Ralf Haase, Anna Katharina Dunst & Nico Nitzsche. (2024) The Influence of Pedaling Frequency on Blood Lactate Accumulation in
Cycling Sprints. International Journal of Sports Medicine.
Crossref
Tamara Valenčič, Paul Ansdell, Callum G. Brownstein, Padraig M. Spillane, Aleš Holobar & Jakob Škarabot. (2024) Motor unit discharge rate modulation during isometric contractions to failure is intensity‐ and modality‐dependent. The Journal of Physiology.
Crossref
Donald L. Peden, Robert Rogers, Emma A. Mitchell, Suzanne M. Taylor, Stephen J. Bailey & Richard A. Ferguson. (2024)
Skeletal muscle mitochondrial correlates of critical power and
W'
in healthy active individuals
. Experimental Physiology.
Crossref
M. Chartogne, A. Rahmani, S. Landry & B. Morel. (2023) Comparison of neuromuscular fatigability amplitude and etiologies between fatigued and non-fatigued cancer patients. European Journal of Applied Physiology 124:4, pages 1175-1184.
Crossref
Danilo França Conceição dos Santos, Samuel Penna Wanner, Rodolfo Ferreira de Paula, Gustavo Oliveira Zanetti, Donizete Cícero Xavier de Oliveira, Fabio Lera Orsatti & Francisco Teixeira-Coelho. (2024) Acute alcohol ingestion decreases the work done above the end-test power during a 3-min all-out cycling exercise. Alcohol and Alcoholism 59:3.
Crossref
Alice Boillet, Laurent A. Messonnier & Caroline Cohen. (2024) Individualized physiology-based digital twin model for sports performance prediction: a reinterpretation of the Margaria–Morton model. Scientific Reports 14:1.
Crossref
M. Bowen, P. Samozino, M. Vonderscher, D. Dutykh & B. Morel. (2024) Mathematical modeling of exercise fatigability in the severe domain: A unifying integrative framework in isokinetic condition. Journal of Theoretical Biology 578, pages 111696.
Crossref
Jonah P. Drake, Axel Finke & Richard A. Ferguson. (2023) Modelling human endurance: power laws vs critical power. European Journal of Applied Physiology 124:2, pages 507-526.
Crossref
Fabienne Bruggisser, Jonathan Wagner, Max Niemeyer, Raphael Schoch, Fabian Schwendinger, Arno Schmidt-Trucksäss & Raphael Knaier. (2024) A verification phase adds little value to the determination of maximum oxygen uptake in well-trained adults. European Journal of Applied Physiology.
Crossref
Noah Perez, Payton Miller & John W. FarrellIIIIII. (2024) Intensity Distribution of Collegiate Cross-Country Competitions. Sports 12:1, pages 18.
Crossref
David Wilfred Hill, Linda Weaver Glass & Jakob Langberg Vingren. (2024) VELOCIDADE CRÍTICA, VO2MAX E LIMITES DE O DOMÍNIO DE INTENSIDADE DE EXERCÍCIO SEVERO. Revista Brasileira de Medicina do Esporte 30.
Crossref
David Wilfred Hill, Linda Weaver Glass & Jakob Langberg Vingren. (2024) CRITICAL SPEED, THRESHOLDS FOR VO2MAX AND BOUNDARIES OF THE SEVERE EXERCISE INTENSITY DOMAIN. Revista Brasileira de Medicina do Esporte 30.
Crossref
Dietmar Saupe. 2024. Computer Science in Sport. Computer Science in Sport
89
97
.
DANILO IANNETTA, MARY Z. MACKIE, DANIEL A. KEIR & JUAN M. MURIAS. (2023) A Single Test Protocol to Establish the Full Spectrum of Exercise Intensity Prescription. Medicine & Science in Sports & Exercise 55:12, pages 2271-2280.
