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analysis of marathon runners physiological data","annee":"2023","categorie":"running","fichier":"jaffard2023.pdf"},{"nom":"A Pilot Study Using Entropy for Optimizing Self-Pacing during a Marathon.","annee":"2023","categorie":"marathon","fichier":"entropypalacin.pdf"},{"nom":"Pacing Strategy of 800 m and 1500 m Freestyle Swimming Finals in the World Championships According to the Performance in Males and Females of Different Age Groups.","annee":"2023","categorie":"Swimming","fichier":"pacing-strategy800.pdf"},{"nom":"Marathon performance depends on pacing oscillations between non symmetric extreme values.","annee":"2022","categorie":"marathon, pacing, performance","fichier":"marathon_perf_oscillations.pdf"},{"nom":"Oxygen uptake measurements and rate of perceived exertion during a marathon.","annee":"2022","categorie":"marathon","fichier":"oxygen_uptake_marathon.pdf"},{"nom":"Multifractal analysis of physiological data from marathon runners","annee":"2022","categorie":"marathon","fichier":"GRETSI.pdf"},{"nom":"Heart Rate Does Not Reflect the %VO2max in Recreational Runners during the Marathon","annee":"2022","categorie":"marathon","fichier":"ijerph19.pdf"},{"nom":"Which of the Physiological vs. Critical Speed is a determinant of modern pentathlon 200m front crawl swimming performance: The influence of protocol and ergometer vs. swimming pool conditions","annee":"2022","categorie":"Pentathlon","fichier":"demarie2022.pdf"},{"nom":"Physical performance level in sarcomeric mitochondria creatine kinase knockout mouse throughout ageing","annee":"2021","categorie":"Skeletal muscle , Mouse","fichier":"NielMouse.pdf"},{"nom":"The Carbon Footprint of Marathon Runners : Training and Racing","annee":"2021","categorie":"","fichier":"The_Carbon_Footprint.pdf"},{"nom":"Pace Controlled by a Steady-State Physiological Variable is associated with better performance in 3000m Run.","annee":"2021","categorie":"3000m","fichier":"molinari_3000m.pdf"},{"nom":"Marathon-Induced Cardiac Fatigue","annee":"2021","categorie":"marathon","fichier":"Marathon_Induced_Cardiac.pdf"},{"nom":"Race analysis of the world's Best female and male marathon runners","annee":"2020","categorie":"","fichier":"Race_Analysis_of_the_Worlds_Best_Female_and_Male_.pdf"},{"nom":"Pacing strategy affects the sub-elite marathoner's cardiac drift and performance","annee":"2020","categorie":"","fichier":"Pacing_Strategy23.pdf"},{"nom":"Maximal time spent at VO2max from Sprint to the marathon","annee":"2020","categorie":"","fichier":"100m_Marathon.pdf"},{"nom":"Comparison of different exercise testing modalities to determine maximal aerobic speed in amateur soccer player","annee":"2020","categorie":"","fichier":"SoccerTest.pdf"},{"nom":"Horse-Riding Competitions Pre and Post 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cyclist","annee":"2016","categorie":"","fichier":"billat_Case_Studies_in_Physiology_Maximal_oxygen_consumption_and_performance.pdf"},{"nom":"Heavy cycling exercise at fixed heart rate prevent the decline of stroke volume and delay time to exhaustion in trained adolescents","annee":"2016","categorie":"","fichier":"lepretre_Heavy_cycling_exercise_at_fixed_heart_rate.pdf"},{"nom":"A new model of short acceleration-based training improves exercise performance in old mice","annee":"2016","categorie":"","fichier":"Niel_A_new_model_of_short_acceleration_base_training.pdf"},{"nom":"Transcriptional modulation of mitochondria biogenesis pathway at and above critical speed in mice","annee":"2015","categorie":"","fichier":"mille_hamard_Transcriptional_modulation_of_mitochondria_biogenesis_(2015).pdf"},{"nom":"Protein Catabolism and High Lipid Metabolism Associated with Long-Distance Exercise Are Revealed by Plasma NMR Metabolomics in Endurance Horses","annee":"2014","categorie":"","fichier":"lemoyec_protein_catabolism_and_high_lipid_metabolism_revealed_by_metabolomics_in_endurance_horse.pdf"},{"nom":"Myostatin