Αποτελέσματα Αναζήτησης
Our current understanding of brain kinematics comes predominantly from helmeted collision sports. A body of high school and collegiate football research has identified an average peak linear acceleration of 100 g as a theoretical “threshold” for mTBI [ 123 ].
13 Απρ 2019 · Collision sports: Physical contact with great force, or simply collision, is the main characteristic of collision sports and the primary reason for a high prevalence of musculoskeletal injuries. In collisions, energy is transferred from one body to another.
⇒ Sport- related concussions (SRCs) are common in contact/collision sports. ⇒ Female athletes can experience a greater injury bur-den from SRCs than males. ⇒ Untreated/undiagnosed SRCs can have a negative impact on an athlete’s health. WHAT ARE THE NEW FINDINGS?
We used multivariable linear regression models to identify the associations between PROMIS scores and collision and contact sport participation and adjusted for sex; age; history of bone, muscle, ligament, or tendon injury; history of acute fracture or dislocation; and history of concussion. Results.
31 Οκτ 2023 · Subconcussive impacts resulting from contact/collision sport participation have been reported to generate internal compression, tension and shear/strain forces that can alter axonal integrity (Nauman et al., 2020; Koerte et al., 2023; Tayebi et al., 2021).
1 Νοε 2019 · One example of the adverse effect of collision on the brain is “heading” the soccer ball—a feat that, repeated over years of competition, has been found to produce severe brain damage in veteran players.
29 Οκτ 2020 · A higher proportion of collision and contact sport athletes reported a history of time loss for bone, muscle, ligament, and tendon injuries (51% versus 29%, P < .001) and for acute fracture or dislocation (46% versus 26%, P < .001) than did no- or limited-contact athletes.