Crossref
Minyoung Kwak, Pasquale J. Succi, Brian Benitez & Haley C. Bergstrom. (2023) Sustainability and perceptual responses during handgrip holds to failure at two fatigue thresholds. European Journal of Applied Physiology 123:11, pages 2563-2573.
Crossref
Govindasamy Balasekaran. (2023) Prediction of Running Performances for World Class, Elite, Sub-elite, and Collegiate Athletes based on Maximal Aerobic Speed and Running Energy Reserve Index. The Asian Journal of Kinesiology 25:4, pages 1-2.
Crossref
Juan B. Orsi, Lara S. Araujo, Pedro P. M. Scariot, Emanuel E. C. Polisel, Luisa O. Cardoso, Claudio A. Gobatto & Fúlvia B. Manchado-Gobatto. (2023) Critical Velocity, Maximal Lactate Steady State, and Muscle MCT1 and MCT4 after Exhaustive Running in Mice. International Journal of Molecular Sciences 24:21, pages 15753.
Crossref
Yi Li, Robert Crowther, Jim Smiley, Tim Dwyer, Benjamin Tag, Pourang Irani & Barrett Ens. (2023) Revisiting Consumed Endurance: A NICE Way to Quantify Shoulder Fatigue in Virtual Reality. Revisiting Consumed Endurance: A NICE Way to Quantify Shoulder Fatigue in Virtual Reality.
Muhammet Hakan MAYDA & Erdal ARİ. (2023) Is Anaerobic Distance Capacity Effective on Speed, Acceleration and Agility in Football?Anaerobik Mesafe Kapasitesi Futbolda Hız, İvmelenme ve Çeviklik Üzerinde Etkili midir?. Avrasya Spor Bilimleri ve Eğitim Dergisi 5:2, pages 146-157.
Crossref
Thiago Pereira Ventura, Fernando Borszcz, Diego Antunes, Fabrizio Caputo & Tiago Turnes. (2023) Prediction of Exercise Tolerance in the Severe and Extreme Intensity Domains by a Critical Power Model. Journal of Human Kinetics.
Crossref
Diogo H. FigueiredoDiego H. FigueiredoFrancisco A. Manoel & Fabiana A. Machado. (2023) Peak Running Velocity vs. Critical Speed: Which One Is Better to Prescribe Endurance Training to Recreational Runners?. Journal of Strength and Conditioning Research 37:9, pages 1783-1788.
Crossref
Barış Çabuk, Onur Demirarar, Merve Cin, Refik Çabuk & Bahtiyar Özçaldıran. (2023) The success of critical velocity protocol on predicting 10000 meters running performance. Physical Education of Students 27:4, pages 162-168.
Crossref
David W. Hill. (2023) A Physiological Anchor for the Perception of Effort. Perceptual and Motor Skills 130:4, pages 1663-1686.
Crossref
GUILLAUME P. DUCROCQ, SIMON H. AL ASSAD, NABIL KOUZKOUZ & THOMAS J. HUREAU. (2023) The Role of Contraction Mode in Determining Exercise Tolerance, Torque–Duration Relationship, and Neuromuscular Fatigue. Medicine & Science in Sports & Exercise 55:7, pages 1218-1231.
Crossref
NICHOLAS B. TILLER, JANOS PORSZASZ, RICHARD CASABURI, HARRY B. ROSSITER & CARRIE FERGUSON. (2023) Critical Power and Respiratory Compensation Point Are Not Equivalent in Patients with COPD. Medicine & Science in Sports & Exercise 55:6, pages 1097-1104.
Crossref
Fabian C. Weigend, David C. Clarke, Oliver Obst & Jason Siegler. (2022) A hydraulic model outperforms work-balance models for predicting recovery kinetics from intermittent exercise. Annals of Operations Research 325:1, pages 589-613.
Crossref
Govindasamy Balasekaran, Mun Keong Loh, Peggy Boey & Yew Cheo Ng. (2023) Running Energy Reserve Index (RERI) as a new model for assessment and prediction of world, elite, sub-elite, and collegiate running performances. Scientific Reports 13:1.