is a key mediator between energy metabolism and endurance capacity of skeletal muscle","annee":"2014","categorie":"","fichier":"mouisel_Myostatin_is_a_key_factor_for_energy_metabolism_and_endurance_capacity_in_skeletal_muscle.pdf"},{"nom":"The sustainability of VO2max: effect of decreasing the workload","annee":"2012","categorie":"","fichier":"billat_The_sustainability_of_VO2max_effect_ofdecreasing_the_work_load.pdf"},{"nom":"Heart Rate Regulation Processed Through Wavelet Analysis and Change Detection: Some Case Studies","annee":"2012","categorie":"","fichier":"heart_rate_regulation_through_wavelets.pdf"},{"nom":"Comments on Point:Counterpoint: High altitude is\/is not for the birds!","annee":"2012","categorie":"","fichier":"high_altitude_is_or_is_not_for_the_birds.pdf"},{"nom":"NMR metabolomics for assessment of exercise effects with mouse biofluids","annee":"2012","categorie":"","fichier":"lemoyec_NMR_metabolomics_for_assessment_of_exercise_effects_with_mouse_biofluids.pdf"},{"nom":"Skeletal muscle alterations and exercise performance decrease in erythropoietin deficient mice: a comparative study","annee":"2012","categorie":"","fichier":"Mille_Hamard_Skeletal_muscle_alterations_and_exercise_performance_decre.pdf"},{"nom":"Modelling decremental ramps using 2- and 3-parameter critical power models","annee":"2012","categorie":"","fichier":"morton_modelling_decremental_ramp_2_3_critical_velocity_model.pdf"},{"nom":"New field test to track changes of flatwater paddling performance: a preliminary study","annee":"2012","categorie":"","fichier":"place_new_field_test_to_track_padling.pdf"},{"nom":"A new process for modeling heartbeat signals during exhaustive run with an adaptive estimator of its fractal parameters","annee":"2011","categorie":"","fichier":"Bardet_A_new_process_for_modeling_heartbeat_signals_during_exhaution_with_fractality.pdf"},{"nom":"A new stochastic process to model Heart Rate series during exhaustive run and an estimator of its fractality parameter","annee":"2011","categorie":"","fichier":"bardet_a_new_stochastic_process_to_model_HR_with_fractality.pdf"},{"nom":"Cardiac Output and Performance during a Marathon Race inMiddle-Aged Recreational Runners","annee":"2011","categorie":"","fichier":"billat_cardiac_output_and_performance_during_a_marathon_in_middle_aged_runners.pdf"},{"nom":"A new incremental test for VO2max accurate measurement by increasing VO2max plateau duration, allowing the investigation of its limiting factors","annee":"2011","categorie":"","fichier":"petot_a_new_incremental_test_for_VO2max_by_increasing_VO2max_plateau_duration.pdf"},{"nom":"Commentaries on Viewpoint: Expending our physical activity (measurement) budget wisely","annee":"2011","categorie":"","fichier":"the_key_point_is_to_measure_vo2max.pdf"},{"nom":"Randomness and changes of heart rate and respiratory frequency during high altitude mountain ascent without acclimatization","annee":"2011","categorie":"","fichier":"wesfreid_randomnes_and_change_of_heart_rate_high_altitude.pdf"},{"nom":"Oxygen consumption and gait variables of Arabian endurance horses measured during a field exercise test","annee":"2010","categorie":"","fichier":"cottin_VO2_and_gait_variables_during_a_field_testin_arabian_endurance_horses.pdf"},{"nom":"Modélisation des fréquences cardiaques instantanées durant un marathon et estimation de leurs paramètres fractals","annee":"2009","categorie":"","fichier":"bardet_modelisation_fc_et_marathon.pdf"},{"nom":"Gene expression profiling in equine polysaccharide storage myopathy revealed inflammation, glycogenesis inhibition, hypoxia and mitochondrial dysfunctions","annee":"2009","categorie":"","fichier":"barrey_gene_expression_equine_myopathy_hypoxia_mito.pdf"},{"nom":"Differential modeling of anaerobic and aerobic metabolism in the 800-m and 1,500-m