Single leg vertical jump performance identifies knee function deficits at return to sport after ACL reconstruction in male athletes

Argyro Kotsifaki; Sam Van Rossom; Rod Whiteley; Vasileios Korakakis; Roald Bahr; Vasileios Sideris; Ilse Jonkers

doi:10.1136/bjsports-2021-104692

Single leg vertical jump performance identifies knee function deficits at return to sport after ACL reconstruction in male athletes

Br J Sports Med. 2022 May;56(9):490-498. doi: 10.1136/bjsports-2021-104692. Epub 2022 Feb 8.

Authors

Argyro Kotsifaki^{1

2}, Sam Van Rossom², Rod Whiteley^{3

4}, Vasileios Korakakis³, Roald Bahr^{5

6}, Vasileios Sideris³, Ilse Jonkers²

Affiliations

¹ Rehabilitation Department, Aspetar Orthopaedic and Sports Medicine Hospital, FIFA Medical Centre of Excellence, Doha, Qatar argyro.kotsifaki@aspetar.com.
² Department of Movement Sciences, KU Leuven Biomedical Sciences Group, Leuven, Belgium.
³ Rehabilitation Department, Aspetar Orthopaedic and Sports Medicine Hospital, FIFA Medical Centre of Excellence, Doha, Qatar.
⁴ School of Human Movement & Nutrition Science, The University of Queensland, Saint Lucia, Queensland, Australia.
⁵ Department of Sports Medicine, Norwegian School of Sports Sciences, Oslo, Norway.
⁶ Aspetar Sports Injury and Illness Prevention Programme (ASPREV), Aspetar Orthopaedic and Sports Medicine Hospital, FIFA Medical Centre of Excellence, Doha, Qatar.

Abstract

Objectives: Vertical jump performance (height) is a more representative metric for knee function than horizontal hop performance (distance) in healthy individuals. It is not known what the biomechanical status of athletes after anterior cruciate ligament (ACL) reconstruction (ACLR) is at the time they are cleared to return to sport (RTS) or whether vertical performance metrics better evaluate knee function.

Methods: Standard marker-based motion capture and electromyography (EMG) were collected from 26 male athletes cleared to RTS after ACLR and 22 control healthy subjects during single leg vertical jumps (SLJ) and single leg drop jumps (SLDJ). Performance outcomes, jump height and the Reactive Strength Index, were calculated. Sagittal plane kinematics, joint moments and joint work were obtained using inverse dynamics and lower limb muscle forces were computed using an EMG-constrained musculoskeletal model. Muscle contribution was calculated as a percentage of the impulse of all muscle forces in the model. Between-limb and between-group differences were explored using mixed models analyses.

Results: Jump performance, assessed by jump height and Reactive Strength Index, was significantly lower in the involved than the uninvolved limb and controls, with large effect sizes. For the ACLR group, jump height limb symmetry index was 83% and 77% during the SLJ and SLDJ, respectively. Work generation was significantly less in the involved knee compared to uninvolved limb and controls during the SLJ (p<0.001; d=1.19; p=0.003, d=0.91, respectively) and during the SLDJ (p<0.001; d=1.54; p=0.002, d=1.05, respectively). Hamstrings muscle contribution was greater in the involved compared to the uninvolved limb and controls, whereas soleus contribution was lower in the involved limb compared to controls.

Conclusions: During vertical jumps, male athletes after ACLR at RTS still exhibit knee biomechanical deficits, despite symmetry in horizontal functional performance and strength tests. Vertical performance metrics like jump height and RSI can better identify interlimb asymmetries than the more commonly used hop distance and should be included in the testing battery for the RTS.

Keywords: anterior cruciate ligament; injury prevention; knee injuries; sports.

MeSH terms

Anterior Cruciate Ligament Injuries* / surgery
Anterior Cruciate Ligament Reconstruction*
Athletes
Biomechanical Phenomena
Female
Humans
Knee Joint
Leg
Lower Extremity / physiology
Male
Return to Sport