Angle-specific analysis of isokinetic quadriceps and hamstring torques and ratios in patients after ACL-reconstruction

Christian Baumgart*, Wouter Welling, Matthias W. Hoppe, Juergen Freiwald, Alli Gokeler

*Bijbehorende auteur voor dit werk

    Onderzoeksoutput: ArticleAcademicpeer review

    19 Citaten (Scopus)
    228 Downloads (Pure)


    BackgroundStrength deficits, muscle imbalances, and quadriceps inhibition are common after the surgical reconstruction of the anterior cruciate ligament (ACL), even after the patient's returned-to-sport. Typically, asymmetries between the operated and non-operated leg as well as the hamstring/quadriceps (HQ) ratio are calculated using maximum isokinetic torque values. Moreover, the knee flexion angles, which correspond to the measured torque values, were not considered. Therefore, the aim of the study was to evaluate the usage of an angle-specific approach for the analysis of isokinetic data in patients after an ACL-reconstruction.MethodsA cross-sectional laboratory study design was used to investigate the influence of leg (operated vs. non-operated) and two velocities on angle-specific isokinetic data. Concentric quadriceps and hamstring torques and ratios of 38 patients were assessed 6.6months after ACL-reconstruction with a hamstring tendon graft. At a velocity of 60 degrees/s and 180 degrees/s, angle-specific torques and HQ-ratios were analyzed with conventional discrete parameters and a Statistical Parametric Mapping procedure, which evaluates continuous data. The relationship between angle-specific and conventional HQ-ratios wasevaluated with Pearson correlation coefficients.ResultsAngle-specific torques and HQ-ratios were different between the operated and non-operated leg and between velocities. In the operated leg, the quadriceps deficit was higher at 60 degrees/s in knee flexion angles >50 degrees. The HQ-ratios decreased with greater knee flexion at both velocities, but with a different magnitude. Around 30 degrees, the HQ-ratios reached 1.0 and did not differ between the velocities, while leg differences were present from 40 to 60 degrees. At the higher testing velocity, the maximum flexion torque occurred at greater knee flexion, whereas the maximum extension torque were present at a similar joint angle. The correlation coefficients between conventional and angle-specific HQ-ratios were low in knee angles 65 degrees and varied according to leg and velocity.ConclusionsThe angle specific approach is recommended for future ACL-research, as it reveals strength deficits and imbalances, which were not captured by conventional parameters. The results provide a rationale for more specific joint angle and/or velocity based training and may help for return-to-sport decisions.

    Originele taal-2English
    Aantal pagina's8
    TijdschriftBMC Sports Science, Medicine and Rehabilitation
    StatusPublished - 6-dec.-2018

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