run","annee":"2009","categorie":"","fichier":"billat_differential_modelling_1500_800m.pdf"},{"nom":"Detection of changes in the fractal scaling of heart rate and speed in a marathon race","annee":"2009","categorie":"","fichier":"billat_fractal_fc_marathon.pdf"},{"nom":"Mountaineering experience decreases the net oxygen cost of climbing Mont Blanc (4,808 m)","annee":"2009","categorie":"","fichier":"billat_mountaineering_experience_decreases_net_oxygen_cost_in_climbing_montblanc_pdf.pdf"},{"nom":"Athletes' dietary intake was closer to French RDA's than those of young sedentary counterparts","annee":"2009","categorie":"","fichier":"garcin_athlete_s_dietetary_intake_and_rda.pdf"},{"nom":"Point:Counterpoint: The kinetics of oxygen uptake during muscular exercise do\/do not manifest time-delayed phases","annee":"2009","categorie":"","fichier":"oxygene_kinetics_time_delayed.pdf"},{"nom":"Estimation non-paramétrique de la densité spectrale d'un processus gaussien échantillonné aléatoirement","annee":"2008","categorie":"","fichier":"bardet_Estimation_non_parametrique_densite_spectrale.pdf"},{"nom":"Auxiliary Muscles and Slow Component during Rowing","annee":"2008","categorie":"","fichier":"demarie_slow_component_in_rowing.pdf"},{"nom":"Modeling and Analysis of the Effect of Training on VO2 Kinetics and Anaerobic Capacity","annee":"2008","categorie":"","fichier":"stirling_modeling_vo2_kinetics_anaerobic_capacity.pdf"},{"nom":"A comparison of time to exhaustion at VO2max in elite cyclists, kayak paddlers, swimmers and runners","annee":"2007","categorie":"","fichier":"billat_A_comparison_of_time_to_exhaustion_at_VO2max_in_elite_cycl.pdf"},{"nom":"Perceptual Responses in Free vs. Constant Pace Exercise","annee":"2007","categorie":"","fichier":"garcin_perceptual_free_vs_constant_pace.pdf"},{"nom":"Fatigue Responses in Exercise under Control of VO2","annee":"2007","categorie":"","fichier":"lepretre_fatigue_under_control_vo2.pdf"},{"nom":"Nonlinear Dynamics of Heart Rate and Oxygen Uptake in Exhaustive 10,000 m Runs: Influence of Constant vs. Freely Paced","annee":"2006","categorie":"","fichier":"billat_Non_linear_dynamics_fc_vo2_10000m_runs_free_constant.pdf"},{"nom":"Effect of a 24-h continuous walking race on cardiac autonomic control","annee":"2006","categorie":"","fichier":"cottin_Effect_of_a_24_h_continuous_walking_race_on_cardiac_autonomic.pdf"},{"nom":"Effect of repeated exercise and recovery on heart rate variability in elite trotting horses during high intensity interval training","annee":"2006","categorie":"","fichier":"cottin_repeated_exercise_recovery_hrv_equine_elite_trotting_during_high_interval_training.pdf"},{"nom":"Ventilatory Thresholds Assessment from Heart Rate Variability during an Incremental Exhaustive Running Test","annee":"2006","categorie":"","fichier":"cottin_Ventilatory_Thresholds_hrv_during_an_Incremental_Exhausti.pdf"},{"nom":"Exercise training in normobaric hypoxia in endurance runners. I. Improvement in aerobic performance capacity","annee":"2006","categorie":"","fichier":"dufour_Exercise_training_endurance_runners_aerobic_capacity.pdf"},{"nom":"Does net energy cost of swimming affect time to exhaustion at the individual's maximal oxygen consumption velocity?","annee":"2006","categorie":"","fichier":"fernandes_Does_energy_cost_of_swimming_affect_tlim_at_VO2max.pdf"},{"nom":"FACTORS ASSOCIATED WITH PERCEIVED EXERTION AND ESTIMATED TIME LIMIT AT LACTATE THRESHOLD","annee":"2006","categorie":"","fichier":"Garcin_Factors_Associated_with_Perceived_Exertion.pdf"},{"nom":"Training content and potential Impact on  Performance: A comparison of young male and female endurance-trained runners","annee":"2006","categorie":"","fichier":"garcin_training_content_on_performance_gender.pdf"},{"nom":"Multidimensional analysis of metabolism contributions involved in running track tests","annee":"2006","categorie":"","fichier":"heugas_Multidimensional_analysis_metabolism_running.pdf"},{"nom":"Effect