Center of mass perturbation as a normalizable estimate of dynamic balance in gait: an application comparing typically developing children with spastic cerebral palsy

TL;DR

This study introduces a normalized measure of the center of mass's position during gait to better estimate dynamic balance, effectively distinguishing between children with cerebral palsy and typically developing peers.

Contribution

It proposes a novel, normalized COM perturbation metric (DN) that improves balance assessment during gait and demonstrates its effectiveness over traditional variability measures.

Findings

Children with cerebral palsy have larger DN values indicating poorer balance.

The DN metric better discriminates between groups than previous variability-based methods.

The proposed method aligns with theoretical expectations of balance impairment.

Abstract

It is well recognized that the relative position of the center of mass (pCOM) with respect to the base of support (BOS) is a determining factor in the maintenance of balance. However, during gait the dynamic nature of the BOS is not well defined and in most studies is completely ignored. Prior work tends to focus on the variability in the position of the center of mass (COM) with respect to the laboratory reference frame to attempt to quantify dynamic balance. We propose a modified method whereby the position of the COM in an end-effector based coordinate system may be used as an improved estimate of threat to balance during gait. The distance (DN) of the projection of the COM (pCOM) from the reference axis, normalized by half the foot length for inter-subject comparison, is an estimate of the gravitational moment arm. It can be shown that in concordance with theory, balance impaired subjects with spastic cerebral palsy (CP) have a larger DN than their typically developing peers. Furthermore, when compared with variational methods, DN shows better discriminative ability in characterizing groups.