Between-session reliability of skin marker-derived spinal kinematics during functional activities
Luzia Anna Niggli, Patric Eichelberger, Christian Bangerter, Heiner, Baur, Stefan Schmid
TL;DR
This study assesses the reliability of skin marker-based 3D spinal kinematics during various activities across sessions, highlighting high consistency in sagittal angles but variability in other planes, informing clinical and research applications.
Contribution
It provides the first detailed analysis of between-session reliability of skin marker-derived spinal kinematics during functional activities.
Findings
High reliability of sagittal plane curvature angles across activities.
Lower reliability of frontal and transverse angles during walking and running.
Minimal detectable changes mostly below 15 degrees.
Abstract
Background: Skin marker-based analysis of functional spinal movement is a promising method for quantifying longitudinal effects of treatment interventions in patients with spinal pathologies. However, observed day-to-day changes might not necessarily be due to a treatment intervention, but can result from errors related to soft tissue artifacts, marker placement inaccuracies or biological day-to-day variability. Research question: How reliable are skin marker-derived three-dimensional spinal kinematics during functional activities between two separate measurement sessions? Methods: Twenty healthy adults (11f/9m) were invited to a movement analysis laboratory for two visits separated by 7-10 days. At each visit, they performed various functional activities (i.e. sitting, standing, walking, running, chair rising, box lifting and vertical jumping), while marker trajectories were recorded…
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