of fatigue on stride pattern continuously measured by an accelerometric gait recorder in middle distance runners","annee":"2006","categorie":"running","fichier":"le bris.pdf"},{"nom":"Inter- and intrastrain variation in mouse critical running speed","annee":"2005","categorie":"","fichier":"billat_Inter_intrastrain_variation_mouse_critical_speed.pdf"},{"nom":"Newspaper coverage of women's sports during the 2000 Sydney Olympic Games: Belgium, Denmark, France and Italy ","annee":"2005","categorie":"","fichier":"Capranica_Newspaper_coverage_of_women_sports_during_olympic_games.pdf"},{"nom":"Assessment of Ventilatory Thresholds from Heart Rate Variability in Well-Trained Subjects during Cycling","annee":"2005","categorie":"","fichier":"cottin_Assessment_of_Ventilatory_Thresholds_from_hrv_during_highly_trained_cycling.pdf"},{"nom":"Objective and subjective analysis of the training content in young cyclists","annee":"2005","categorie":"","fichier":"Delattre_training_content_young_cyclists.pdf"},{"nom":"Use of acetaminophen in young subelite athletes","annee":"2005","categorie":"","fichier":"Garcin_Use_of_acetaminophen_in_young_subelite_athletes.pdf"},{"nom":"Changes in Internal Mechanical Cost during Overground Running to Exhaustion","annee":"2005","categorie":"","fichier":"Slawinski_internal_mechanical_cost_during_running_at_exhaustion.pdf"},{"nom":"Current perspectives on performance improvement in the marathon : From universalisation to training optimisation","annee":"2005","categorie":"","fichier":"current-perspectives-on-performance-improveme.pdf"},{"nom":"Energetics of Middle-Distance Running Performances in Male and Female Junior Using Track Measurements","annee":"2004","categorie":"","fichier":"Billat_Energetics_during_middle_running.pdf"},{"nom":"Training effect on performance, substrate balance and blood lactate concentration at maximal lactate steady state in master endurance-runners","annee":"2004","categorie":"","fichier":"Billat_Training_effect_performance_mlss_master_runners.pdf"},{"nom":"Effect of exercise intensity and repetition on Heart Rate variability during training in elite trotting horse","annee":"2004","categorie":"","fichier":"Cottin_exercise_intensity_and_repetition_on_hrv_during_training_in_elite_trotting_horse.pdf"},{"nom":"Heart Rate Variability during Exercise Performed below and above Ventilatory Threshold","annee":"2004","categorie":"","fichier":"Cottin_hrv_running_ventilatory_threshold.pdf"},{"nom":"Eccentric Cycle Exercise: Training Application of Specific Circulatory Adjustments","annee":"2004","categorie":"","fichier":"Dufour_Eccentric_cycle_exercise_stroke_volume.pdf"},{"nom":"Sex-Related Differences in Ratings of Perceived Exertion and Estimated Time Limit","annee":"2004","categorie":"","fichier":"Garcin_Sex_related_difference_in_ratings_rpe_and_estimated_tlim.pdf"},{"nom":"Acute Moderate Hypoxia Affects the Oxygen Desaturation and the Performance but not the Oxygen Uptake Response","annee":"2004","categorie":"","fichier":"heubert_acute_moderate_hypoxia_affects_O2_desaturation_and_performance_not_VO2_response.pdf"},{"nom":"Effect of a previous sprint on the parameters of the work-time to exhaustion relationship in high intensity cycling","annee":"2004","categorie":"","fichier":"Heubert_previous_sprint_on_parameters_of_the_work_time_to_exhaustion_in_high_intensity_cycling.pdf"},{"nom":"Changes in Physiological and Stroke Parameters During a Maximal 400-m Free Swimming Test in Elite Swimmers","annee":"2004","categorie":"","fichier":"Laffite_Changes_in_physiologicaand_stroke_parameters_swimming.pdf"},{"nom":"Heart rate deflection point as a strategy to defend stroke volume during incremental exercise","annee":"2004","categorie":"","fichier":"lepretre_heart_rate_deflection_to_defend_stroke_volume.pdf"},{"nom":"Effect of Exercise Intensity on Relationship between VO2max and Cardiac