Purpose: Running gait variability appears to be a new metric related to fatigue in long-distance runners. However, no study has verified the changes in gait variability over a longitudinal study involving well-experienced runners. Therefore, the aim of this study was to investigate the changes in gait variability in distance runner before and after a week endurance training program. Methods: A male runner (age 23 years; body mass 58 kg; stature 1.70 m, BMI 20 kg·m−2) completed two critical speed (CS) test and six trial at different speeds (calculated by CS) with 9-week of training in-between. At the same time heart rate (HR) was continuously recorded and normalized as a percentage of the maximal heart rate (220 - age) %HRmax, serving as a proxy for metabolic expenditure. Additionally, kinematic (contact time (CT), flight time (FT), step length (SL), step rate (SR)) and kinetic measurements (leg (kvert) and vertical (kleg) stiffness), were recorded. While the running gait variability was calculated as phase coordination index (PCI). Results: CS and HR were 16.40/18.00 km·h-1 and 93.19±1.23/93.81±2.38 %HRmax in baseline and after the training, respectively. The kinematic and kinetic variables studied at different speeds (13.80-14.40-15.00-15.70-16.40-17.10 km·h-1) showed a significative training effect vs baseline conditions for CT (P= .010), FT (P= .010), SL (P= .002), SR (P= .002), kvert (P=.003), kleg (P= .0001). At the same way the metabolic demand and PCI changed significantly after the training compared to the baseline condition for average/maximum HR (P= .009 – 0.024, respectively) and PCI (P= .009). Conclusions: These results suggest that gait variability is one mechanical determinant that demonstrates the adaptation of training load when neuromuscular output related to physiological efforts is under stress conditions, such as running training. Therefore, PCI could be a useful tool for monitoring the impact of running training load on bilateral running coordination.
The Impact of Training Load on Running Gait Variability: A Pilot Study / J. Padulo, G. Manenti, F. Esposito. - In: ACTA KINESIOLOGICA. - ISSN 1840-3700. - 17:2(2023 Dec 31), pp. 1-6. [10.51371/issn.1840-2976.2023.17.2.5]
The Impact of Training Load on Running Gait Variability: A Pilot Study
J. Padulo
Primo
;G. ManentiSecondo
;F. EspositoUltimo
2023
Abstract
Purpose: Running gait variability appears to be a new metric related to fatigue in long-distance runners. However, no study has verified the changes in gait variability over a longitudinal study involving well-experienced runners. Therefore, the aim of this study was to investigate the changes in gait variability in distance runner before and after a week endurance training program. Methods: A male runner (age 23 years; body mass 58 kg; stature 1.70 m, BMI 20 kg·m−2) completed two critical speed (CS) test and six trial at different speeds (calculated by CS) with 9-week of training in-between. At the same time heart rate (HR) was continuously recorded and normalized as a percentage of the maximal heart rate (220 - age) %HRmax, serving as a proxy for metabolic expenditure. Additionally, kinematic (contact time (CT), flight time (FT), step length (SL), step rate (SR)) and kinetic measurements (leg (kvert) and vertical (kleg) stiffness), were recorded. While the running gait variability was calculated as phase coordination index (PCI). Results: CS and HR were 16.40/18.00 km·h-1 and 93.19±1.23/93.81±2.38 %HRmax in baseline and after the training, respectively. The kinematic and kinetic variables studied at different speeds (13.80-14.40-15.00-15.70-16.40-17.10 km·h-1) showed a significative training effect vs baseline conditions for CT (P= .010), FT (P= .010), SL (P= .002), SR (P= .002), kvert (P=.003), kleg (P= .0001). At the same way the metabolic demand and PCI changed significantly after the training compared to the baseline condition for average/maximum HR (P= .009 – 0.024, respectively) and PCI (P= .009). Conclusions: These results suggest that gait variability is one mechanical determinant that demonstrates the adaptation of training load when neuromuscular output related to physiological efforts is under stress conditions, such as running training. Therefore, PCI could be a useful tool for monitoring the impact of running training load on bilateral running coordination.
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