Litcius/Paper detail

Remote Determination of Critical Speed and Critical Power in Recreational Runners

Ben Hunter, Adam Ledger, Daniel Muniz‐Pumares

2023International Journal of Sports Physiology and Performance13 citationsDOIOpen Access PDF

Abstract

PURPOSE: This study aimed to compare estimations of critical speed (CS) and work completed above CS (D'), and their analogies for running power (critical power [CP] and W'), derived from raw data obtained from habitual training (HAB) and intentional maximal efforts in the form of time trials (TTs) and 3-minute all-out tests (3MTs) in recreational runners. The test-retest reliability of the 3MT was further analyzed. METHODS: Twenty-three recreational runners (4 female) used a foot pod to record speed, altitude, and power output for 8 consecutive weeks. CS and D', and CP and W', were calculated from the best 3-, 7-, and 12-minute segments recorded in the first 6 weeks of their HAB and in random order in weeks 7 and 8 from 3 TTs (3, 7, and 12 min) and three 3MTs (to assess test-retest reliability). RESULTS: There was no difference between estimations of CS or CP derived from HAB, TT, and 3MT (3.44 [0.63], 3.42 [0.53], and 3.76 [0.57] m · s-1 and 281 [41], 290 [45], and 305 [54] W, respectively), and strong agreement between HAB and TT for CS (r = .669) and CP (r = .916). Limited agreement existed between estimates of D'/W'. Moderate reliability of D'/W' was demonstrated between the first and second 3MTs, whereas excellent reliability was demonstrated for CS/CP. CONCLUSION: These data suggest that estimations of CS/CP can be derived remotely, from either HAB, TT, or 3MT, although the lower agreement between D'/W' warrants caution when using these measures interchangeably.

Topics & Concepts

Reliability (semiconductor)MathematicsLimits of agreementAnimal scienceStatisticsPower (physics)MedicinePhysicsNuclear medicineBiologyQuantum mechanicsSports Performance and TrainingLower Extremity Biomechanics and PathologiesCardiovascular and exercise physiology