Influence of Fatigue on Cognitive-Motor Function During Unanticipated Landings

Bertozzi, Filippo; Fischer, Pamela J.; Aflatounian, Fatemeh; Hutchison, Keith A.; Sforza, Chiarella; Monfort, Scott M.

doi:10.1177/03635465231180612

Cited by 2 publications

(1 citation statement)

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“…They also reported that fatigue could affect a decrease in the ability to process Environmental Information, predict events and respond appropriately [ 45 ]. furthermore Bertozzi et al found that fatigue reduced unforeseen landing mechanics, as neuromuscular coordination and the ability to predict the moment and place of contact on the ground reduced limb posture and stress absorption, and placed the athlete in the risk pattern of non-contact injury factors ACL [ 46 ]. Our study, along with previous research, suggests that the dominant leg may have superior neuromuscular control compared to the non-dominant leg.…”

Section: Discussionmentioning

confidence: 99%

The effects of two different fatigue protocols on movement quality during anticipated and unanticipated change of directions in female soccer players

Alimoradi,

Hosseini,

Sahebozamani

et al. 2024

PLoS ONE

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Objective This study compared neuromuscular control under two fatigue protocols during anticipated and unanticipated change of direction (COD) maneuvers and evaluated their effects on the risk of non-contact ACL injuries. Method Forty-five female soccer players (mean age: 22.22 ± 2.24 years; mean height: 166.24 ± 3.33 cm; mean mass: 59.84 ± 5.03 kg) were divided into three groups: functional fatigue (Soccer specific fatigue ptotocol-SOFT90), non-functional fatigue (Bruce protocol), and control group. Before and after the implementation of neuromuscular control fatigue protocols were evaluated using the cutting motion assessment score tool (CMAS). Two-dimensional (2D) videos were recorded during anticipated and unanticipated COD trials for both dominant and non-dominant legs. Results Significant time effects (p < 0.05) and group-time interactions (p < 0.05) were observed in both anticipated and unanticipated conditions for both dominant and non-dominant legs after the fatigue protocols. The functional fatigue group exhibited higher CMAS changes, indicating poorer movement quality following fatigue. Notably, the non-dominant leg displayed amplified deficits during unanticipated COD maneuvers following the functional fatigue protocol. Conclusions Fatigue significantly impairs neuromuscular control, particularly in unanticipated COD situations, which increases the risk of non-contact ACL injuries. To mitigate this risk, coaches, trainers, and medical professionals should prioritize targeted training and injury prevention strategies, focusing on the non-dominant leg during unanticipated COD maneuvers.

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Section: Discussionmentioning

confidence: 99%