Crossref
Mark Burnley. (2023) Invited review: The speed-duration relationship across the animal kingdom. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 279, pages 111387.
Crossref
Richie P. Goulding, Mark Burnley & Rob C. I. Wüst. (2023) How Priming Exercise Affects Oxygen Uptake Kinetics: From Underpinning Mechanisms to Endurance Performance. Sports Medicine 53:5, pages 959-976.
Crossref
H. As, R. Cabuk, M. Norouzi, G.A. Balci & O. Ozkaya. (2023) Comparison of the critical power estimated by the best fit method and the maximal lactate steady state. Science & Sports 38:2, pages 197-206.
Crossref
Pedro Paulo Menezes Scariot, Marcelo Papoti, Emanuel Elias Camolese Polisel, Juan Bordon Orsi, Paul R. Van Ginkel, Tomas A. Prolla, Fúlvia Barros Manchado-Gobatto & Claudio Alexandre Gobatto. (2023) Living high - training low model applied to C57BL/6J mice: Effects on physiological parameters related to aerobic fitness and acid-base balance. Life Sciences 317, pages 121443.
Crossref
Richie P. Goulding & Simon Marwood. (2023) Interaction of Factors Determining Critical Power. Sports Medicine 53:3, pages 595-613.
Crossref
Raffy Dotan. (2023)
Using V̇
o
2max
as a training-status marker? Is the question still valid in 2022?
. Journal of Applied Physiology 134:2, pages 305-305.
Crossref
Esteban M. Gorostiaga, Ibai Garcia‐Tabar & Luis Sánchez‐Medina. (2022) Critical power: Artifact‐based weaknesses. Scandinavian Journal of Medicine & Science in Sports 33:1, pages 101-103.
Crossref
Faraz Ashtiani, Vijay Sarthy M. Sreedhara, Ardalan Vahidi, Randolph Hutchison & Gregory Mocko. (2023) Optimal Pacing of a Cyclist in a Time Trial Based on Individualized Models of Fatigue and Recovery. IEEE Transactions on Control Systems Technology 31:1, pages 317-332.
Crossref
Mark Burnley. (2022) Flawed analysis and erroneous interpretations of the critical power concept: response to Mr. Dotan. European Journal of Applied Physiology 123:1, pages 211-213.
Crossref
G. Lee, S. Lee & G. Brogmus. 2023. Proceedings of the Canadian Society of Civil Engineering Annual Conference 2021. Proceedings of the Canadian Society of Civil Engineering Annual Conference 2021
301
312
.
Dietmar Saupe. 2023. Sportinformatik. Sportinformatik
103
112
.
Pasquale J. Succi, Taylor K. Dinyer, M. Travis Byrd, Caleb C. Voskuil & Haley C. Bergstrom. (2022) Application of V̇o 2 to the Critical Power Model to Derive the Critical V̇o 2. Journal of Strength and Conditioning Research 36:12, pages 3374-3380.
Crossref
A. Saif, Z. Khan & A. Parveen. (2022) Critical power as a fatigue threshold in sports: A scoping review. Science & Sports 37:8, pages 703-709.
Crossref
Jamie Pethick & Jamie Tallent. (2022) The Neuromuscular Fatigue-Induced Loss of Muscle Force Control. Sports 10:11, pages 184.
Crossref
Manuel Mateo-March, José Ramón Lillo-Beviá, Gabriel della Mattia, Xabier Muriel, David Barranco-Gil, Mikel Zabala, Javier Courel-Ibáñez & José Antonio Salas-Montoro. (2022) Power Profile Index: An Adjustable Metric for Load Monitoring in Road Cycling. Applied Sciences 12:21, pages 11020.
Crossref
Hamit Cihan. (2022) An analysis of the relationship between critical velocity and anaerobic speed reserve with match running profile in football. Pedagogy of Physical Culture and Sports 26:6, pages 353-363.
