Abstract
Weight gain and stretched abdominal muscles from an enlarged gravid uterus are remarkable features during pregnancy. These changes elicit postural instability and place strain on body segments, contributing to lower back pain. In general, the agonist and antagonist muscles act simultaneously to increase joint stabilization; however, this can cause additional muscle stress during movement. Furthermore, this activation can be observed in pregnant women because of their unstable body joints. Hence, physical modalities based on assessments of muscle activation are useful for managing low back pain during pregnancy. Musculoskeletal models are common when investigating muscle load. However, it is difficult to apply such models to pregnant women and estimate the co-contraction of muscles using musculoskeletal models. Therefore, the purpose of this study is to construct a musculoskeletal model for pregnant women that estimates the co-contraction of trunk muscles. First, motion analysis was conducted on a pregnant woman and the muscle activations of the rectus abdominis and erector spinae were measured. Then, the musculoskeletal model was specifically modified for pregnant women. Finally, the co-contraction was estimated from the results of the musculoskeletal model and electromyography data using a genetic algorithm. With the proposed methods, weakened abdominal muscle torque and the co-contraction activation of trunk muscles were estimated successfully.
Highlights
Women experience specific anatomic physiologic and hormonal changes during pregnancy especially on the musculoskeletal system of the axial skeleton [1]
An assessment of muscle torque, especially in the muscles around the trunk segment of pregnant women can help to assess muscle stress related to lumbopelvic pain (LPP), and this is useful for managing LPP [31]
It is unsatisfactory that the results of muscle torque from the training session and validation session are different in each trial because this means that the results differ depending on the choice of training data
Summary
Women experience specific anatomic physiologic and hormonal changes during pregnancy especially on the musculoskeletal system of the axial skeleton [1]. It is thought that an enlarged gravid uterus stretches and weakens abdominal muscles [2]. These physical and musculoskeletal changes elicit postural and movement changes and place strain on various body segments and muscles, which subsequently contribute to musculoskeletal pain, especially lower back and pelvic girdle pain during pregnancy [3,4]. Physical modalities are needed to treat these musculoskeletal disorders of pregnancy, with proper exercise techniques and movement coaching, to maintain abdominal muscle function [10]
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