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The magnitude and time‐course of physiological responses to 9 weeks of incremental ramp testing

Christoph Zinner, Annika Gerspitzer, Peter Düking, Jan Boone, Thorsten Schiffer, Hans‐Christer Holmberg, Billy Sperlich

2023Scandinavian Journal of Medicine and Science in Sports19 citationsDOIOpen Access PDF

Abstract

Abstract Purpose The aims of this study were to assess (1) the day‐to‐day variability in, and (2) the magnitude and time‐course of adaptation of physiological parameters (i.e., maximal oxygen uptake [VO 2 max], heart rate [HR], blood lactate concentration, respiratory exchange ratio [RER], ratings of perceived exertion [RPE], and time‐to‐exhaustion [TTE]) in response to an intervention involving three incremental ramp tests per week for 9 weeks. Methods Twelve participants (25 ± 4 yrs, VO 2 max, 47.8 ± 5.2 mL∙min −1 ∙kg −1 (means ± SD)) completed the entire experimental procedure. The tests comprised a 5‐min constant workload to obtain submaximal parameters followed by an incremental protocol until exhaustion. Results The mean day‐to‐day variability for the maximal value of VO 2 was 2.8%, 1.1% for HR, 18.1% for blood lactate concentration, 2.1% for RER, 1.1% for RPE, and 5.0% for TTE. The values for the corresponding submaximal variables were 3.8% for VO 2 , 2.1% for HR, 15.6% for blood lactate concentration, 2.6% for RER and 6.0% for RPE. VO 2 max (+4.7% ± 3.5%), TTE (+17.9% ± 8.6%), and submaximal HR (−3.2 ± 3.5%) improved significantly. Except for RPE ( p < 0.01), there were no alterations in the coefficient of variation for any parameter. On the group level, the first changes greater than the day‐to‐day variability in VO 2 max, TTE, and submaximal HR were observed after 21, 12, and 9 training sessions, respectively. Conclusion Based on our findings, we recommend that training studies include assessment of the reliability of the measurements, for example, the CVs in the specific laboratory to be able to judge if the changes detected are actually physiological.

Topics & Concepts

MedicineBlood lactateRespiratory exchange ratioVO2 maxHeart rateCardiologyPerceived exertionLactate thresholdIncremental exerciseInternal medicineAnimal sciencePhysical therapyBlood pressureBiologySports Performance and TrainingCardiovascular and exercise physiologyHeart Rate Variability and Autonomic Control