Crossref
L. Petrigna, B. Karsten, A. Delextrat, S. Pajaujiene, D. Mani, A. Paoli, A. Palma & A. Bianco. (2022) An updated methodology to estimate critical velocity in front crawl swimming: A scoping review. Science & Sports 37:5-6, pages 373-382.
Crossref
Ken Peng, Dave C Clarke & Tim B Swartz. (2022) Bayesian approaches for critical velocity modelling of data from intermittent efforts. International Journal of Sports Science & Coaching 17:4, pages 868-879.
Crossref
Tim Podlogar, Peter Leo & James Spragg. (2022)
Using V̇
o
2max
as a marker of training status in athletes—can we do better?
. Journal of Applied Physiology 133:1, pages 144-147.
Crossref
Matthias Hovorka, Peter Leo, Dieter Simon, Bernhard Prinz & Alfred Nimmerichter. (2022) Effects of Flat and Uphill Cycling on the Power-duration Relationship. International Journal of Sports Medicine 43:08, pages 701-707.
Crossref
Michael I. Lindinger. (2022) Critically assessing paradigms in applied exercise physiology. European Journal of Applied Physiology 122:7, pages 1543-1544.
Crossref
Raffy Dotan. (2022) Unwarranted manipulation of the critical power concept: response to Dr. Burnley. European Journal of Applied Physiology 122:7, pages 1743-1744.
Crossref
Mark Burnley. (2022) Critical power is the severe intensity domain boundary, not a power output that can be maintained “for a very long time without fatigue”. European Journal of Applied Physiology 122:7, pages 1741-1742.
Crossref
Raffy Dotan. (2022) A critical review of critical power. European Journal of Applied Physiology 122:7, pages 1559-1588.
Crossref
Jiawei Fu, Qidi Zhang & Liang Ma. (2021) Novel approach to estimate endurance limits in intermittent tasks. Human Factors and Ergonomics in Manufacturing & Service Industries 32:4, pages 321-334.
Crossref
Lucie Lerebourg, Brice Guignard, Maxime L’Hermette, Eric Held & Jérémy Bernard Coquart. (2022) Predictions of the Distance Running Performances of Female Runners
Using Different Tools. International Journal of Sports Medicine.
Crossref
Simon Marwood & Richie P. Goulding. (2022) Over 55 years of critical power: Fact. Scandinavian Journal of Medicine & Science in Sports 32:6, pages 1064-1065.
Crossref
Jiafan Feng, Xiaowen Liu & Shaochun Deng. (2022) Optimal pacing strategy modeling of cycling individual time trials. Journal of Physics: Conference Series 2282:1, pages 012003.
Crossref
Guido Ferretti, Nazzareno Fagoni, Anna Taboni, Giovanni Vinetti & Pietro Enrico di Prampero. (2022) A century of exercise physiology: key concepts on coupling respiratory oxygen flow to muscle energy demand during exercise. European Journal of Applied Physiology 122:6, pages 1317-1365.
Crossref
Benedikt Mitter, Robert Csapo, Pascal Bauer & Harald Tschan. (2022) Reproducibility of strength performance and strength-endurance profiles: A test-retest study. PLOS ONE 17:5, pages e0268074.
Crossref
Esteban M. Gorostiaga, Ibai Garcia‐Tabar & Luis Sánchez‐Medina. (2022) Response to commentaries on: “Over 55 years of critical power: fact or artifact?”. Scandinavian Journal of Medicine & Science in Sports 32:5, pages 935-936.
Crossref
Danilo Iannetta, Christina P. Ingram, Daniel A. Keir & Juan M. Murias. (2022) Methodological Reconciliation of CP and MLSS and Their Agreement with the Maximal Metabolic Steady State. Medicine & Science in Sports & Exercise 54:4, pages 622-632.
Crossref
Andrew M. AlexanderShane M. HammerKaylin D. DidierLillie M. HuckabyThomas J. Barstow. (2022) Neuromuscular recovery from severe- and extreme-intensity exercise in men and women. Applied Physiology, Nutrition, and Metabolism 47:4, pages 458-468.
