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Responses to increasing exercise upon reaching the anaerobic threshold, and their control by the central nervous system.Cardiorespiratory and Metabolic Responses to Loaded Half Squat Exercise Executed at an Intensity Corresponding to the Lactate Threshold.High-intensity interval training, solutions to the programming puzzle: Part I: cardiopulmonary emphasis.The Lactate Minimum Test: Concept, Methodological Aspects and Insights for Future Investigations in Human and Animal Models.Exercise Tolerance Can Be Enhanced through a Change in Work Rate within the Severe Intensity Domain: Work above Critical Power Is Not Constant.Exercise as an Intervention to Reduce Study-Related Fatigue among University Students: A Two-Arm Parallel Randomized Controlled Trial.Prediction and Quantification of Individual Athletic Performance of Runners.Clinical Outcomes and Return-to-Sports Participation of 50 Soccer Players After Anterior Cruciate Ligament Reconstruction Through a Sport-Specific Rehabilitation Protocol.Oxygen uptake kinetics and energy system's contribution around maximal lactate steady state swimming intensity.The influence of weight loss on anaerobic threshold in obese women.Sprint Interval Training Induces A Sexual Dimorphism but does not Improve Peak Bone Mass in Young and Healthy Mice.Cardiac parasympathetic reactivation following exercise: implications for training prescription.Usefulness of the 6-minute walk test and the 200-metre fast walk test to individualize high intensity interval and continuous exercise training in coronary artery disease patients after acute coronary syndrome: a pilot controlled clinical study.Lack of concordance amongst measurements of individual anaerobic threshold and maximal lactate steady state on a cycle ergometer.Assessment of ventilatory thresholds during graded and maximal exercise test using time varying analysis of respiratory sinus arrhythmia.Performance-related workload in alpine skiing with congenital heart disease.Physiological correlates of 2-mile run performance as determined using a novel on-demand treadmill.Homocysteine increases during endurance exercise.Reliability and validity of the soccer specific INTER field test.Effect of acute normobaric hypoxia on the ventilatory threshold.A comparison of lactate indices during ramp exercise using modelling techniques and conventional methods.Physiological correlates of pulmonary function in children with cystic fibrosis.Predicting maximal aerobic speed through set distance time-trials.The Hit & Turn Tennis Test: an acoustically controlled endurance test for tennis players.The lactate and ventilatory thresholds in resistance training.Advances of the reverse lactate threshold test: Non-invasive proposal based on heart rate and effect of previous cycling experience.Executive control processes are associated with individual fitness outcomes following regular exercise training: blood lactate profile curves and neuroimaging findings.Sodium lactate infusion during a cycling time-trial does not increase lactate concentration or decrease performanceAnálise de taxa metabólica basal e composição corporal de idosos do sexo masculino antes e seis meses após exercícios de resistênciaHeart rate variability to assess ventilatory threshold in ski-mountaineeringTest–retest reliability of second lactate turnpoint using two different criteria in competitive cyclistsModelling of Running Performances: Comparisons of Power-Law, Hyperbolic, Logarithmic, and Exponential Models in Elite Endurance Runners
P2860
Q27691697-65CCBB3B-3DE1-4070-AE19-C152CD3002F3Q30403560-BFD31086-F1F6-4AEF-B9D1-B949ADAB6F92Q33355547-E62186AC-1C3C-490F-8CC7-BEF0EEFC94EFQ33775182-54CDC23A-89EB-44E6-9813-02D64422A60AQ35788588-3B1947AB-E261-4A3B-9D95-2B677C7684DAQ35975263-9B8DEFE7-BB10-44AB-A863-231694B4D833Q36059728-21D60156-3EEF-4188-A93B-8B22CC80AEC9Q36214946-A74FB64D-75BB-43AF-9F67-A4511D0E4DD3Q36292821-1B068114-20C9-466F-8D0C-E5D1EC1EF02AQ37144122-6E6E0840-625D-4738-8CBF-F3C7486FA1A1Q37708031-B9C07C97-C4FB-4352-A744-E964AF0CABF3Q38126387-D1EE2251-9B15-4B78-8F9C-65C8F2EA8318Q39732513-2A665BEB-6129-4C38-A824-C26AF14CE52EQ41117528-B27DCEFA-4192-4C79-8ADC-8D1E169DBE44Q42220236-DFC8E295-5CF4-4520-9FA2-C8DD7E84AF04Q42584569-6273865F-3EFD-4E9B-AE23-18221E39D272Q43273874-B99BB46F-F3C6-4739-B0BF-87B57EBB461CQ44680017-F10B7E3A-95D5-4DFE-BDEF-AAE009EDBE86Q44972647-C053DB0F-085D-4F69-A3D3-6C1109009740Q45180242-11B55271-31B9-4BEE-ABC6-A75CF6958E55Q46314391-BA7BEFB6-C9BB-4476-B4F1-A6C79C6FC843Q46831532-8F1939D2-FF9F-4E9F-B9FA-B68378C518D0Q48150595-2EE5F94A-6903-41E8-A95F-6A6B0D4E99E2Q48530803-0A2D4F9C-00F7-4E2E-ABCE-E6111E0AC120Q50737921-D97A2B8E-5B47-4823-B71E-0C33B0A2B4E2Q52657969-1E69F5B5-D0A6-46ED-9962-2C90C2380ED8Q55014003-C56FE9FB-0A7A-41C5-A01A-74EF88B845CCQ56989889-D49A714E-6479-406B-A172-0A57024C523EQ57528019-424DFAA7-4ECE-4013-BD28-B7771E410972Q57870859-D1320AF3-B113-4ED3-BB9D-CED1AB70272BQ58502237-46B3D315-670F-46E6-809F-ED8457853DF3Q58584833-462A001F-48D0-4B27-8FAB-026B57518FB6
P2860
description
2002 nî lūn-bûn
@nan
2002 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Methods to determine aerobic endurance.
@ast
Methods to determine aerobic endurance.
@en
Methods to determine aerobic endurance.
@nl
type
label
Methods to determine aerobic endurance.
@ast
Methods to determine aerobic endurance.
@en
Methods to determine aerobic endurance.
@nl
prefLabel
Methods to determine aerobic endurance.
@ast
Methods to determine aerobic endurance.
@en
Methods to determine aerobic endurance.
@nl
P2093
P2860
P1433
P1476
Methods to determine aerobic endurance.
@en
P2093
Laurent Bosquet
Patrick Legros
P2860
P304
P356
10.2165/00007256-200232110-00002
P577
2002-01-01T00:00:00Z
P5875
P6179
1050555693