2022
DOI: 10.1007/s00586-022-07253-4
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Compensatory biomechanics and spinal loading during dynamic maneuvers in patients with chronic low back pain

Abstract: Purpose This study explores the biomechanics underlying the sit-to-stand (STS) functional maneuver in chronic LBP patients to understand how different spinal disorders and levels of pain severity relate to unique compensatory biomechanical behaviors. This work stands to further our understanding of the relationship between spinal loading and symptoms in LBP patients. Methods We collected in-clinic motion data from 44 non-specific LBP (NS-LBP) and 42 spinal… Show more

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Cited by 2 publications
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“…Moreover, other variables, such as speed, sensorimotor and psychological factors, are important drivers for physical performance [69][70][71]. Hence, it is likely that a good result in these functional motor tasks, which are very common in the daily lives of very active older adults [72], can be achieved through various compensatory biomechanical strategies [73][74][75][76]. Hence, we assume that a reduced performance in the sit-to-stand testing would be measured only when the overall physical capacity is low to such an extent that no compensatory biomechanical strategies work.…”
Section: Discussionmentioning
confidence: 99%
“…Moreover, other variables, such as speed, sensorimotor and psychological factors, are important drivers for physical performance [69][70][71]. Hence, it is likely that a good result in these functional motor tasks, which are very common in the daily lives of very active older adults [72], can be achieved through various compensatory biomechanical strategies [73][74][75][76]. Hence, we assume that a reduced performance in the sit-to-stand testing would be measured only when the overall physical capacity is low to such an extent that no compensatory biomechanical strategies work.…”
Section: Discussionmentioning
confidence: 99%