Crossref
Guillaume P. Ducrocq & Grégory M. Blain. (2022) Relationship between neuromuscular fatigue, muscle activation and the work done above the critical power during severe‐intensity exercise. Experimental Physiology 107:4, pages 312-325.
Crossref
Filipe A. B. Sousa, Fúlvia B. Manchado-Gobatto, Natália A. Rodrigues & Claudio A. Gobatto. (2022) Comparison of parameters derived from a three-minute all-out test with classical benchmarks for running exercise. PLOS ONE 17:3, pages e0266012.
Crossref
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Crossref
Aurélien Patoz, Thomas Blokker, Nicola Pedrani, Romain Spicher, Fabio Borrani & Davide Malatesta. (2022) Oxygen Uptake at Critical Speed and Power in Running: Perspectives and Practical Applications. International Journal of Sports Physiology and Performance 17:3, pages 400-406.
Crossref
Aitor Altuna & James Hopker. (2022) Commentary on “Over 55 years of Critical Power: Fact or Artifact”. Scandinavian Journal of Medicine & Science in Sports 32:3, pages 636-637.
Crossref
Alan Chorley, Richard P. Bott, Simon Marwood & Kevin L. Lamb. (2021) Bi-exponential modelling of $$W^{^{\prime}}$$ reconstitution kinetics in trained cyclists. European Journal of Applied Physiology 122:3, pages 677-689.
Crossref
Tatiana Volkova, Claude Nicollier & Volker Gass. (2022) An Empirical and Subjective Model of Upper Extremity Fatigue Under Hypogravity. Frontiers in Physiology 13.
Crossref
Kolie Moore. (2022) A Coaching Perspective on Modern Training Metrics and Return from Injury and Illness. Physical Medicine and Rehabilitation Clinics of North America 33:1, pages 173-186.
Crossref
Peter Leo, James Spragg, Tim Podlogar, Justin S. Lawley & Iñigo Mujika. (2021) Power profiling and the power-duration relationship in cycling: a narrative review. European Journal of Applied Physiology 122:2, pages 301-316.
Crossref
Jérémy Briand, Jonathan Tremblay & Guy Thibault. (2022) Can Popular High-Intensity Interval Training (HIIT) Models Lead to Impossible Training Sessions?. Sports 10:1, pages 10.
Crossref
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Esteban M. Gorostiaga, Luis Sánchez‐Medina & Ibai Garcia‐Tabar. (2021) Over 55 years of critical power: Fact or artifact?. Scandinavian Journal of Medicine & Science in Sports 32:1, pages 116-124.
Crossref
Benedito Sérgio Denadai & Camila Coelho Greco. (2022) Could middle- and long-distance running performance of well-trained athletes be best predicted by the same aerobic parameters?. Current Research in Physiology 5, pages 265-269.
Crossref
Hermann Heck, Ulrich Bartmus & Volker GrabowHermann Heck. 2022. Laktat. Laktat
607
626
.
Anna Dunst, René Grüneberger & Hans-Christer Holmberg. (2021) Modeling Optimal Cadence as a Function of Time during Maximal Sprint Exercises Can Improve Performance by Elite Track Cyclists. Applied Sciences 11:24, pages 12105.
Crossref
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Crossref
Brendan W. Kaiser, Ka'eo K. Kruse, Brandon M. Gibson, Kelsey J. Santisteban, Emily A. Larson, Brad W. Wilkins, Andrew M. Jones, John R. Halliwill & Christopher T. Minson. (2021) The impact of elevated body core temperature on critical power as determined by a 3-min all-out test. Journal of Applied Physiology 131:5, pages 1543-1551.
Crossref
Rebekah J. Nixon, Sascha H. Kranen, Anni Vanhatalo & Andrew M. Jones. (2021) Steady-state $$\dot{V}{\text{O}}_{2}$$ above MLSS: evidence that critical speed better represents maximal metabolic steady state in well-trained runners. European Journal of Applied Physiology 121:11, pages 3133-3144.
