Intervertebral disc deformation in the lower lumbar spine during object lifting measured in vivo using indwelling bone pins

Object lifting is often categorized into squat and stoop techniques, with the former believed to protect the back by maintaining a neutral spine, and the latter considered harmful due to spinal flexion. Despite the widespread promotion of these beliefs, there is no evidence to support such dichotomy...

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Published in	Journal of biomechanics Vol. 176; p. 112352
Main Authors	Schmid, Stefan, Kramers-de Quervain, Inès, Baumgartner, Walter
Format	Journal Article
Language	English
Published	United States Elsevier Ltd 01.11.2024 Elsevier Limited
Subjects	Accuracy Adult Anesthesia Annuli Annulus fibrosus Biomechanical Phenomena Biomechanics Bone healing Bone Nails Coordinate transformations Deformation Energy consumption Hoisting Humans In vivo methods and tests Intervertebral Disc - physiology Intervertebral Disc - surgery Intervertebral discs Lifting Low back pain Lumbar Vertebrae - physiology Lumbar Vertebrae - surgery Male Optical tracking Pain Range of Motion, Articular - physiology Segmental motion Skin Spine (lumbar) Squat Stoop Tracking systems Wedging angle Annulus fibrosus Segmental motion Squat Wedging angle Stoop
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Abstract	Object lifting is often categorized into squat and stoop techniques, with the former believed to protect the back by maintaining a neutral spine, and the latter considered harmful due to spinal flexion. Despite the widespread promotion of these beliefs, there is no evidence to support such dichotomy, as spinal flexion is not conclusively linked to low back pain. This study aimed to investigate intervertebral disc deformation in the lower lumbar spine during squat and stoop lifting using indwelling bone pins. Five healthy males underwent insertion of Kirschner wires into the L3, L4, and L5 spinous processes, followed by biomechanical data collection using magnetic and optical tracking systems during upright standing, isolated flexion/extension, and object lifting with both squat and stoop techniques. Except for one subject, stoop lifting resulted in up to 90 % greater disc wedging compared to squat lifting, with a significant difference at L4/L5 (p = 0.042). The anterior annulus fibrosus experienced 10 % to 40 % more compression during stoop lifting, but no significant differences were found in posterior annulus fibrosus expansion between techniques. Lever arms were about 35 % longer during stoop compared to squat lifting. These results indicate that even though stoop lifting generally led to greater disc deformation, significant deformation was also observed during squat lifting, challenging the notion of maintaining a neutral spine with this technique. Moreover, the considerable variability observed among participants raises concerns about the suitability of current one-size-fits-all lifting guidelines.
AbstractList	Object lifting is often categorized into squat and stoop techniques, with the former believed to protect the back by maintaining a neutral spine, and the latter considered harmful due to spinal flexion. Despite the widespread promotion of these beliefs, there is no evidence to support such dichotomy, as spinal flexion is not conclusively linked to low back pain. This study aimed to investigate intervertebral disc deformation in the lower lumbar spine during squat and stoop lifting using indwelling bone pins. Five healthy males underwent insertion of Kirschner wires into the L3, L4, and L5 spinous processes, followed by biomechanical data collection using magnetic and optical tracking systems during upright standing, isolated flexion/extension, and object lifting with both squat and stoop techniques. Except for one subject, stoop lifting resulted in up to 90 % greater disc wedging compared to squat lifting, with a significant difference at L4/L5 (p = 0.042). The anterior annulus fibrosus experienced 10 % to 40 % more compression during stoop lifting, but no significant differences were found in posterior annulus fibrosus expansion between techniques. Lever arms were about 35 % longer during stoop compared to squat lifting. These results indicate that even though stoop lifting generally led to greater disc deformation, significant deformation was also observed during squat lifting, challenging the notion of maintaining a neutral spine with this technique. Moreover, the considerable variability observed among participants raises concerns about the suitability of current one-size-fits-all lifting guidelines. Object lifting is often categorized into squat and stoop techniques, with the former believed to protect the back by maintaining a neutral spine, and the latter considered harmful due to spinal flexion. Despite the widespread promotion of these beliefs, there is no evidence to support such dichotomy, as spinal flexion is not conclusively linked to low back pain. This study aimed to investigate intervertebral disc deformation in the lower lumbar spine during squat and stoop lifting using indwelling bone pins. Five healthy males underwent insertion of Kirschner wires into the L3, L4, and L5 spinous processes, followed by biomechanical data collection using magnetic and optical tracking systems during upright standing, isolated flexion/extension, and object lifting with both squat and stoop techniques. Except for one subject, stoop lifting resulted in up to 90 % greater disc wedging compared to squat lifting, with a significant difference at L4/L5 (p = 0.042). The anterior annulus fibrosus experienced 10 % to 40 % more compression during stoop lifting, but no significant differences were found in posterior annulus fibrosus expansion between techniques. Lever arms were about 35 % longer during stoop compared to squat lifting. These results indicate that even though stoop lifting generally led to greater disc deformation, significant