Загрузка видео...

Не удалось загрузить видео

На главную

Eccentric training IMO is one of the best ways to develop strength & hypertrophy ↗️TUT ↗️Supra-maximal forces ↗️Motor unit recruitment ↗️Satellite cell activation There are lots of ➕training adaptations Here’s how to use one of the most potent eccentric training strategies…

17,413 просмотров • 2 лет назад •via X (Twitter)

Комментарии: 3

Фото профиля Alchemy Emperor
Alchemy Emperor2 лет назад

@gstevens21 Really cool approach, I’m also a huge fan and use eccentric training all the time. It’s also excellent to progress in bodyweight skills. Very underrated tool!

Фото профиля Mohamed Salah
Mohamed Salah2 лет назад

@gstevens21 HELLO I am Mohamed from Egypt. I am interested in eccentric training, especially for football players. I am in the process of doing a study on this type. Could you please help me with more forms of training and studies?

Фото профиля Pete Burridge
Pete Burridge2 лет назад

@gstevens21 Hey Mohammed drop me your email address and I can send you through some of the supporting literature 👍

Похожие видео

You become injured. ⠀ ⠀ You’re placed in a cast, or sling. ⠀ ⠀ You are told to not train upper body, and just build the lower half, or vice versa. ⠀ ⠀ You don’t even bother training your non-injured, non-dominant (in most baseball, upper extremity related cases) side, because why would you need to? ⠀ ⠀ Here’s why you should absolutely train your non-injured side, even if your injured side is immobilized. ⠀ ⠀ Cross education (CE) occurs after unilateral training where performance of the untrained, contralateral (in this case injured) limb is enhanced.⠀ ⠀ Increased neural drive originating from the “untrained” motor cortex contributes to the cross education effect.⠀ ⠀ A few studies have shown that CE can preserve or spare strength and decrease atrophy on the untrained, injured limb. ⠀ ⠀ In most baseball related cases, injuries of the upper extremity most often tend to be on the dominant side. Chances are there is already some sort of imbalance in strength and or hypertrophy between sides. It is also likely that when rehabbing from that injury, we tend to attend less and be less detailed with the non-injured, non-dominant side. So the chances of there being an imbalance post-injury are likely. It’s the reason why players get hurt, rehab, come back, and in some cases end up injuring the contralateral side shortly thereafter. (Of course we see that more with lower extremity injuries.) ⠀ ⠀ In a study conducted by Justin W. Andrushko and co. They took 16 participants who were immobilized with a cast, and assigned them to a 4-week resistance training forearm program on the non-injured limb. Here’s what they found ⬇️ “The nondominant forearm of 16 participants was immobilized with a cast, and participants were randomly assigned to a resistance training (eccentric wrist flexion, 3 times/week) or control group for 4 weeks. Pre- and post testing involved wrist flexors and extensors eccentric, concentric and isometric maximal voluntary contractions (via dynamometer), muscle thickness (via ultrasound), and forearm muscle cross-sectional area (MCSA; via peripheral quantitative computed tomography). Only the training group showed strength preservation across all contractions in the wrist flexors of the immobilized limb (training: −2.4% vs. control: −21.6%; P = 0.04), and increased wrist flexors strength of the nonimmobilized limb (training: 30.8% vs. control: −7.4%; P = 0.04). Immobilized arm MCSA was preserved for the training group only (training: 1.3% vs. control: −2.3%; P = 0.01). Muscle thickness differed between groups for the immobilized (training: 2.8% vs. control: −3.2%; P = 0.01) and nonimmobilized wrist flexors (training: 7.1% vs. control: −3.7%; P = 0.02). Strength preservation was nonspecific to contraction type (P = 0.69, η2p = 0.03) yet specific to the trained flexors muscle. These findings suggest that eccentric training of the nonimmobilized limb can preserve size of the immobilized contralateral homologous muscle and strength across multiple contraction types.”

Ryan Aguirre, CSCS

79,627 просмотров • 3 лет назад