Predictive simulations of postural control: exploring the role of signal noise and neural delays in Parkinson’s disease
Julian Shanbhag, Iris Wechsler, Sophie Fleischmann, Bjoern M. Eskofier, Anne D. Koelewijn, Jürgen Winkler, Sandro Wartzack, Heiko Gassner, Jörg Miehling

TL;DR
This paper uses simulations to explore how signal noise and neural delays affect postural control in Parkinson’s disease, finding that these factors lead to postural impairments similar to those observed in patients.
Contribution
The study introduces a predictive neuromusculoskeletal model to simulate postural control in Parkinson’s disease, linking signal noise and neural delays to observed impairments.
Findings
Higher signal noise and neural delays in simulations produced postural behaviors resembling those of Parkinson’s patients.
Simulated sway parameters closely matched experimental data from individuals with and without Parkinson’s disease.
Further research on additional movement tasks is needed to confirm these findings.
Abstract
Postural instability is one of the key motor symptoms of Parkinson’s disease (PD), which worsens with disease progression, leading to an increased fall risk. The complex internal processes of postural control and the elements causing this instability due to PD are still not fully understood. Predictive neuromusculoskeletal simulations can help to gain insights into internal postural control processes and their correlations, which cannot be measured directly. In this paper, we investigated the influence of increased motor signal noise and neural delays on the postural control of quiet upright standing and the resulting sway parameters using a previously published postural control model following assumptions that higher signal noise and neural delays lead to postural impairments in PD. Simulation results were compared to experimental motion capture data from 31 individuals with PD and 31…
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Taxonomy
TopicsBalance, Gait, and Falls Prevention · Parkinson's Disease and Spinal Disorders · Motor Control and Adaptation
