This webinar will provide an in-depth exploration of joint biomechanics, the effects of trauma on muscle function, and how these changes influence joint stability and performance. We will examine how trauma disrupts the harmonious coordination between reflexive and voluntary muscles, leading to compensatory patterns that affect both joint function and overall biomechanics. Through this, you’ll gain insight into how post-traumatic changes in muscle function can lead to joint instability, dysfunctional movement patterns, and long-term impairments in musculoskeletal health.
We will also dive into the neurological implications of these biomechanical disruptions, focusing on the concepts of deafferentation and dysafferentation. These processes explain how compromised joint function leads to altered sensory input to the nervous system, further perpetuating dysfunction and affecting overall health.
While this lecture will focus on educating and inspiring chiropractors to better understand the intricate connections between trauma, biomechanics, and neurology, it will also serve as a call to action. It will entice attendees to refine their skills and use advanced techniques for restoring joint function more precisely and effectively.
Join us for a concise yet powerful exploration of the body’s biomechanical and neurological responses to trauma!
We will also dive into the neurological implications of these biomechanical disruptions, focusing on the concepts of deafferentation and dysafferentation. These processes explain how compromised joint function leads to altered sensory input to the nervous system, further perpetuating dysfunction and affecting overall health.
While this lecture will focus on educating and inspiring chiropractors to better understand the intricate connections between trauma, biomechanics, and neurology, it will also serve as a call to action. It will entice attendees to refine their skills and use advanced techniques for restoring joint function more precisely and effectively.
Join us for a concise yet powerful exploration of the body’s biomechanical and neurological responses to trauma!
