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Conclusions: The ratios of HAB, H and Q are able to predict Gmed, VM and BF activity during WL and SSq. 34) in VM amplitude, where group with HAB/H < 1 showed higher VM amplitude. Furthermore, significant difference was found for HAB/H groups (F(4, 29) = 4, p =. ANOVA results showed significant differences between SSq and WL (F(4, 79) = 10, p 0.5 showed higher VMO amplitude and lower Gmed amplitude. 38) amplitude, as well as HAB/H was associated with VM (τ = -.41) and Gmed (τ =. 33) and BF (τ = -.71) amplitude, HAB/Q ratio was associated with BF (τ = -.43) and Gmed (τ =.
![shifted pelvis shifted pelvis](https://1.bp.blogspot.com/-zl0YdkZryxA/VHsPVkSQkFI/AAAAAAAAYbA/7LrGdUveqWg/s1600/image009.png)
Results: The H/Q ratio was associated by Kendall’s tau (τ) with VM (τ =. Than participants performed WL and SSq for a 5 repetition maximum, to find out muscle activity at submaximal intensity of exercise. The MVIC was used to normalize the EMG signal and estimate the individual strength ratios. Methods: 17 resistance-trained men (age 29.6 ± 4.6 years) with at least 3 years of strength training performed in cross-sectional design 5 s maximal voluntary isometric contractions (MVIC) on an isokinetic dynamometer for knee extension, knee flexion, and hip abduction. To determine whether the EMG amplitude differs between individuals with HAB/H ratio above and below one and between individuals with H/Q or HAB/Q ratio above and below 0.5 during SSqs and WLs. Objective: To determine whether the EMG amplitude of vastus mediali (VM), vastus laterali (VL), biceps femoris (BF) and gluteus medius (Gmed) is associated with muscle strength ratio during SSqs and WLs. Therefore, these strength ratios might predict also the EMG during the exercises as walking lunge (WL) or split squat (SSq) at submaximal intensity. Background: The hip abductors (HAB), quadriceps (Q) and hamstrings (H) reciprocal strength ratios are predictors of electromyography (EMG) amplitude during load carrying walking at moderate intensity.