2015
DOI: 10.1016/j.math.2014.07.012
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Using kinematics and a dynamical systems approach to enhance understanding of clinically observed aberrant movement patterns

Abstract: The objective of this technical paper is to demonstrate how graphing kinematic data to represent body segment coordination and control can assist clinicians and researchers in understanding typical and aberrant human movement patterns. Aberrant movements are believed to be associated with musculoskeletal pain and dysfunction. A dynamical systems approach to analyzing movement provides a useful way to study movement control and coordination. Continuous motion angle-angle and coupling angle-movement cycle graphs… Show more

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Cited by 22 publications
(10 citation statements)
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“…a neuromuscular control mechanism or it could reflect a psychological mechanism such as fear avoidance. Adding a dynamical systems approach to study movement control and coordination as proposed by B. Spinelli et al [ 31 ] may contribute to a deeper understanding of this component of locomotion.…”
Section: Discussionmentioning
confidence: 99%
“…a neuromuscular control mechanism or it could reflect a psychological mechanism such as fear avoidance. Adding a dynamical systems approach to study movement control and coordination as proposed by B. Spinelli et al [ 31 ] may contribute to a deeper understanding of this component of locomotion.…”
Section: Discussionmentioning
confidence: 99%
“…Movement of the lumbar spine requires the participation of multiple segments and the relevant contributions of segments are a function of their own mechanical properties [ 1 ]. Aberrant spinal movement patterns are widely thought to be related to musculoskeletal pain and dysfunction [ 2 4 ], and as such they are used to inform surgical and conservative clinical decision making [ 1 , 5 7 ], and as indicators of spinal stability [ 3 , 8 10 ]. As a consequence of their wide variation in both low back pain and healthy populations however, the clinical importance of factors such as inter-vertebral range of motion (IV-RoM) remains unclear, and the identification of biomechanical factors that may contribute to low back pain, remains a challenge [ 11 ].…”
Section: Introductionmentioning
confidence: 99%
“…Smooth curves are believed to represent typical neuromuscular control, while irregular curves with rapid increases or decreases in angular velocity are believed to be indicative of poor control (Spinelli, Wattananon, Silfies, Talaty, & Ebaugh, 2015).…”
Section: Table 2 Near Herementioning
confidence: 99%