Output","annee":"2004","categorie":"","fichier":"Lepretre_intensity_on_VO2max_and_cardic_output.pdf"},{"nom":"Multifractal analysis of heartbeat time series in human races","annee":"2004","categorie":"","fichier":"meyer_Multifractal_analysis_of_heartbeat_time_series_in_human_races.pdf"},{"nom":"The critical power model for intermittent exercise","annee":"2004","categorie":"","fichier":"morton_critical_power_for_intermittent_exercise.pdf"},{"nom":"Cardiac output and oxygen release during very high-intensity exercise performed until exhaustion","annee":"2004","categorie":"","fichier":"Richard_Cardiac_outpu_oxygen_release_vs_exhaustion.pdf"},{"nom":"Difference in Mechanical and Energy Cost between Highly, Well, and Nontrained Runners","annee":"2004","categorie":"","fichier":"Slawinski_mechanical_and_energy_cost_runners.pdf"},{"nom":"Use of Lumbar Point for the Estimation of Potential and Kinetic Mechanical Power in Running","annee":"2004","categorie":"","fichier":"slawinski_use_of_lumbar_point_estimation_of_potential_and_kinetic_mechanical_power_in_running.pdf"},{"nom":"The Concept of Maximal Lactate Steady State","annee":"2003","categorie":"","fichier":"Billat_concept_of_MLSS.pdf"},{"nom":"Training and Bioenergetic Characteristics in Elite Male and Female Kenyan Runners","annee":"2003","categorie":"","fichier":"Billat_training_and_bioenergetic_character_kenyan_runners.pdf"},{"nom":"Training effect on performance, substrate balance and blood lactate concentration at maximal lactate steady state in master endurance-runners","annee":"2003","categorie":"","fichier":"Billat_Training_effect_performance_mlss_master_runners.pdf"},{"nom":"Whichever the initial training status, any increase in velocity at lactate threshold appears as a major factor in improved time to exhaustion at the same severe velocity after training","annee":"2003","categorie":"","fichier":"Demarle_Initial_Training_status_velocity_LT_tlimvLT.pdf"},{"nom":"Influence of aerobic fitness level on measured and estimated perceived exertion during exhausting runs","annee":"2003","categorie":"","fichier":"Garcin_aerobic_fitness_vs_rpe.pdf"},{"nom":"Effet de 4 semaines d'entraînement sur le temps limite à VO2max","annee":"2003","categorie":"","fichier":"Heubert_Effet_de_4_semaines_d_entrainement_tlimVO2max.pdf"},{"nom":"The Effects of Interval Training on Oxygen Pulse and Performance in Supra-threshold Runs","annee":"2003","categorie":"","fichier":"Laffite_Effect_interval_training_and_performance_in_supra_threshold_runs.pdf"},{"nom":"Pulmonary Hemodynamics during a Strenuous Intermittent Exercise in Healthy Subjects","annee":"2003","categorie":"","fichier":"Lonsdorfer_arterial_pressure_VO2max_cardiac_output_exhaustion.pdf"},{"nom":"The critical power model for intermittent exercise","annee":"2003","categorie":"","fichier":"morton_critical_power_for_intermittent_exercise.pdf"},{"nom":"Influence of Acute Moderate Hypoxia on Time to Exhaustion at vV?O2max in Unacclimatized Runners","annee":"2002","categorie":"","fichier":"Billat_acute_moderate_hypoxia_tlimvVO2max_unacclimatised_runners.pdf"},{"nom":"Effect of training in humans on off- and on-transient oxygen uptake kinetics after severe exhausting intensity runs","annee":"2002","categorie":"","fichier":"Billat_effect_training_on_off_on_transient_oxygen_kinetics_after_severe_exhaustive_runs.pdf"},{"nom":"The Influence of Exercise Duration at VO2 max on the Offtransient Pulmonary Oxygen Uptake Phase During High Intensity Running Activity","annee":"2002","categorie":"","fichier":"Billat_Influence_of_Exercise_duration_on_off_transient_oxygen_uptake_during_intensity_running.pdf"},{"nom":"Effect of fatigue on spontaneous velocity variations in human middle-distance running: use of short term Fourier transformation","annee":"2002","categorie":"","fichier":"Cottin_Effect_fatigue_running_and_spontaneous_velocity_short_fourier_transforms.pdf"},{"nom":"The Ratio HLa: RPE as