Underestimation of object mass in lifting does not increase the load on the low back.

Sudden, unexpected loading on the low back is associated with a high incidence of low back pain. Experiments in which sudden loading was applied during standing revealed increased compression forces on the spine and increased trunk angle, which may cause injury to the spine and hence explain this association. During a more dynamic daily activity, i.e. lifting, this could not be demonstrated, which may be due to experimental constraints. We therefore reinvestigated the loading of the low back when subjects were lifting an unexpectedly heavy object. Ten males lifted boxes, weighing 1.6 or 6.6 kg, at a self-selected lifting velocity. In some trials the mass of these boxes was unexpectedly increased by 10 kg. The ground reaction forces, body movements and trunk muscle activity were measured and from these, the L5/S1 torques and compression forces were estimated. Underestimation of the mass did not lead to an increase in low back loading. This finding was independent of the mass the subjects were expecting to lift. In conclusion, no evidence was found to support inference regarding causality of the association between sudden loading and low back pain during whole body lifting movements.

[1]  S M McGill,et al.  A revised anatomical model of the abdominal musculature for torso flexion efforts. , 1996, Journal of biomechanics.

[2]  J H van Dieën,et al.  Total trunk muscle force and spinal compression are lower in asymmetric moments as compared to pure extension moments. , 1999, Journal of biomechanics.

[3]  D Chaffin,et al.  High-pass filtering to remove electrocardiographic interference from torso EMG recordings. , 1993, Clinical biomechanics.

[4]  J. Cholewicki,et al.  Effects of Posture and Structure on Three‐Dimensional Coupled Rotations in the Lumbar Spine: A Biomechanical Analysis , 1996, Spine.

[5]  S. McGill Electromyographic activity of the abdominal and low back musculature during the generation of isometric and dynamic axial trunk torque: Implications for lumbar mechanics , 1991, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[6]  M. de Looze,et al.  Validation of a dynamic linked segment model to calculate joint moments in lifting. , 1992, Clinical biomechanics.

[7]  J. Cholewicki,et al.  Mechanical stability of the in vivo lumbar spine: implications for injury and chronic low back pain. , 1996, Clinical biomechanics.

[8]  W. Marras,et al.  Trunk loading and expectation. , 1987, Ergonomics.

[9]  A Magora,et al.  Investigation of the relation between low back pain and occupation. IV. Physical requirements: bending, rotation, reaching and sudden maximal effort. , 1973, Scandinavian journal of rehabilitation medicine.

[10]  P. Dolan,et al.  Sudden and unexpected loading generates high forces on the lumbar spine. , 2000, Spine.

[11]  G B Andersson,et al.  Trunk kinematics and trunk muscle activity during a rapidly applied load. , 1998, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[12]  Manning Dp,et al.  Body movements and events contributing to accidental and nonaccidental back injuries. , 1984 .

[13]  J H van Dieën,et al.  Fractures of the lumbar vertebral endplate in the etiology of low back pain: a hypothesis on the causative role of spinal compression in aspecific low back pain. , 1999, Medical hypotheses.

[14]  J. Cholewicki,et al.  Stabilizing Function of Trunk Flexor‐Extensor Muscles Around a Neutral Spine Posture , 1997, Spine.

[15]  J H van Dieën,et al.  Stoop or squat: a review of biomechanical studies on lifting technique. , 1999, Clinical biomechanics.

[16]  R. D. Woittiez,et al.  A three‐dimensional muscle model: A quantified relation between form and function of skeletal muscles , 1984, Journal of morphology.

[17]  M. de Looze,et al.  Please Scroll down for Article Ergonomics Trunk Muscle Activation and Low Back Loading in Lifting in the Absence of Load Knowledge , 2022 .

[18]  A Magora,et al.  Investigation of the relation between low back pain and occupation. , 1970, IMS, Industrial medicine and surgery.

[19]  H. Toussaint,et al.  Lifting an unexpectedly heavy object: the effects on low-back loading and balance loss. , 2000, Clinical biomechanics.

[20]  Jorrit P. Jansen,et al.  The Importance of Antagonistic Cocontraction of Trunk Muscles for Spinal Loads during Lifting and Pulling Tasks: Implications for Modeling Approaches , 2000 .

[21]  H M Toussaint,et al.  Please Scroll down for Article Ergonomics Load Knowledge Affects Low-back Loading and Control of Balance in Lifting Tasks Load Knowledge Affects Low-back Loading and Control of Balance in Lifting Tasks , 2022 .

[22]  W S Marras,et al.  The Development of Response Strategies in Preparation for Sudden Loading to the Torso , 1993, Spine.

[23]  G M Hägg,et al.  Occupational lifting by nursing aides and warehouse workers. , 1989, Ergonomics.

[24]  J. Potvin,et al.  The in vivo dynamic response of the spine to perturbations causing rapid flexion: effects of pre-load and step input magnitude. , 1999, Clinical biomechanics.