Sport Science Unit, School of Medical Sciences, Universiti Sains Malaysia , Malaysia ; Biomechanics and Movement Science Program, University of Delaware , USA.
Department of Mechanical Engineering, Columbia University , USA.
J Sports Sci Med. 2014 Dec 1;13(4):793-800. eCollection 2014 Dec.
The slides ergometer (SE) was an improvisation from fixed ergometer (FE) to bridge the gap of mechanics between ergometer rowing and on-water rowing. The specific mechanical constraints of these two types of ergometers may affect the pattern of muscle recruitment, coordination and adaptation. The main purpose of this study was to evaluate the muscle synergy during 6 minutes maximal rowing on slides (SE) and fixed ergometers (FE). The laterality of muscle synergy was also examined. Surface electromyography activity, power output, heart rate, stroke length and stroke rate were analyzed from nine physically active subjects to assess the rowing performance. Physically active subjects, who were not specifically trained in rowing, were chosen to exclude the training effect on muscle synergy. Principal component analysis (PCA) with varimax rotation was applied to extract muscle synergy. Three muscle synergies were sufficient to explain the majority of variance in SE (94.4 ± 2.2 %) and FE (92.8 ± 1.7 %). Subjects covered more rowing distance, exerted greater power output and attained higher maximal heart rate during rowing on SE than on FE. The results proved the flexibility of muscle synergy to adapt to the mechanical constraints. Rowing on SE emphasized on bi-articular muscles contrary to rowing on FE which relied on cumulative effect of trunk and upper limb muscles during propulsive phase. Key pointsThree muscle synergies were extracted during maximal rowing on both fixed and slides ergometerUntrained subjects emphasized leg muscles while rowing on SEUntrained subjects focused on back muscles during FE rowing.
滑船测功仪(SE)是由固定测功仪(FE)改进而来的,旨在弥合测功仪划船和水上划船之间的力学差距。这两种测功仪的特定机械约束可能会影响肌肉募集、协调和适应的模式。本研究的主要目的是评估在滑船(SE)和固定测功仪(FE)上进行 6 分钟最大划船时的肌肉协同作用。还检查了肌肉协同作用的偏侧性。对 9 名身体活跃的受试者进行表面肌电图活动、功率输出、心率、划桨长度和划桨频率的分析,以评估划船性能。选择未专门进行划船训练的身体活跃受试者,以排除训练对肌肉协同作用的影响。采用具有方差极大旋转的主成分分析(PCA)提取肌肉协同作用。三个肌肉协同作用足以解释 SE(94.4±2.2%)和 FE(92.8±1.7%)的大部分方差。与在 FE 上相比,受试者在 SE 上划船时覆盖的划船距离更长,施加的功率输出更大,达到的最大心率更高。结果证明了肌肉协同作用的灵活性可以适应机械约束。与 FE 相比,SE 上的划船更强调双关节肌肉,而 FE 则依赖于推进阶段躯干和上肢肌肉的累积效应。关键点在固定测功仪和滑船测功仪上进行最大划船时提取了三个肌肉协同作用未经训练的受试者在 SE 上划船时强调腿部肌肉未经训练的受试者在 FE 划船时专注于背部肌肉。