Anna Katharina Dunst

Overview

Explore the profile of Anna Katharina Dunst including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 9

Citations 31

Followers 0

Related Specialties

Public Health

Orthopedics

General Medicine

Top 10 Co-Authors

Clemens Hesse

Olaf Ueberschar

Hamish Ferguson

Hans-Christer Holmberg

Tony Zhou

J Geoffrey Chase

Kamil Michalik

Sebastian Klich

Andri Feldmann

Chris Harnish

Published In

Sports (Basel)

PeerJ

Int J Sports Med

Int J Sports Physiol Perform

Biol Sport

Affiliations

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Recent Articles

Enhancing endurance performance predictions: the role of movement velocity in metabolic simulations demonstrated by cycling cadence

Dunst A, Hesse C, Ueberschar O

Eur J Appl Physiol . 2025 Feb; PMID: 39904799

Background: Mader's mathematical model, widely employed for endurance performance prediction, aims to accurately represent metabolic response to exercise. However, it traditionally overlooks dynamic changes in metabolic processes at varying movement...

The Influence of Pedaling Frequency on Blood Lactate Accumulation in Cycling Sprints

Haase R, Dunst A, Nitzsche N

Int J Sports Med . 2024 Apr; 45(8):608-615. PMID: 38648800

Anaerobic performance diagnostics in athletes relies on accurate measurements of blood lactate concentration and the calculation of blood lactate accumulation resulting from glycolytic processes. In this study, we investigated the...

Understanding optimal cadence dynamics: a systematic analysis of the power-velocity relationship in track cyclists with increasing exercise intensity

Dunst A, Hesse C, Ueberschar O

Front Physiol . 2024 Apr; 15:1343601. PMID: 38645689

This study aimed to investigate the changes in force-velocity (F/v) and power-velocity (P/v) relationships with increasing work rate up to maximal oxygen uptake and to assess the resulting alterations in...

Applications of near-infrared spectroscopy in "anaerobic" diagnostics - SmO kinetics reflect PCr dephosphorylation and correlate with maximal lactate accumulation and maximal pedalling rate

Dunst A, Manunzio C, Feldmann A, Hesse C

Biol Sport . 2023 Oct; 40(4):1019-1031. PMID: 37867743

We investigated the relationship of the time-dependent behaviour of muscle oxygen saturation SmO(t), phosphagen energy supply W(t) and blood lactate accumulation ΔBLC(t) during a 60-s all-out cycling sprint and tested...

Track cycling sprint sex differences using power data

Ferguson H, Harnish C, Klich S, Michalik K, Dunst A, Zhou T, et al.

PeerJ . 2023 Jul; 11:e15671. PMID: 37456896

Objectives: Currently, there are no data on sex differences in the power profiles in sprint track cycling. This cross-section study analyses retrospective data of female and male track sprint cyclists...

Power-duration relationship comparison in competition sprint cyclists from 1-s to 20-min. Sprint performance is more than just peak power

Ferguson H, Harnish C, Klich S, Michalik K, Dunst A, Zhou T, et al.

PLoS One . 2023 May; 18(5):e0280658. PMID: 37235558

Current convention place peak power as the main determinant of sprint cycling performance. This study challenges that notion and compares two common durations of sprint cycling performance with not only...

A Novel Approach to the Determination of Time- and Fatigue-Dependent Efficiency during Maximal Cycling Sprints

Dunst A, Hesse C, Ueberschar O, Holmberg H

Sports (Basel) . 2023 Feb; 11(2). PMID: 36828314

Background: During maximal cycling sprints, efficiency (η) is determined by the fiber composition of the muscles activated and cadence-dependent power output. To date, due to methodological limitations, it has only...

The Concept of Optimal Dynamic Pedalling Rate and Its Application to Power Output and Fatigue in Track Cycling Sprinters-A Case Study

Dunst A, Hesse C, Ueberschar O

Sports (Basel) . 2023 Jan; 11(1). PMID: 36668723

Sprint races in track cycling are characterised by maximal power requirements and high-power output over 15 to 75 s. As competition rules limit the athlete to a single gear, the...

A Novel Approach to Determining the Alactic Time Span in Connection with Assessment of the Maximal Rate of Lactate Accumulation in Elite Track Cyclists

Dunst A, Hesse C, Feldmann A, Holmberg H

Int J Sports Physiol Perform . 2023 Jan; 18(2):157-163. PMID: 36596309

Purpose: Following short-term all-out exercise, the maximal rate of glycolysis is frequently assessed on the basis of the maximal rate of lactate accumulation in the blood. Since the end of...

10.

Fatigue-Free Force-Velocity and Power-Velocity Profiles for Elite Track Sprint Cyclists: The Influence of Duration, Gear Ratio and Pedalling Rates

Dunst A, Hesse C, Ueberschar O, Holmberg H

Sports (Basel) . 2022 Sep; 10(9). PMID: 36136385

Background: Maximal force-velocity (F/v) profiles for track cyclists are commonly derived from ergometer sprints using an isovelocity or isoinertial approach. Previously, an attempt was made to derive maximal F/v profiles...