a Tool to Appreciate Overreaching in Young High-Level Middle Distance Runners","annee":"2002","categorie":"","fichier":"Garcin_ratio_HLa_rpe_to_appreciate_overeaching_in_young_high_level_middle_distance_runners.pdf"},{"nom":"Effect of free versus constant pace on\r\nperformance and oxygen kinetics in running","annee":"2001","categorie":"Course à pied","fichier":"Billat_effect_free_vs_constant_pace_on_oxygen_kinetics_performance_running.pdf"},{"nom":"Effect of Training on the Physiological Factors of Performance in Elite Marathon Runners\r\n(Males and Females)","annee":"2001","categorie":"Marathon, Course à pied","fichier":"Billat_Effect_of_training_physiological_factors_marathon_runners.pdf"},{"nom":"Interval Training for Performance: A Scientific and Empirical Practice","annee":"2001","categorie":"Course à pied","fichier":"Billat_intervaltraining_I_aerobic_training.pdf"},{"nom":"Interval Training for Performance: A Scientific and Empirical Practice II","annee":"2001","categorie":"Course à pied","fichier":"Billat_intervaltraining_II_anaerobic_training.pdf"},{"nom":"Physical and training characteristics of top-class marathon runners","annee":"2001","categorie":"Marathon, Course à pied","fichier":"Billat_physical_training_characteristics_top_class_marathon_runners.pdf"},{"nom":"the VO2 slow component in swimming","annee":"2001","categorie":"Natation","fichier":"Demarie_VO2_slow_component_in_swimming.pdf"},{"nom":"VO2 slow component correlates with vastus lateralis de-oxygenation and blood lactate accumulation during running","annee":"2001","categorie":"Course à pied","fichier":"Demarie_VO2_slow_component_vastus_lateralis_deoxigenation_blood_lactate_running.pdf"},{"nom":"Decrease of O2 deficit is a potential factor in increased time to exhaustion after specific endurance training","annee":"2001","categorie":"Course à pied","fichier":"Demarle_decreased_O2_deficit_increase_tlim_after_specific_endurance_training.pdf"},{"nom":"The Ratio HLa: RPE as a Tool to Appreciate Overreaching in Young High-Level Middle Distance Runners","annee":"2001","categorie":"Course à pied","fichier":"Garcin_ratio_HLa_rpe_to_appreciate_overeaching_in_young_high_level_middle_distance_runners.pdf"},{"nom":"Perceived exertion scales attest to both  intensity and exercice duration","annee":"2001","categorie":"Course à pied","fichier":"Garcin_rpe_versus_intensity_and_duration_exercise.pdf"},{"nom":"Effect of Supra-Lactate Threshold Training on the Relationship between Mechanical Stride Descriptors and Aerobic Energy Cost in Trained Runners","annee":"2001","categorie":"Course à pied","fichier":"slawinski_supra_LT_training_on_mechanical_stride_and_energy_cost_in_trained_runners.pdf"},{"nom":"Oxygen kinetics and modelling of time to exhaustion whilst running at various velocities at maximal oxygen uptake","annee":"2000","categorie":"Cinétique de l'oxygène, Modélisation, Temps limite à VO2 max","fichier":"Billat_oxygen_kinetics_modelling_tlim_various_velocities_at_VO2max.pdf"},{"nom":"Effect of a prior intermittent run at vVO2max on oxygen kinetics during an all-out severe run in humans ","annee":"2000","categorie":"Temps limite à VO2 max","fichier":"Billat_prior_intermittent_run_azt_VO2max_on_oxygen_kinetics_durinf_severe_run.pdf"},{"nom":"VO2 Slow Component and Performance in Endurence Sports","annee":"2000","categorie":"Cinétique de l'oxygène","fichier":"Billat_VO2_slow_component_in_endurance_sports.pdf"},{"nom":"Very Short (15s - 15s) Interval-Training Around the Critical Velocity Allows Middle-Aged Runners to Maintain VO2 max for 14 minutes","annee":"2000","categorie":"Temps limite à VO2 max, Interval Training","fichier":"Billat15_15_interval_training_middle_aged_runners_VO2max_14_minutes.pdf"},{"nom":"Relationship Between Run Times to Exhaustion at 90, 100,120, and 140% of vVO2max and Velocity Expressed Relatively to Critical Velocity and Maximal Velocity","annee":"2000","categorie":"Anaérobie, Vitesse