Experimental evidence for the independent modulation of step frequency and duty factor during endurance running
Abstract
Purpose:
Running patterns have been conceptualized as a continuum defined by step frequency (SF) and duty factor (DF), two variables proposed to act as independent axes within a dual-axis framework. However, their experimental independence at a fixed speed has not yet been verified. This study aimed to directly test the independence of SF and DF during treadmill running at 11 km·h-1 using a real-time visual biofeedback system.
Methods:
Fifteen trained runners performed a preferred baseline trial followed by 16 randomized conditions in which either SF (±6%, ±12%) or DF (±8%, ±16%) was imposed while the other variable was free to vary.
Results:
SF manipulation did not significantly affect DF (P = 0.14), with adjustments in contact and flight time occurring in parallel and preserving the ratio underlying DF. In contrast, extreme DF manipulations (±16%) significantly altered SF (P = 0.03), as opposing adjustments in contact and flight time were insufficient to stabilize step time.
Conclusions:
These findings provide the first direct experimental evidence that SF and DF can be modulated independently within a functional range, partly confirming the dual-axis model. Practically, SF and DF represent distinct levers for modifying running mechanics, offering clinicians and coaches flexible strategies for performance optimization.
© Copyright 2026 Medicine & Science in Sports & Exercise. Lippincott Williams & Wilkins. All rights reserved.
| Subjects: | |
|---|---|
| Notations: | endurance sports |
| Tagging: | Schrittfrequenz |
| Published in: | Medicine & Science in Sports & Exercise |
| Language: | English |
| Published: |
2026
|
| Volume: | 58 |
| Issue: | 4 |
| Pages: | 766-775 |
| Document types: | article |
| Level: | advanced |