Lower extremity mechanics of iliotibial band syndrome during an exhaustive run.

Injury patterns in distance running may be related to kinematic adjustments induced by fatigue. The goal was to measure changes in lower extremity mechanics during an exhaustive run in individuals with and without a history of iliotibial band syndrome (ITBS). Sixteen recreational runners ran to voluntary exhaustion on a treadmill at a self-selected pace. Eight runners had a history of ITBS. Twenty-three reflective marker positions were recorded by an eight-camera 120 Hz motion capture system. Joint angles during stance phase were exported to a musculoskeletal model (SIMM) with the iliotibial band (ITB) modeled as a passive structure to estimate strain in the ITB. For ITBS runners, at the end of the run: (1) knee flexion at heel-strike was higher than control (20.6 degrees versus 15.3 degrees, p=0.01); (2) the number of knees with predicted ITB impingment upon the lateral femoral epicondyle increased from 6 to 11. Strain in the ITB was higher in the ITBS runners throughout all of stance. Maximum foot adduction in the ITBS runners was higher versus control at the start of the run (p=0.003). Maximum foot inversion (p=0.03) and maximum knee internal rotation velocity (p=0.02) were higher versus control at the end of the run. In conclusion, ITB mechanics appear to be related to changes in knee flexion at heel-strike and internal rotation of the leg. These observations may suggest kinematic discriminators for clinical assessment.

[1]  D B Clement,et al.  A guide to the prevention of running injuries. , 1980, Canadian family physician Medecin de famille canadien.

[2]  D. De Clercq,et al.  A prospective study of gait related risk factors for exercise-related lower leg pain. , 2006, Gait & posture.

[3]  W. Bandy,et al.  Use of an inclinometer to measure flexibility of the iliotibial band using the Ober test and the modified Ober test: differences in magnitude and reliability of measurements. , 2003, The Journal of orthopaedic and sports physical therapy.

[4]  M. T. Gross,et al.  Repeatability of lower extremity kinetics and kinematics for standardized and self-selected running speeds. , 2006, Gait & posture.

[5]  J. Taunton,et al.  Running Shoes, Orthotics, and Injuries , 1985, Sports medicine.

[6]  L. Osternig,et al.  Injuries to runners , 1978, The Journal of sports medicine.

[7]  S. Piazza,et al.  Measurement of the screw-home motion of the knee is sensitive to errors in axis alignment. , 2000, Journal of biomechanics.

[8]  Benno M Nigg,et al.  Foot orthoses affect frequency components of muscle activity in the lower extremity. , 2006, Gait & posture.

[9]  B. Mason,et al.  Biomechanics of Iliotibial Band Friction Syndrome in Runners , 1996, The American journal of sports medicine.

[10]  J A Nyland,et al.  Relationship of fatigued run and rapid stop to ground reaction forces, lower extremity kinematics, and muscle activation. , 1994, The Journal of orthopaedic and sports physical therapy.

[11]  A Lees,et al.  High-speed non-invasive measurement of tibial rotation during the impact phase of running , 2005, Ergonomics.

[12]  Benno M. Nigg,et al.  Biomechanics of running shoes , 1988 .

[13]  S. Sahrmann,et al.  Hip Abductor Weakness in Distance Runners with Iliotibial Band Syndrome , 2000, Clinical journal of sport medicine : official journal of the Canadian Academy of Sport Medicine.

[14]  K. R. Williams,et al.  Relationship between distance running mechanics, running economy, and performance. , 1987, Journal of applied physiology.

[15]  P R Cavanagh,et al.  Ground reaction forces in distance running. , 1980, Journal of biomechanics.

[16]  John J Leddy,et al.  Kinetic changes with fatigue and relationship to injury in female runners. , 2005, Medicine and science in sports and exercise.

[17]  C. A. Noble Iliotibial band friction syndrome in runners , 1980, The American journal of sports medicine.

[18]  Paavo V. Komi,et al.  Effects of marathon fatigue on running kinematics and economy , 1991 .

[19]  W W Curl,et al.  Etiology of iliotibial band friction syndrome in distance runners. , 1995, Medicine and science in sports and exercise.

[20]  Joseph Hamill,et al.  ASB clinical biomechanics award winner 2006 prospective study of the biomechanical factors associated with iliotibial band syndrome. , 2007, Clinical biomechanics.

[21]  D. Gordon E. Robertson,et al.  Research Methods in Biomechanics , 2004 .

[22]  B M Nigg,et al.  On the potential of various approaches in load analysis to reduce the frequency of sports injuries. , 1990, Journal of biomechanics.

[23]  A. J. van den Bogert,et al.  Contributions of proximal and distal moments to axial tibial rotation during walking and running. , 2000, Journal of biomechanics.

[24]  Novacheck,et al.  The biomechanics of running. , 1998, Gait & posture.

[25]  Scott Tashman,et al.  Abnormal Rotational Knee Motion during Running after Anterior Cruciate Ligament Reconstruction , 2004, The American journal of sports medicine.

[26]  Verkerke,et al.  Measuring changes in step parameters during an exhausting running exercise. , 1998, Gait & posture.

[27]  T. Derrick,et al.  Impacts and kinematic adjustments during an exhaustive run. , 2002, Medicine and science in sports and exercise.

[28]  L. Blankevoort,et al.  Hamstrings and iliotibial band forces affect knee kinematics and contact pattern , 2000, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.