Critique, Temps limite à VO2 max","fichier":"Blondel_relation_tlim_90_100_120_140vVO2max_and_velocity_expressed_critical_velocity_and_maximal_velocity.pdf"},{"nom":"Time limit and time at VO2max during a continuous and an intermittent run","annee":"2000","categorie":"Interval Training, Temps limite à VO2 max","fichier":"Demarie_tlim_vo2max_during_continuous_and_intermittent_run.pdf"},{"nom":"Maximal endurance time at VO2max","annee":"2000","categorie":"Modélisation, Temps limite à VO2 max","fichier":"Morton_Maximal_endurance_time_at_VO2max.pdf"},{"nom":"Calculation of times to exhaustion at 100 and 120 % maximal aerobic speed","annee":"2000","categorie":"Temps limite à VO2 max","fichier":"renoux_calculation_of_tlim_100_ans_120_mas.pdf"},{"nom":"Influence of Light Additional Arm Cranking Exercise on the Kinetics of V02 in Severe Cycling Exercise","annee":"1999","categorie":"Cyclisme, Cinétique de l'oxygène","fichier":"Billat_influence_light_additional_arm_cranking_on_oxygene_kinetics_during_severe_cycling.pdf"},{"nom":"The Role of Cadence on theVO2 Slow Component in Cycling and Running in Triathletes","annee":"1999","categorie":"Course à pied, Cyclisme, Cinétique de l'oxygène, Temps limite à VO2 max","fichier":"Billat_role_of_cadence_on_VO2_slow_component_in_cycling_and_running_triathletes.pdf"},{"nom":"Time in Human Endurance Models From Empirical Models to Physiological Models","annee":"1999","categorie":"Modélisation","fichier":"Billat_Time_in_human_endurance_models.pdf"},{"nom":"The concept of critical velocity: a brief analysis","annee":"1999","categorie":"Vitesse critique, Modélisation","fichier":"concept_of_crtical_velocity.pdf"},{"nom":"Intermittent runs at the velocity associated with maximal oxygen uptake enables subjects to remain at maximal oxygen uptake for a longer time than intense but submaximal runs","annee":"1999","categorie":"Course à pied, Interval Training, Temps limite à VO2 max","fichier":"Intermittent_runs_at_vVO2max_remain_longer_at_VO2max_than_for_submaximal_exercise.pdf"},{"nom":"Interval training at VO2max: effects on aerobic performance and overtraining markers","annee":"1999","categorie":"Effet de l'entrainement, Anaérobie","fichier":"IT_at_VO2max_aerobic_performance_and_over_training_markers.pdf"},{"nom":"Oxygen Deficit is Related to the Exercise Time to Exhaustion at Maximal Aerobic Speed in Middle Distance Runners","annee":"1999","categorie":"Course à pied, Effet de l'entrainement, Temps limite à VO2 max","fichier":"Renoux_oxygen_deficit_related_to_tlimvVO2max_in_middle_distance_runners.pdf"},{"nom":"Determination of the velocity associated with the longest time to exhaustion at maximal oxygen uptake","annee":"1998","categorie":"Temps limite à VO2 max, Modélisation","fichier":"Billat_determination_of_velocity_of_the_longest_time_at_VO2max.pdf"},{"nom":"High level runners are able to maintain a VO2 steady-state below VO2max in an all-out run over their critical velocity","annee":"1998","categorie":"Vitesse Critique, Cinétique de l'oxygène, Course à pied","fichier":"Billat_high_level_runner_maintain_VO2csteady_state.pdf"},{"nom":"The VO2 slow component for severe exercise depends on type of exercise and is not correlated with time to fatigue","annee":"1998","categorie":"Course à pied, Cyclisme, Cinétique de l'oxygène","fichier":"Billat_VO2_slow_component_for_severe_exercise_JAP.pdf"},{"nom":"Biomechanical Events in the Time to Exhaustion at Maximum Aerobic Speed","annee":"1997","categorie":"Biomécanique, Temps limite à VO2 max","fichier":"Gazeau_Biomechanical_events_in_the_time_to_exhaus.pdf"},{"nom":"Muscular Activations During Repetitions of Sculling Movements up to Exhaustion in Swimming","annee":"1997","categorie":"Biomécanique, Natation","fichier":"swimming_Muscular_Activations_During_Repetitions-of_Sculling.pdf"},{"nom":"Locomotion de l'athlete humain de demi-fond et du trotteur a la