Using the variability of continuous relative phase as a measure to discriminate between healthy and injured runners.

Several studies have used variability of continuous relative phase (CRP) to investigate overuse injuries, since low variability is thought to be related to running injuries. This study investigates whether the analysis of CRP variability leads to additional information about possible differences or similarities between healthy and injured runners. Further, a decision about future applications of CRP variability should be based on the ability to implement and interpret data. 18 healthy female runners (CO) and 18 female runners who suffered from iliotibial band syndrome (ITBS) were evaluated by calculating CRP variability for 4 coupling pairs. Besides analyzing continuous variability of CRP, we also averaged it for the whole stance phase and for four predefined stance phase intervals. Confidence intervals were displayed and independent t-tests for comparing the two groups were conducted. During initial and terminal stance phase as well as after heel-off an increase in CRP variability was detected for both groups of runners. In contrast, the foot flat period was characterized by stable joint coordination and a decrease in variability. This paper presents possible interpretations of CRP variability but no statistically significant differences in CRP variability were found between the two groups of runners. Despite the missing statistical significance, a relationship between high CRP variability and injury seems to be conceivable, since the injured runners demonstrated an increased variability for all couplings in the first half of the stance phase. Further application of CRP variability in biomechanical research is essential to determine whether a relationship exists between injury and coordination variability.

[1]  J L Jensen,et al.  A dynamical systems investigation of lower extremity coordination during running over obstacles. , 2001, Clinical biomechanics.

[2]  V. T. Inman,et al.  Anthropometric studies of the human foot and ankle , 1969 .

[3]  P. Hume,et al.  Evaluation of lower extremity overuse injury potential in runners. , 2000, Medicine and science in sports and exercise.

[4]  B. Marti,et al.  On the epidemiology of running injuries , 1988, The American journal of sports medicine.

[5]  S. James Running Injuries to the Knee , 1995, The Journal of the American Academy of Orthopaedic Surgeons.

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

[7]  J. Kelso Phase transitions and critical behavior in human bimanual coordination. , 1984, The American journal of physiology.

[8]  J. Taunton,et al.  A retrospective case-control analysis of 2002 running injuries , 2002, British journal of sports medicine.

[9]  B Abernethy,et al.  Relative phase quantifies interjoint coordination. , 1993, Journal of biomechanics.

[10]  A. Cappozzo,et al.  Human movement analysis using stereophotogrammetry. Part 1: theoretical background. , 2005, Gait & posture.

[11]  William J. McDermott,et al.  Issues in Quantifying Variability From a Dynamical Systems Perspective , 2000 .

[12]  R C Wagenaar,et al.  Effects of walking velocity on relative phase dynamics in the trunk in human walking. , 1996, Journal of biomechanics.

[13]  J P Scholz,et al.  Dynamic pattern theory--some implications for therapeutics. , 1990, Physical therapy.

[14]  Joseph Hamill,et al.  Lower extremity kinematic and kinetic differences in runners with high and low arches , 2001 .

[15]  W. Mechelen,et al.  Running Injuries , 1992, Sports medicine.

[16]  E S Grood,et al.  A joint coordinate system for the clinical description of three-dimensional motions: application to the knee. , 1983, Journal of biomechanical engineering.

[17]  Thomas L. Milani,et al.  Detecting foot-to-ground contact from kinematic data in running , 2009 .

[18]  Tung-Wu Lu,et al.  Bilateral knee osteoarthritis does not affect inter-joint coordination in older adults with gait deviations during obstacle-crossing. , 2009, Journal of biomechanics.

[19]  Kurt Manal,et al.  A comparison of three-dimensional lower extremity kinematics during running between excessive pronators and normals. , 1998, Clinical biomechanics.

[20]  T. Lu,et al.  Age effects on the inter-joint coordination during obstacle-crossing. , 2009, Journal of biomechanics.

[21]  J. Perry,et al.  Gait Analysis , 2024 .

[22]  Joseph Hamill,et al.  Variability of Stride Characteristics and Joint Coordination among Individuals with Unilateral Patellofemoral Pain , 2002 .

[23]  Jason C Gillette,et al.  Lower extremity mechanics of iliotibial band syndrome during an exhaustive run. , 2007, Gait & posture.

[24]  R. Emmerik,et al.  Coordination patterns of walking and running at similar speed and stride frequency , 1999 .

[25]  W. van Mechelen Running injuries. A review of the epidemiological literature. , 1992, Sports medicine.

[26]  Nicholas Stergiou,et al.  Effect of normalization and phase angle calculations on continuous relative phase. , 2002, Journal of biomechanics.

[27]  T. Horstmann,et al.  Kinematic classification of iliotibial band syndrome in runners , 2011, Scandinavian journal of medicine & science in sports.

[28]  M. Fredericson,et al.  Ermüdungsfrakturen bei Athleten , 1997, Der Orthopäde.

[29]  Reed Ferber,et al.  Lower extremity joint coupling during running: a current update. , 2004, Clinical biomechanics.

[30]  Razib Khaund,et al.  Iliotibial band syndrome: a common source of knee pain. , 2005, American family physician.

[31]  Tracy A Dierks,et al.  Discrete and continuous joint coupling relationships in uninjured recreational runners. , 2007, Clinical biomechanics.

[32]  P Kannus,et al.  Etiology and pathophysiology of chronic tendon disorders in sports , 1997, Scandinavian journal of medicine & science in sports.

[33]  R. Brand,et al.  Prediction of hip joint centre location from external landmarks , 1989 .

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

[35]  A. Cappozzo,et al.  Human movement analysis using stereophotogrammetry. Part 2: instrumental errors. , 2004, Gait & posture.

[36]  R. Emmerik,et al.  A dynamical systems approach to lower extremity running injuries. , 1999, Clinical biomechanics.

[37]  F. Backx,et al.  Iliotibial Band Syndrome in Runners , 2012, Sports Medicine.

[38]  D. De Clercq,et al.  Temporal characteristics of foot roll-over during barefoot jogging: reference data for young adults. , 2005, Gait & posture.

[39]  Joseph Hamill,et al.  Limitations in the use and interpretation of continuous relative phase. , 2003, Journal of biomechanics.

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

[41]  Jason C Gillette,et al.  Continuous relative phase variability during an exhaustive run in runners with a history of iliotibial band syndrome. , 2008, Journal of applied biomechanics.