deformation was also observed during squat lifting, challenging the notion of maintaining a neutral spine with this technique. Moreover, the considerable variability observed among participants raises concerns about the suitability of current one-size-fits-all lifting guidelines.Object lifting is often categorized into squat and stoop techniques, with the former believed to protect the back by maintaining a neutral spine, and the latter considered harmful due to spinal flexion. Despite the widespread promotion of these beliefs, there is no evidence to support such dichotomy, as spinal flexion is not conclusively linked to low back pain. This study aimed to investigate intervertebral disc deformation in the lower lumbar spine during squat and stoop lifting using indwelling bone pins. Five healthy males underwent insertion of Kirschner wires into the L3, L4, and L5 spinous processes, followed by biomechanical data collection using magnetic and optical tracking systems during upright standing, isolated flexion/extension, and object lifting with both squat and stoop techniques. Except for one subject, stoop lifting resulted in up to 90 % greater disc wedging compared to squat lifting, with a significant difference at L4/L5 (p = 0.042). The anterior annulus fibrosus experienced 10 % to 40 % more compression during stoop lifting, but no significant differences were found in posterior annulus fibrosus expansion between techniques. Lever arms were about 35 % longer during stoop compared to squat lifting. These results indicate that even though stoop lifting generally led to greater disc deformation, significant deformation was also observed during squat lifting, challenging the notion of maintaining a neutral spine with this technique. Moreover, the considerable variability observed among participants raises concerns about the suitability of current one-size-fits-all lifting guidelines. Object lifting is often categorized into squat and stoop techniques, with the former believed to protect the back by maintaining a neutral spine, and the latter considered harmful due to spinal flexion. Despite the widespread promotion of these beliefs, there is no evidence to support such dichotomy, as spinal flexion is not conclusively linked to low back pain. This study aimed to investigate intervertebral disc deformation in the lower lumbar spine during squat and stoop lifting using indwelling bone pins. Five healthy males underwent insertion of Kirschner wires into the L3, L4, and L5 spinous processes, followed by biomechanical data collection using magnetic and optical tracking systems during upright standing, isolated flexion/extension, and object lifting with both squat and stoop techniques. Except for one subject, stoop lifting resulted in up to 90 % greater disc wedging compared to squat lifting, with a significant difference at L4/L5 (p = 0.042). The anterior annulus fibrosus experienced 10 % to 40 % more compression during stoop lifting, but no significant differences were found in posterior annulus fibrosus expansion between techniques. Lever arms were about 35 % longer during stoop compared to squat lifting. These results indicate that even though stoop lifting generally led to greater disc deformation, significant deformation was also observed during squat lifting, challenging the notion of maintaining a neutral spine with this technique. Moreover, the considerable variability observed among participants raises concerns about the suitability of current one-size-fits-all lifting guidelines.
ArticleNumber	112352
Author	Baumgartner, Walter Schmid, Stefan Kramers-de Quervain, Inès
Author_xml	– sequence: 1 givenname: Stefan orcidid: 0000-0001-5138-9800 surname: Schmid fullname: Schmid, Stefan email: stefanschmid79@gmail.com organization: Bern University of Applied Sciences, School of Health Professions, Division of Physiotherapy, Spinal Movement Biomechanics Group, Bern, Switzerland – sequence: 2 givenname: Inès surname: Kramers-de Quervain fullname: Kramers-de Quervain, Inès organization: Schulthess Klinik, Department of Rheumatology and Rehabilitation, Zurich, Switzerland – sequence: 3 givenname: Walter surname: Baumgartner fullname: Baumgartner, Walter organization: ETH Zurich, Laboratory of Biomechanics, Zurich, Switzerland
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Cites_doi	10.1097/BRS.0000000000004198 10.1097/00007632-199109000-00015 10.1016/j.gaitpost.2021.02.029 10.1016/S0169-8141(02)00191-9 10.1097/MD.0000000000015377 10.1097/00007632-199401001-00020 10.2106/JBJS.L.01469 10.1038/nmeth.2089 10.1097/BRS.0000000000000262 10.1038/s41598-019-51871-w 10.1080/00140130410001714742 10.1016/j.gaitpost.2008.05.005 10.26603/001c.30023 10.5603/PJNNS.a2018.0006 10.1016/j.msksp.2018.12.002 10.1016/S0268-0033(02)00032-3 10.1016/S0268-0033(99)00031-5 10.1016/j.msksp.2017.10.010 10.1016/j.jbiomech.2022.111395 10.2519/jospt.2020.9218 10.1080/00140139.2010.512983 10.1097/BRS.0000000000000646 10.3174/ajnr.A4173 10.1097/00007632-199701150-00006 10.3389/fbioe.2021.769117
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Keywords	Annulus fibrosus Segmental motion Squat Wedging angle Stoop
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SubjectTerms	Accuracy Adult Anesthesia Annuli Annulus fibrosus Biomechanical Phenomena Biomechanics Bone healing Bone Nails Coordinate transformations Deformation Energy consumption Hoisting Humans In vivo methods and tests Intervertebral Disc - physiology Intervertebral Disc - surgery Intervertebral discs Lifting Low back pain Lumbar Vertebrae - physiology Lumbar Vertebrae - surgery Male Optical tracking Pain Range of Motion, Articular - physiology Segmental motion Skin Spine (lumbar) Squat Stoop Tracking systems Wedging angle
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Title	Intervertebral disc deformation in the lower lumbar spine during object lifting measured in vivo using indwelling bone pins
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