Shock absorption
Thanks to the linked connective tissues, we can absorb a shock throughout the body. A blow to the foot from a stone can thus provide an impact at the end of that connective chain, right up to the base of the skull.
- 01Keep connective tissue mobile — a rigid body tears more easily under impact
- 02Shock travels the full fascial chain: a foot strike can reach the base of your skull
- 03Three systems absorb shock: passive ligaments, active muscles, and linked fascial chains
- 04Whiplash and ice-slip injuries often end the chain far from the original impact point
- 05Train full-range mobility in fascia and muscles to distribute trauma across the whole body
The body’s shock absorption consists of three parts.
The passive shock absorption consisting of ligament joints, major connective tissue structures like the neckband as well as other tendons and ligaments.
The active shock absorption is operated by muscle power.
The third shock absorption is the linking structure of the connective tissue that connects muscles throughout the body.
Thanks to the linked connective tissues, we can absorb a shock throughout the body. A blow to the foot from a stone can thus provide an impact at the end of that connective chain, right up to the base of the skull.
This becomes evident in whiplash injury, where trauma occurs primarily in the end of the whiplash movement where sensitive neck muscles and connective tissue structures are torn apart, responding with cramps that the body does not come out of, and a chronic inflammation begins.
The same thing goes when slipping on a patch of ice, where one of the shoulders can get the final strain after we sprawled forward a few steps, although the grip was lost under the foot.
This feature is important to lessen the impact and trauma and to distribute them through the body. It is clear that we can withstand more external influence if we are soft with full mobility in the connective tissue and muscles. A rigid body is torn apart easier.
The passive shock absorption consisting of ligament joints, major connective tissue structures like the neckband as well as other tendons and ligaments.
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