Crossref
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Crossref
Brian Glancy & Robert S. Balaban. (2021) Energy metabolism design of the striated muscle cell. Physiological Reviews 101:4, pages 1561-1607.
Crossref
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Crossref
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Crossref
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W′
reconstitution rate at different intensities above critical torque: the role of muscle size and maximal strength
. Experimental Physiology 106:9, pages 1909-1921.
Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
Peter Leo, James Spragg, Iñigo Mujika, Verena Menz & Justin S. Lawley. (2021) Power Profiling in U23 Professional Cyclists During a Competitive Season. International Journal of Sports Physiology and Performance 16:6, pages 881-889.
Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
Felix Möhler, Cagla Fadillioglu & Thorsten Stein. (2021) Fatigue-Related Changes in Spatiotemporal Parameters, Joint Kinematics and Leg Stiffness in Expert Runners During a Middle-Distance Run. Frontiers in Sports and Active Living 3.
Crossref
Alexander C. Moss, Taylor K. Dinyer, Mark G. Abel & Haley C. Bergstrom. (2021) Methodological Considerations for the Determination of the Critical Load for the Deadlift. Journal of Strength and Conditioning Research 35:1, pages S31-S37.
Crossref
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Exercise above the maximal lactate steady state does not elicit a
V̇
O
2
slow component that leads to attainment of
V̇
O
2max
. Applied Physiology, Nutrition, and Metabolism 46:2, pages 133-139.
Crossref
David C. Poole, Harry B. Rossiter, George A. Brooks & L. Bruce Gladden. (2020) The anaerobic threshold: 50+ years of controversy. The Journal of Physiology 599:3, pages 737-767.
Crossref
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Crossref
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Crossref
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Crossref
M. Travis Byrd, Brian J. Wallace, Jody L. Clasey & Haley C. Bergstrom. (2021) Contributions of Lower-Body Strength Parameters to Critical Power and Anaerobic Work Capacity. Journal of Strength and Conditioning Research 35:1, pages 97-101.
Crossref
Ben T. Stephenson, Benjamin Stone, Barry S. Mason & Victoria L. Goosey‐Tolfrey. (2020) Physiology of handcycling: A current sports perspective. Scandinavian Journal of Medicine & Science in Sports 31:1, pages 4-20.
Crossref
Boris Clark & Paul W. Macdermid. (2021) A comparative analysis of critical power models in elite road cyclists. Current Research in Physiology 4, pages 139-144.
Crossref
Ihor Lubashevsky & Natalie PlavinskaIhor Lubashevsky & Natalie Plavinska. 2021. Physics of the Human Temporality. Physics of the Human Temporality
271
418
.
VIJAY SARTHY M. SREEDHARA, FARAZ ASHTIANI, GREGORY M. MOCKO, ARDALAN VAHIDI & RANDOLPH E. HUTCHISON. (2020) Modeling the Recovery of W′ in the Moderate to Heavy Exercise Intensity Domain. Medicine & Science in Sports & Exercise 52:12, pages 2646-2654.
Crossref
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Crossref
Leonardo Henrique Perinotto Abdalla, Ryan Michael Broxterman, Camila Coelho Greco & Benedito Sérgio Denadai. (2020) Creatine supplementation attenuates the rate of fatigue development during intermittent isometric exercise performed above end‐test torque. Experimental Physiology 105:12, pages 2073-2085.
Crossref
Paul Ansdell, Kevin Thomas, Kirsty M. Hicks, Sandra K. Hunter, Glyn Howatson & Stuart Goodall. (2020) Physiological sex differences affect the integrative response to exercise: acute and chronic implications. Experimental Physiology 105:12, pages 2007-2021.
