Unstable Surface Improves Quadriceps:Hamstring Co-contraction for Anterior Cruciate Ligament Injury Prevention Strategies

Shultz, Rebecca; Silder, Amy; Malone, Maria; Braun, Hillary J.; Dragoo, Jason L.

doi:10.1177/1941738114565088

Cited by 14 publications

(9 citation statements)

References 29 publications

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“…Second, neuromuscular adaptations such as increased antagonist coactivation may increase fine muscle control and force steadiness, thus increasing muscle stiffness and joint stability [11, 12]. Moreover, lower limb training such as within the rehabilitation process, may improve force steadiness directly [61] or indirectly through increased muscle coactivation [62]. Therefore, the results of the present study suggest that commonly used rehabilitation protocols (as used with the assessed patient groups [17]) may restore force steadiness 6 to 12 months after ACL surgery, independent of the type of graft used in the surgery.…”

Section: Discussionmentioning

confidence: 99%

Knee sensorimotor control following anterior cruciate ligament reconstruction: A comparison between reconstruction techniques

et al. 2018

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The sensorimotor system helps to maintain functional joint stability during movement. After anterior cruciate ligament (ACL) injury and reconstruction, several sensorimotor deficits may arise, including altered proprioception and changes in neuromuscular control. It is still unknown whether the type of autograft used in the reconstruction may influence knee sensorimotor impairments. The aim of this study was to comparatively assess the effects of the hamstring tendon (HT) and bone-patellar tendon-bone (BPTB) ACL reconstruction techniques on knee sensorimotor control 6–12 months post-operation. A total of 83 male subjects participated in this study: 27 healthy participants, 30 BPTB-operated patients and 26 HT-operated patients. Active joint position sense in 3 ranges of motion (90–60°, 60–30°, and 30–0° of knee flexion), isometric steadiness, and onset of muscle activation were used to compare sensorimotor system function between groups. Both operated groups had a small (< 5°) but significant joint position sense error in the 30–0° range when compared to the healthy group. No significant differences were found between the operated and the control groups for isometric steadiness or onset of muscle activation. The results of this study suggest that operated patients present knee proprioceptive deficits independently of surgical technique. Nevertheless, the clinical implications of this impairment are still unknown. It seems that selected surgical approach for ACL reconstruction do not affect functioning of the sensorimotor system to a large degree.

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Section: Discussionmentioning

confidence: 99%

Knee sensorimotor control following anterior cruciate ligament reconstruction: A comparison between reconstruction techniques

et al. 2018

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“…We generated a nominal simulation of single-leg landing on level ground based on experimental measurements (Shultz et al, 2015). We used three-dimensional kinematics and ground reaction force data of a single subject (19-year-old female, 68 kg mass, 1.8 m height) performing five landing trials onto her right leg.…”

Section: Methodsmentioning

confidence: 99%

Preparatory co-activation of the ankle muscles may prevent ankle inversion injuries

DeMers

Hicks

Delp

2017

Journal of Biomechanics

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Ankle inversion sprains are the most frequent acute musculoskeletal injuries occurring in physical activity. Interventions that retrain muscle coordination have helped rehabilitate injured ankles, but it is unclear which muscle coordination strategies, if any, can prevent ankle sprains. The purpose of this study was to determine whether coordinated activity of the ankle muscles could prevent excessive ankle inversion during a simulated landing on a 30-degree incline. We used a set of musculoskeletal simulations to evaluate the efficacy of two strategies for coordinating the ankle evertor and invertor muscles during simulated landing scenarios: planned co-activation and stretch reflex activation with physiologic latency (60-millisecond delay). A full-body musculoskeletal model of landing was used to generate simulations of a subject dropping onto an inclined surface with each coordination condition. Within each condition, the intensity of evertor and invertor co-activity or stretch reflexes were varied systematically. The simulations revealed that strong preparatory co-activation of the ankle evertors and invertors prior to ground contact prevented ankle inversion from exceeding injury thresholds by rapidly generating eversion moments after initial contact. Conversely, stretch reflexes were too slow to generate eversion moments before the simulations reached the threshold for inversion injury. These results suggest that training interventions to protect the ankle should focus on stiffening the ankle with muscle co-activation prior to landing. The musculoskeletal models, controllers, software, and simulation results are freely available online at http://simtk.org/home/ankle-sprains, enabling others to reproduce the results and explore new injury scenarios and interventions.

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“…Cooling over regions susceptible to strain injury, such as myotendinous junction, may present an increased risk of injury by returning to activity soon after cryotherapy applications. Point et al (2018) considers this heightened risk is due to the reduced capacity of the muscle tendon unit to sustain external strain following cooling caused by increased stiffness in the cooled tissues 35 . Muscle fibres therefore more prone to damage 1 due to known mechanisms predisposing to soft-tissue injury, such as reductions in available range of motion 37 and increases in contractile tissue stiffness 37 .…”

Section: Discussionmentioning

confidence: 99%

Temporal Patterns of Knee-Extensor Isokinetic Torque Strength in Male and Female Athletes Following Comparison of Anterior Thigh and Knee Cooling Over a Rewarming Period

Alexander¹,

Rhodes²

2020

Journal of Sport Rehabilitation

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Context: The effect of local cooling on muscle strength presents conflicting debates, with literature undecided as to the potential implications for injury, when returning to play following cryotherapy application. Objective: To investigate concentric muscle strength following local cooling over the anterior thigh compared with the knee joint in males and females and the temporal pattern over a 30-minute rewarming period. Design: Repeated-measures crossover design. Method: Twelve healthy participants randomly assigned to receive cooling intervention on one location, directly over either the anterior thigh or the knee, returning 1 week later to receive the cooling intervention on opposite location. Muscle strength measured via an isokinetic dynamometer at multiple time points (immediately post, 10-, 20-, and 30-min post) coincided with measurement of skin surface temperature (Tsk) using a noninvasive infrared camera. Results: Significant main effects for time (P ≤ .001, η2 = .126) with preice application higher than all other time points (P ≤ .05) were demonstrated for both peak torque and average torque. There were also significant main effects for isokinetic testing speed, sex of the participant, and position of the ice application for both peak torque and average torque (P ≤ .05). Statistically significant decreases in Tsk were reported in both gender groups across all time points compared with preintervention Tsk for the anterior thigh and knee (P < .05). Conclusions: Reductions reported for concentric peak torque and average torque knee-extensor strength in males and females did not fully recover to baseline measures at 30-minute postcryotherapy interventions. Sports medicine practitioners should consider strength deficits of the quadriceps after wetted ice applications, regardless of cooling location (joint/muscle) or gender.

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Unstable Surface Improves Quadriceps:Hamstring Co-contraction for Anterior Cruciate Ligament Injury Prevention Strategies

Cited by 14 publications

References 29 publications

Knee sensorimotor control following anterior cruciate ligament reconstruction: A comparison between reconstruction techniques

Knee sensorimotor control following anterior cruciate ligament reconstruction: A comparison between reconstruction techniques

Preparatory co-activation of the ankle muscles may prevent ankle inversion injuries

Temporal Patterns of Knee-Extensor Isokinetic Torque Strength in Male and Female Athletes Following Comparison of Anterior Thigh and Knee Cooling Over a Rewarming Period

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