., “Occupational risks factors identified and interventions suggested by welders and computer numeric control workers to control low back disorders in two steel companies”, International Journal of Industrial Ergonomics, Vol.17, pp. 19-23 (2007).
Voge, K.R., Dingwell, J.B., “Relative timing of changes in muscle fatigue and movement coordination during a repetive one-hand lifting task”, Proceedings of the 25th Annual international conference of the IEEE Engineering in Medicine and Biology Society. pp. 1807-1810 (2003).
Waters, T.R., Putz-Anderson, V., Garg, A., and Fine, L.J., “Revised NIOSH equation for the design and evaluation of manual lifting tasks”, Ergonomics, Vol.36, 749-776 (1993).
Waters, T.R., Putz-Anderson, V., and Garg, A., Applications Manual for the Revised NIOSH Lifting Equation, Department of Health and Human Services, Cincinnati, OH (1994).
Westgaard, R.H., and Winkel, J., “Guidelines for occupational musculoskeletal load as a basis for intervention: a critical review”. Appl. Ergon. 27, 79-88(1996).
Wickel, E.E., ReiserII, R.F., “The effect of floor slope on sub-maximal lifting capacity and technique”, Applied Ergonomics, Vol. 39, pp. 296-304 (2008).
Wu, S.P., “Maximum acceptable weight of lift by Chinese experienced male manual handlers”, Applied Ergonomics, Vol. 28, pp. 237-244 (1997).
Wu, S.P., “Maximum acceptable weights for asymmetric lifting of Chinese females”, Applied Ergonomics, Vol. 34, pp. 215-234 (2003).
Wu, S.P., Chen, J.P., “Effect of the adjustment period on psychophysically determined maximum acceptable weight of lift and the physiological cost”, International Journal of Industrial Ergonomics, Vol. 31, pp. 287-294 (2003).
Xu, X., Mirka, G.A., and HSiang, M.S., “The effects of obesity on lifting performance”, Applied Ergonomics, Vol. 39, pp. 93-98 (2008).
Yoon, H., Smith, J.L., “Psychophysical and physiological study of one-handed and two-handed combined tasks”, International Journal of Industrial Ergonomics, Vol. 24, pp. 49-60 (1999).
Zhang, X., Nussbaum, M.A., and Chaffin, D.B., “Back lift versus leg lift: an index and visualization of dynamic lifting strategies”, Journal of Biomechanics, Vol. 33, pp. 777-782 (2000).