Crossref
Diego Jaén-Carrillo, Luis E. Roche-Seruendo, Antonio Cartón-Llorente, Rodrigo Ramírez-Campillo & Felipe García-Pinillos. (2020) Mechanical Power in Endurance Running: A Scoping Review on Sensors for Power Output Estimation during Running. Sensors 20:22, pages 6482.
Crossref
JAMIE PETHICK, SAMANTHA L. WINTER & MARK BURNLEY. (2020) Physiological Evidence That the Critical Torque Is a Phase Transition, Not a Threshold. Medicine & Science in Sports & Exercise 52:11, pages 2390-2401.
Crossref
Trenton D. Colburn, Ramona E. Weber, K. Sue Hageman, Jacob T. Caldwell, Kiana M. Schulze, Carl J. Ade, Brad J. Behnke, David C. Poole & Timothy I. Musch. (2020)
Vascular ATP‐sensitive K
+
channels support maximal aerobic capacity and critical speed via convective and diffusive O
2
transport
. The Journal of Physiology 598:21, pages 4843-4858.
Crossref
Alan Chorley, Richard P. Bott, Simon Marwood & Kevin L. Lamb. (2020) Physiological and anthropometric determinants of critical power, W′ and the reconstitution of W′ in trained and untrained male cyclists. European Journal of Applied Physiology 120:11, pages 2349-2359.
Crossref
Clifton J. Holmes, Bjoern Hornikel, Katherine Sullivan & Michael V. Fedewa. (2020) Associations between Multimodal Fitness Assessments and Rowing Ergometer Performance in Collegiate Female Athletes. Sports 8:10, pages 136.
Crossref
Jean Romain Rivière, Nicolas Peyrot, Matthew R. Cross, Laurent A. Messonnier & Pierre Samozino. (2020) Strength-Endurance: Interaction Between Force-Velocity Condition and Power Output. Frontiers in Physiology 11.
Crossref
Shane M. Hammer, Andrew M. Alexander, Kaylin D. Didier & Thomas J. Barstow. (2020) Influence of blood flow occlusion on muscular recruitment and fatigue during maximal‐effort small muscle‐mass exercise. The Journal of Physiology 598:19, pages 4293-4306.
Crossref
Nicholas A. Jamnick, Robert W. Pettitt, Cesare Granata, David B. Pyne & David J. Bishop. (2020) An Examination and Critique of Current Methods to Determine Exercise Intensity. Sports Medicine 50:10, pages 1729-1756.
Crossref
Alan Chorley & Kevin L. Lamb. (2020) The Application of Critical Power, the Work Capacity above Critical Power (W′), and Its Reconstitution: A Narrative Review of Current Evidence and Implications for Cycling Training Prescription. Sports 8:9, pages 123.
Crossref
Chih-Kun Hsiao, Yuan-Kun Tu, Yi-Jung Tsai, Chun-Yuh Yang & Chih-Wei Lu. (2020) Forearm muscular strength and performance fatigability in orthopaedic surgeons when performing bone screw fixations. Applied Ergonomics 87, pages 103135.
Crossref
Jesus G. PallarésJose R. Lillo-BeviaRicardo Morán-NavarroVictor Cerezuela-EspejoRicardo Mora-Rodriguez. (2020) Time to exhaustion during cycling is not well predicted by critical power calculations. Applied Physiology, Nutrition, and Metabolism 45:7, pages 753-760.
Crossref
Jerzy A. Zoladz & Bruno Grassi. (2020) A ‘fatigue threshold’ during incremental exercise was identified (and then forgotten) 100 years ago. The Journal of Physiology 598:13, pages 2531-2532.
Crossref
John M. Looft & Laura A. Frey-Law. (2020) Adapting a fatigue model for shoulder flexion fatigue: Enhancing recovery rate during intermittent rest intervals. Journal of Biomechanics 106, pages 109762.
Crossref
Johannes L. Herold & Andreas Sommer. (2020) A model-based estimation of critical torques reduces the experimental effort compared to conventional testing. European Journal of Applied Physiology 120:6, pages 1263-1276.
Crossref