Analysis of muscle synergy and gait kinematics during regain of gait function through rehabilitation in a monoplegic patient

Akira Ebihara; Mitsuki Hirota; Yasuhiro Kumakura; Masanori Nagaoka

doi:10.3389/fnhum.2023.1287675

Analysis of muscle synergy and gait kinematics during regain of gait function through rehabilitation in a monoplegic patient

Front Hum Neurosci. 2024 Jan 9:17:1287675. doi: 10.3389/fnhum.2023.1287675. eCollection 2023.

Authors

Akira Ebihara¹, Mitsuki Hirota^{1

2}, Yasuhiro Kumakura³, Masanori Nagaoka^{1

4}

Affiliations

¹ Department of Rehabilitation, Tsubasa-no-ie Hospital, Oyama, Tochigi, Japan.
² Department of Rehabilitation Medicine, Dokkyo Medical University, Shimotsugagun, Tochigi, Japan.
³ Division of Rehabilitation Services, Tsubasa-no-ie Hospital, Oyama, Tochigi, Japan.
⁴ Department of Neurology and Rehabilitation, Graduate School of Medicine, Juntendo University, Tokyo, Japan.

Abstract

Purpose: We conducted muscle synergy and gait analyses in a monoplegic patient whose gait function improved through training, to explore the possibility of using these parameters as indicators of training.

Case presentation: A 49-year-old male had monoplegia of the right lower limb caused by infarction of the left paracentral lobule. After 2 months of training, he was able to walk and returned to work.

Methods: Consecutive analyses were done after admission. Muscle synergy analysis: during walking, surface electromyograms of gluteus maximus, quadriceps femoris, adductor femoris, hamstrings, tibialis anterior, medial/lateral gastrocnemius, and soleus on both sides were recorded and processed for non-negative matrix factorization (NNMF) analysis. Gait analysis: markers were placed at foot, and walking movements were video recorded as changes in position of the markers.

Results: Compared with three muscle synergies detected on the non-paretic side, two muscle synergies were extracted on the paretic side at admission, and the number increased to three and then four with progress in rehabilitation training. Changes in weighting and activity of the muscle synergies were greater on the non-paretic side than on the paretic side. With training, the knee joint flexor and the ankle dorsiflexor activities on the paretic side and the gluteus maximus activity on the non-paretic side increased during swing phase as shown by weight changes of muscle synergies, and gait analysis showed increased knee joint flexion and ankle joint dorsiflexion during swing phase in the paretic limb. On the non-paretic side, however, variability of muscle activity was observed, and three or four muscle synergies were extracted depending on the number of strides analyzed.

Conclusion: The number of muscle synergies is considered to contribute to motor control. Rehabilitation training improves gait by increasing the number of muscle synergies on the paretic side and changing the weights of the muscles constituting the muscle synergies. From the changes on the non-paretic side, we propose the existence of compensatory mechanisms also on the non-paretic side. In muscle synergy analysis, in addition to the filters, the number of strides used in each analysis set has to be examined. This report highlights the issues of NNMF as analytical methods in gait training for stroke patients.

Keywords: gait kinematics; monoplegia; muscle synergy; non-negative matrix factorization; number of strides; recovery process; stroke.

Grants and funding

The authors declare that no financial support was received for the research, authorship, and/or publication of this article.