Fatigue Induced by Repeated Changes of Direction in Élite Female Football (Soccer) Players: Impact on Lower Limb Biomechanics and Implications for ACL Injury Prevention

Zago, Matteo; David, Sina; Bertozzi, Filippo; Brunetti, Claudia; Gatti, Alice; Salaorni, Francesca; Tarabini, Marco; Galvani, Christel; Sforza, Chiarella; Galli, Manuela

doi:10.3389/fbioe.2021.666841

Cited by 17 publications

(13 citation statements)

References 64 publications

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“…If we assume that the discrepancy in the relative frequency of meniscal procedures is not related to nonrandom differences in detection or indications for intervention, our findings likely reflect known biologic or mechanistic differences between male and female patients experiencing ACL rupture and potentially differences in energy during injury. For example, female athletes typically display differences in lower extremity biomechanics, 38 which may increase the risk of ACL rupture and demonstrate higher proportions of noncontact injuries versus male athletes among similar athletic activities. 7 Moreover, male athletes are at highest risk for experiencing ACL ruptures while playing American football, with injuries often occurring via player contact.…”

Section: Discussionmentioning

confidence: 99%

Treatment Trends in Meniscal Pathology in the Setting of Concomitant ACL Injuries in Pediatric and Young Adult Patients: An Insurance Database Study

et al. 2022

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Background: Meniscal pathology is commonly encountered in the setting of anterior cruciate ligament (ACL) rupture and is increasingly common in the pediatric and adolescent population. Studies have shown that over half of individuals presenting with ACL rupture will have concurrent meniscal pathology. Purpose: To define trends in the utilization of meniscal procedures (ie, meniscus repair vs partial meniscectomy) and short-term complications in pediatric and young adult patients with meniscal pathology in the setting of a concurrent ACL reconstruction. Study Design: Cohort study; Level of evidence, 3. Methods: The IBM MarketScan Commercial Database was utilized to identify ACL reconstruction procedures performed between 2006 and 2018 for individuals aged 5 to 30 years. Annual proportions of meniscectomy and meniscal repair were analyzed, and short-term complications were compared between pediatric/adolescent patients (aged 5-17 years) and young adults (aged 18-30 years). Results: An overall 40,736 records of individuals <18 years old with ACL tears were included. The pediatric/adolescent population had a significantly lower proportion of concomitant meniscal procedures (56.8%; 23,149/40,736) than the young adult population (59.7%; 33,764/56,515; P < .01). From 2006 to 2018, utilization of meniscal repair in the setting of ACL reconstruction steadily increased (20.1% to 35.1% [+15 percentage points], P < .01), while the proportion with meniscectomy decreased (34.4% to 21.3% [–13.1 percentage points], P < .01). There was no difference in rate of reoperation for repeat meniscal repair or meniscectomy in the pediatric/adolescent population for those undergoing meniscal repair versus meniscectomy within 180 days of primary surgery (1.7% [188/10,766] vs 1.5% [186/12,383]; P = .14). Conclusion: From 2006 to 2018, the proportion of patients receiving ACL reconstruction with concomitant meniscal repair increased (20.1% to 35.1%) while the proportion with meniscectomy decreased (34.4% to 21.3%) in the pediatric/adolescent population. Meniscal repair was not associated with a higher 180-day rate of reoperation for repeat meniscal repair or meniscectomy than meniscectomy in the setting of ACL reconstruction. Given no increase in 180-day rate of reoperation for repeat meniscal repair or meniscectomy, further study may seek to understand if expanded indications for meniscal repair may be beneficial and safe in the pediatric/adolescent population.

