Abstract
To clarify whether there are any muscle synergy changes in individuals with knee osteoarthritis, and to determine whether muscle synergy analysis could be applied to other musculoskeletal diseases. Subjects in this study included 11 young controls (YC), 10 elderly controls (EC), and 10 knee osteoarthritis patients (KOA). Gait was assessed on a split-belt treadmill at 3 km/h. A non-negative matrix factorization (NNMF) was applied to the electromyogram data matrix to extract muscle synergies. To assess the similarity of each module, we performed the NNMF analysis assuming four modules for all of the participants. Further, we calculated joint angles to compare the kinematic data between the module groups. The number of muscle modules was significantly lower in the EC (2-3) and KOA (2-3) groups than in the YC group (3-4), which reflects the merging of late swing and early stance modules. The EC and KOA groups also showed greater knee flexion angles in the early stance phase. Contrarily, by focusing on the module structure, we found that the merging of early and late stance modules is characteristic in KOA. The lower number of modules in the EC and KOA groups was due to the muscle co-contraction with increased knee flexion angle. Contrarily, the merging of early and late stance modules are modular structures specific to KOA and may be biomarkers for detecting KOA. Describing the changes in multiple muscle control associated with musculoskeletal degeneration can serve as a fundamental biomarker in joint disease.
Highlights
A BNORMALITIES of the neuromuscular system including muscle strength loss occur with aging [1], [2]
In the non-negative matrix factorization (NNMF) findings, three to four modules were extracted in young controls (YC) group, whereas two to three modules were extracted in elderly controls (EC) group and knee osteoarthritis patients (KOA) group (Fig.1)
The variance account for (VAF) was significantly lower in YC group compared to the EC and KOA groups from one to 10 modules (Fig.2)
Summary
A BNORMALITIES of the neuromuscular system including muscle strength loss occur with aging [1], [2]. Kita are with the Graduate Course of Health and Social Services, Graduate School of Saitama Prefectural University, Koshigaya 343-8540, Japan
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More From: IEEE transactions on neural systems and rehabilitation engineering : a publication of the IEEE Engineering in Medicine and Biology Society
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