Neurology-Biological Asymmetry: A Mechanism of Reactive Strength Injury
Absolute Concept: How Neurology-Biological Asymmetry is a Mechanism of Reactive Strength Injury
Neurological Asymmetry: A Mechanism of Reactive Strength Injury
When we understand strength as an emergent behavior, it is simple for us to see there is a top-down neurological component and a bottom-up biological component of every strength output. Our belief is that the top-down neurological component can almost infinitely scale up in connectivity and does so at a faster pace than the biology. The image shows how when an injury is biological in nature to the athlete, for example, a hamstring strain, a mechanism of injury is going to be that top-down neurology has scaled up more than the bottom-up biology of the hamstrings.
Reactive Strength Injuries
Reactive strength injuries can involve the connective tissue of various muscles, tendons, and ligaments throughout the body. Here's a list of some common reactive strength injuries:
Hamstring strain or tear
Achilles tendon strain or rupture
Anterior Cruciate Ligament (ACL) tear
Medial Cruciate Ligament (MCL) tear
Lateral Epicondylitis (Tennis elbow)
Medial Epicondylitis (Golfer's elbow)
Patellar tendonitis (jumper's knee)
Any tendinitis or tendinosis
Understanding Reactive Strength Injuries
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