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Section: Discussionmentioning

confidence: 99%

Treatment Trends in Meniscal Pathology in the Setting of Concomitant ACL Injuries in Pediatric and Young Adult Patients: An Insurance Database Study

et al. 2022

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“…These athletic situations are typically limited to the team sports environment, given the increased nature of unplanned and reactionary athletic demands present in that environment. The prototypical—and must thoroughly studied 18-20 —setting for neuromuscular training is in the female soccer athlete. However, any sport with a high rate of cruciate ligament injury and potential for contested athletic movements represents an opportunity for neuromuscular training (Table I).…”

Section: Neuromuscular Trainingmentioning

confidence: 99%

Team Approach: Neuromuscular Training for Primary and Secondary Prevention of Anterior Cruciate Ligament Injury

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Hicks,

Retzky

et al. 2024

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» Neuromuscular training is a method of performance optimization—typically combining plyometrics, balancing training, agility, and dynamic stabilization—predicated on improving the efficiency of fundamental movement patterns.» Neuromuscular training has consistently been shown to reduce the risk of anterior cruciate ligament injury, particularly for athletes engaged in activities associated with noncontact knee injuries (i.e., women's soccer).» Successful implementation of neuromuscular training programs requires input from coaches, physical therapists, athletic trainers, and physicians to generate efficacious programs with high rates of adherence.

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“…15,21,37 On the contrary, it has been demonstrated that a ligament failure event can occur after repetitive, harmful submaximal knee joint 5-in-5 loads, each causing enough microdamage to weaken the ligament's structural integrity. 6,36,46,51,52 This alternative point of view shifts fatigue, as a risk factor, toward a complex situation involving short and intense bouts of maneuvers that gradually increase the chance of incurring an ACL tear. 36,51 This scenario usually includes a combination of knee joint compression, knee flexion moment, anterior tibial shear force, internal tibial torque, and knee abduction moment, which collectively result in the greatest loads on the ACL.…”

Section: Introductionmentioning

confidence: 99%

Influence of Fatigue on Cognitive-Motor Function During Unanticipated Landings

et al. 2023

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Background: Physical fatigue and cognitive performance have been suggested as risk factors for an anterior cruciate ligament (ACL) injury, and fatigue has also been demonstrated to reduce cognitive processing. The combined effects of fatigue and lower cognitive function during cognitive-challenging movements may increase knee mechanics associated with the ACL injury risk. Hypotheses: We hypothesized that (1) knee mechanics would be detrimentally affected by fatigue and associated with baseline cognitive function and (2) fatigue-induced deleterious changes in cognitive performance and knee mechanics would be correlated. Study Design: Descriptive laboratory study. Methods: A total of 22 athletes completed baseline cognitive testing. After performing maximal vertical jumps, they performed a jump-land-jump task based on unanticipated visual cues. Then, they completed a fatigue protocol including countermovement jumps, among other tasks, until the jump height decreased below 90% of their assessed maximum. Immediately after reaching the first fatigue point, they performed another set of jump-landing tasks, followed by repeating the fatigue protocol until the jump height decreased below 85% of their assessed maximum. After reaching the second fatigue point, they performed a final set of jump-landing tasks and repeated the initial cognitive assessment battery. Results: Mixed-effects models revealed that knee flexion decreased through the fatigue protocol (baseline: 61.8°; midpoint: 61.1°; final: 60.1°; P = .003). Stepwise regression showed that fatigue-worsened attentional control corresponded to smaller knee abduction angles ( R2adjusted = 51.68%; βstandardized = 1.16; P = .001), and worse reaction time after fatigue correlated with increased knee abduction angles (βstandardized = 0.85; P = .006) after accounting for the role of attentional control. Conclusion: Fatigue induced incremental modifications in sagittal-plane knee mechanics during an unanticipated sports movement. In addition, fatigue induced changes in cognitive function related to ACL injury–relevant knee mechanics. Clinical Relevance: The novel findings regarding fatigue-dependent changes in injury-relevant biomechanics during cognitively challenging movements represent an extension of recent developments in understanding the role of cognition in the ACL injury risk.

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Fatigue Induced by Repeated Changes of Direction in Élite Female Football (Soccer) Players: Impact on Lower Limb Biomechanics and Implications for ACL Injury Prevention

Cited by 17 publications

References 64 publications

Treatment Trends in Meniscal Pathology in the Setting of Concomitant ACL Injuries in Pediatric and Young Adult Patients: An Insurance Database Study

Treatment Trends in Meniscal Pathology in the Setting of Concomitant ACL Injuries in Pediatric and Young Adult Patients: An Insurance Database Study

Team Approach: Neuromuscular Training for Primary and Secondary Prevention of Anterior Cruciate Ligament Injury

Influence of Fatigue on Cognitive-Motor Function During Unanticipated Landings

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