Abstract:
Center of mass (COM) acceleration complexity has been shown to decrease during a single fatiguing run. However, no studies have investigated how COM acceleration complexity changes over the course of a running training program and before the onset of a running related overuse injury (RROI). The purpose of the present study was to observe if the COM acceleration complexity of collegiate cross-country athletes over the course of their season training changed prior onset of a RROI. Thirty athletes wore a triaxial, research grade accelerometer secured over the posterior aspect of their pelvis during all continuous training runs. The accelerometers were worn for the entire cross-country season. Participants completed a daily online survey to report any musculoskeletal pain or injuries. An RROI was assessed by a trainer and defined as any musculoskeletal pain or problem that resulted in a reduction or stoppage of normal training. Control entropy (CE) analysis was used to assess the complexity of the resultant COM acceleration collected by the wearable accelerometer. Participants who developed a RROI and matched (by gender and age) uninjured controls were compared. Seven participants developed a RROI. No change in COM acceleration complexity was seen prior to the diagnosed RROI (p = 0.64). The unchanged COM acceleration complexity may be explained by similar training workloads between start of the season and immediately prior to RROI onset (p = 0.20).