Biomechanical jumping differences among elite female handball players with and without previous anterior cruciate ligament reconstruction: a novel inertial sensor unit study

Persistent biomechanical and jumping capacity alterations have been observed among female athletes who have sustained anterior cruciate ligament (ACL) injuries. The purpose of this study was to examine if biomechanical jumping differences persist among a cohort of elite female handball players with previous ACL reconstruction several years after return to top-level competition. In order to achieve this goal, a direct mechanics simplified analysis by using a single Inertial Sensor Unit (IU) was used. Twenty-one elite female (6 anterior cruciate ligament reconstructed and 15 uninjured control players) handball players were recruited and evaluated 6.0 ± 3.5 years after surgical anterior cruciate ligament reconstruction. Bilateral and unilateral vertical jumps were performed to evaluate the functional performance and a single inertial sensor unit was employed in order to collect 3D acceleration and 3D orientation data. Previously ACL-reconstructed analysed athletes demonstrated significant (p < 0.05) alterations in relation to the three-dimensional axis (X–Y–Z) supported accelerations and differing jump phase durations, including jumping performance values, in both bilateral and unilateral jumping manoeuvres several years after ACL reconstruction. Identification of the encountered deficits through the use of an IU devise could provide clinicians with a new reliable tool for movement analysis in a clinical setting.

[1]  T. Hewett,et al.  Trunk and hip control neuromuscular training for the prevention of knee joint injury. , 2008, Clinics in sports medicine.

[2]  Kevin R Ford,et al.  Utilization of modified NFL combine testing to identify functional deficits in athletes following ACL reconstruction. , 2011, The Journal of orthopaedic and sports physical therapy.

[3]  Kevin R Ford,et al.  Understanding and preventing acl injuries: current biomechanical and epidemiologic considerations - update 2010. , 2010, North American journal of sports physical therapy : NAJSPT.

[4]  A. Ekeland,et al.  Assessment of functional tests after anterior cruciate ligament surgery. , 1994, The Journal of orthopaedic and sports physical therapy.

[5]  Van Der Harst,et al.  Leg kinematics and kinetics in landing from a single-leg hop for distance. A comparison between dominant and non-dominant leg. , 2007, Clinical biomechanics.

[6]  R Petschnig,et al.  The relationship between isokinetic quadriceps strength test and hop tests for distance and one-legged vertical jump test following anterior cruciate ligament reconstruction. , 1998, The Journal of orthopaedic and sports physical therapy.

[7]  T. Hewett,et al.  Biomechanical Measures during Landing and Postural Stability Predict Second Anterior Cruciate Ligament Injury after Anterior Cruciate Ligament Reconstruction and Return to Sport , 2010, The American journal of sports medicine.

[8]  Nora Millor,et al.  An evaluation of the 30-s chair stand test in older adults: frailty detection based on kinematic parameters from a single inertial unit , 2013, Journal of NeuroEngineering and Rehabilitation.

[9]  Y. Kaplan Identifying individuals with an anterior cruciate ligament-deficient knee as copers and noncopers: a narrative literature review. , 2011, The Journal of orthopaedic and sports physical therapy.

[10]  L. Engebretsen,et al.  Relationship between floor type and risk of ACL injury in team handball , 2003, Scandinavian journal of medicine & science in sports.

[11]  Julien Favre,et al.  A wearable system to assess risk for anterior cruciate ligament injury during jump landing: measurements of temporal events, jump height, and sagittal plane kinematics. , 2011, Journal of biomechanical engineering.

[12]  V. Stiles,et al.  Accelerometer counts and raw acceleration output in relation to mechanical loading. , 2012, Journal of biomechanics.

[13]  Herbert Hatze,et al.  Validity and Reliability of Methods for Testing Vertical Jumping Performance , 1998 .

[14]  E. Hansen The effect of electromagnetic fields on blood circulation , 1993 .

[15]  Alexis Ortiz,et al.  Landing Mechanics During Side Hopping and Crossover Hopping Maneuvers in Noninjured Women and Women With Anterior Cruciate Ligament Reconstruction , 2011, PM & R : the journal of injury, function, and rehabilitation.

[16]  T. Hortobágyi,et al.  The interaction of trunk-load and trunk-position adaptations on knee anterior shear and hamstrings muscle forces during landing. , 2010, Journal of athletic training.

[17]  T. Hewett,et al.  Effects of sex on compensatory landing strategies upon return to sport after anterior cruciate ligament reconstruction. , 2011, The Journal of orthopaedic and sports physical therapy.

[18]  M. Izquierdo,et al.  Effects of heavy resistance training on maximal and explosive force production, endurance and serum hormones in adolescent handball players , 1999, European Journal of Applied Physiology and Occupational Physiology.

[19]  T. Hewett,et al.  Limb Asymmetries in Landing and Jumping 2 Years Following Anterior Cruciate Ligament Reconstruction , 2007, Clinical journal of sport medicine : official journal of the Canadian Academy of Sport Medicine.

[20]  M. Izquierdo,et al.  Wavelet analysis based on time-frequency information discriminate chronic ankle instability. , 2010, Clinical biomechanics.

[21]  C. Prodromos,et al.  A meta-analysis of the incidence of anterior cruciate ligament tears as a function of gender, sport, and a knee injury-reduction regimen. , 2007, Arthroscopy : the journal of arthroscopic & related surgery : official publication of the Arthroscopy Association of North America and the International Arthroscopy Association.

[22]  Y A Féry,et al.  Unilateral Jump Behavior in Young Professional Female Ballet Dancers , 2001, The International journal of neuroscience.

[23]  Brian Caulfield,et al.  An Ambulatory Method of Identifying Anterior Cruciate Ligament Reconstructed Gait Patterns , 2014, Sensors.

[24]  G. Brüggemann,et al.  Altered landing mechanics in ACL-reconstructed patients. , 2013, Medicine and science in sports and exercise.

[25]  E. Rampinini,et al.  A vertical jump force test for assessing bilateral strength asymmetry in athletes. , 2007, Medicine and science in sports and exercise.

[26]  A L Hof,et al.  Abnormal landing strategies after ACL reconstruction , 2010, Scandinavian journal of medicine & science in sports.

[27]  T. Andriacchi,et al.  Inertial Sensor-Based Feedback Can Reduce Key Risk Metrics for Anterior Cruciate Ligament Injury During Jump Landings , 2012, The American journal of sports medicine.

[28]  Lars Engebretsen,et al.  Injury Mechanisms for Anterior Cruciate Ligament Injuries in Team Handball , 2004, The American journal of sports medicine.

[29]  F R Noyes,et al.  Abnormal lower limb symmetry determined by function hop tests after anterior cruciate ligament rupture , 1991, The American journal of sports medicine.

[30]  J. Bencke,et al.  Biomechanical evaluation of the side-cutting manoeuvre associated with ACL injury in young female handball players , 2013, Knee Surgery, Sports Traumatology, Arthroscopy.