vitesse correspondant au seuil lactique","annee":"1997","categorie":"","fichier":"Billat_locomotion.pdf"},{"nom":"A comparison of time to exhaustion at VO2max elite cyclists, kayak paddlers, swimmers and runners","annee":"1996","categorie":"Temps limite à VO2 max, Cyclisme, Kayak, Course à pied, Natation","fichier":"billat_A_comparison_of_time_to_exhaustion_at_VO2max_in_elite_cycl.pdf"},{"nom":"Use of Blood Lactate Measurements for Prediction of Exercise Performance and for Control of Training","annee":"1996","categorie":"Course à pied, Marathon, Lactate","fichier":"Billat_blood_lactate_Mesasurements_for_exercise_performance_and_training control.pdf"},{"nom":"Gender Effect on the Relationship of Time Limit at 100% VO2max With Other Bioenergetic Characteristics","annee":"1996","categorie":"Course à pied, Effet du genre, Temps limite à VO2 max","fichier":"Billat_gender_effect_tlim_VO2max_bioenergetics.pdf"},{"nom":"Effect of protocol on determination of velocity at VO2 max and on its time to exhaustion","annee":"1996","categorie":"Temps limite à VO2 max","fichier":"Billat_protocol_on_determination_of_vVO2max_and_its_tlim.pdf"},{"nom":"Significance of the velocity at VO2max and time to exhaustion at this velocity","annee":"1996","categorie":"Temps limite à VO2 max","fichier":"Billat_significance_velocity_vo2max_tlim.pdf"},{"nom":"Anaerobic contribution to the time to exhaustion at the minimal exercise intensity at which maximal oxygen uptake occurs in elite cyclists, kayakists and swimmers","annee":"1996","categorie":"Cinétique de l'oxygène, Cyclisme, Kayak, Anaérobie, Natation, Temps limit à VO2 max","fichier":"Faina_anaerobic_contribution_to_tlim_at_the_minimal_intensty_at_which_VO2max_occurs_in_swimmers_kayakists_swimmers.pdf"},{"nom":"Critical velocity of continuous and intermittent running exercise. An example of the limits of the critical power concept","annee":"1996","categorie":"Interval Training, Vitesse Critique","fichier":"Kachouri_Critical_velocity_continuous_intermittent_exercise.pdf"},{"nom":"Hypoxémie et Temps Limite à la Vitesse Aérobie Maximale Chez des Coureurs de Fond","annee":"1995","categorie":"Course à pied, Hypoxémie, Temps limite à VO2 max","fichier":"billat_hypoxemia_and_tlimvVO2max_in_endurance_runners.pdf"},{"nom":"Time to Exhaustion at 90, 100 and 105% of Velocity at VO2 max and critical speed in elite longdistance runners","annee":"1995","categorie":"Temps limite à VO2 max, Course à pied","fichier":"Billat tlim 90 100 105 vVVO2max and critical speed in elite runners.pdf"},{"nom":"A test to approach maximal lactate steady-state in 12-year old boys and girls","annee":"1995","categorie":"MLSS, Adolescent","fichier":"Billat_a_test_to_approachMLSS_in_12y_old_girls_and_boys.pdf"},{"nom":"Energy specificity of rock climbing and aerobic capacity in competitive sport rock climbers","annee":"1995","categorie":"Escalade","fichier":"Billat_energy_specificity_of_rock_climbing-JSMPF.pdf"},{"nom":"Time to exhaustion at 100 % of velocity at VO2max and modelling of the time-limit\/velocity relationship in elite long-distance runners","annee":"1994","categorie":"Modélisation","fichier":"Billat_tlim_vVO2max_and_modeling_timevelocity_relationship_in_elite_runnes.pdf"},{"nom":"A method for determining the maximal steady state of blood lactate concentration from two levels of submaximal exercise","annee":"1994","categorie":"MLSS, Modélisation","fichier":"Billat-a_method_for_determining mlss.pdf"},{"nom":"Reproducibility of Running Time to Exhaustion at VO2max in Subelite Runners","annee":"1994","categorie":"Course à pied, Temps limite à VO2 max","fichier":"Billat-reproducibility of tlimvVO2max.pdf"},{"nom":"Time to Exhaustion at VO2max and Lactate Steady State Velocity in sub Elite Long-distance Runners","annee":"1993","categorie":"Course à pied, Lactate","fichier":"Billat_limvVO2max_and_lactate_steady_state_velocity_in_sub_elite_runners.pdf"}]