Affiliations: [a] Department of Rehabilitation, Health Sciences University of Hokkaido Hospital, Sapporo, Japan | [b] Department of PhysicalTherapy, Faculty of Rehabilitation Science, Health Sciences University of Hokkaido, Ishikari, Japan | [c] Department of Rehabilitation, Do-nan Royal Hospital, Kuon, Japan | [d] Department of Clinical Laboratory, Health Sciences University of Hokkaido Hospital, Sapporo, Japan
Correspondence:
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Corresponding author: Masahiro Yamane, Department of Rehabilitation, Health Sciences University of Hokkaido Hospital, 2-5 Ainosato, Kita-ku, Sapporo 002-8072, Hokkaido, Japan. E-mail: m-yamane@hoku-iryo-u.ac.jp.
Abstract: BACKGROUND: The activity of deep trunk muscles (psoas major; PM, quadratus lumborum; QL, transverse abdominis; TrA, and lumbar multifidus; MF) in response to external perturbation is not clearly known. OBJECTIVE: This study aimed to record the onset and amount of activity of the deep trunk muscles during sagittal plane perturbations. METHODS: Fourteen healthy males participated in this study. The activity of the right deep trunk muscles was recorded using wire electrodes. In standing, the participants performed three tasks: a pendulum impacted from anterior with predictable and unpredictable and posterior with unpredictable. RESULTS: In predictable anterior perturbation, the TrA and PM demonstrated feedforward activation, while all deep trunk muscles demonstrated feedback activation in unpredictable anterior and posterior perturbations. In the anticipatory postural adjustment phase, the activity of the TrA was large in predictable anterior perturbation, while that of all deep trunk muscles was slight in other perturbations. In the compensatory postural adjustment phase, the activity of the PM, QL, and TrA in unpredictable anterior perturbation and those of the PM, QL, and MF in unpredictable posterior perturbation were large. CONCLUSIONS: These results showed that the onset and magnitude of deep trunk muscle activity changed depending on both predictable or unpredictable perturbation and the direction of perturbation.
Keywords: Electromyography, core stability, healthy participants, muscles, postural control
