scholarly article | Q13442814 |
P50 | author | Carlos Henríquez-Olguín | Q51317527 |
Rodrigo Ramírez-Campillo | Q51317534 | ||
Valetín E Fernández-Elías | Q83390601 | ||
P2093 | author name string | Claudio Soto | |
Antonio García-Hermoso | |||
Carlos Burgos | |||
Hugo Cerda-Kohler | |||
Rafael Zapata-Lamana | |||
Sonia García-Merino | |||
Igor Cigarroa | |||
Roberto Meneses-Valdés | |||
P2860 | cites work | Understanding the effect size and its measures | Q26747077 |
Homeostasis model assessment: insulin resistance and ?-cell function from fasting plasma glucose and insulin concentrations in man | Q26776977 | ||
Calculating and reporting effect sizes to facilitate cumulative science: a practical primer for t-tests and ANOVAs. | Q27022560 | ||
Regional fat changes induced by localized muscle endurance resistance training | Q28280945 | ||
Incremental exercise test design and analysis: implications for performance diagnostics in endurance athletes | Q28307659 | ||
An Analysis of Topical Coverage of Wikipedia | Q29026353 | ||
Psychophysical bases of perceived exertion | Q29615667 | ||
A systematic review and meta-analysis of interval training versus moderate-intensity continuous training on body adiposity | Q30234435 | ||
Importance of Assessing Cardiorespiratory Fitness in Clinical Practice: A Case for Fitness as a Clinical Vital Sign: A Scientific Statement From the American Heart Association | Q30240763 | ||
Global gender disparities in obesity: a review | Q30419207 | ||
Glucose kinetics and substrate oxidation during exercise in the follicular and luteal phases | Q31837641 | ||
Relationship between urinary sodium excretion and pioglitazone-induced edema | Q33609760 | ||
The road to gold: training and peaking characteristics in the year prior to a gold medal endurance performance | Q33897339 | ||
Bootstrap confidence intervals: when, which, what? A practical guide for medical statisticians | Q33910613 | ||
Two weeks of high-intensity aerobic interval training increases the capacity for fat oxidation during exercise in women. | Q34573330 | ||
No effect of menstrual cycle phase on glucose kinetics and fuel oxidation during moderate-intensity exercise | Q35071139 | ||
High Intensity Interval- vs Moderate Intensity- Training for Improving Cardiometabolic Health in Overweight or Obese Males: A Randomized Controlled Trial | Q35816301 | ||
Measurement of substrate oxidation during exercise by means of gas exchange measurements | Q36035646 | ||
The training intensity distribution among well-trained and elite endurance athletes. | Q36209236 | ||
Progressive statistics for studies in sports medicine and exercise science | Q37353813 | ||
Sex differences in obesity rates in poor countries: evidence from South Africa | Q37399790 | ||
Polarized training has greater impact on key endurance variables than threshold, high intensity, or high volume training | Q37549870 | ||
Cardiorespiratory fitness and metabolic risk factors in obesity | Q37601211 | ||
Continuous exercise but not high intensity interval training improves fat distribution in overweight adults | Q37616624 | ||
Training for intense exercise performance: high-intensity or high-volume training? | Q37788800 | ||
The potential for high-intensity interval training to reduce cardiometabolic disease risk | Q38010264 | ||
Impact of physical activity and fitness in class II and III obese individuals: a systematic review | Q38203007 | ||
Physical activity and cardiorespiratory fitness as major markers of cardiovascular risk: their independent and interwoven importance to health status | Q38255563 | ||
Exercise as medicine - evidence for prescribing exercise as therapy in 26 different chronic diseases | Q38647444 | ||
Assessment of Metabolic Flexibility by Means of Measuring Blood Lactate, Fat, and Carbohydrate Oxidation Responses to Exercise in Professional Endurance Athletes and Less-Fit Individuals | Q38721560 | ||
Concurrent exercise training: do opposites distract? | Q38923257 | ||
Effects of high-intensity interval training on cardiometabolic health: a systematic review and meta-analysis of intervention studies | Q38995060 | ||
Effect of sauna-based heat acclimation on plasma volume and heart rate variability | Q39093094 | ||
The effects of high-intensity interval training vs. moderate-intensity continuous training on body composition in overweight and obese adults: a systematic review and meta-analysis | Q39237122 | ||
Metabolic Flexibility in Health and Disease | Q39280816 | ||
Effects of Simultaneous or Sequential Weight Loss Diet and Aerobic Interval Training on Metabolic Syndrome. | Q40211559 | ||
Perceptual Changes in Response to Two Regimens of Interval Training in Sedentary Women. | Q40573252 | ||
Metabolic flexibility and oxidative capacity independently associate with insulin sensitivity in individuals with newly diagnosed type 2 diabetes | Q40668284 | ||
Criteria for maximal oxygen uptake: review and commentary. | Q40928953 | ||
High-Intensity Interval Training and Isocaloric Moderate-Intensity Continuous Training Result in Similar Improvements in Body Composition and Fitness in Obese Individuals | Q42483943 | ||
Effects of a 4-week high-intensity interval training on pacing during 5-km running trial. | Q42664561 | ||
Reduced time points to calculate the composite index | Q43001826 | ||
Fitness and fatness as predictors of mortality from all causes and from cardiovascular disease in men and women in the lipid research clinics study | Q43918406 | ||
A new method for detecting anaerobic threshold by gas exchange | Q44275141 | ||
Effect of cardiorespiratory fitness on mortality among hypertensive and normotensive women and men. | Q44820481 | ||
Quantifying training intensity distribution in elite endurance athletes: is there evidence for an "optimal" distribution? | Q46906956 | ||
Diet-induced weight loss and exercise alone and in combination enhance the expression of adiponectin receptors in adipose tissue and skeletal muscle, but only diet-induced weight loss enhanced circulating adiponectin. | Q47581129 | ||
Effects of 6-month aerobic interval training on skeletal muscle metabolism in middle-aged metabolic syndrome patients | Q48044379 | ||
Time-course effects of aerobic interval training and detraining in patients with metabolic syndrome. | Q51325209 | ||
Continuous vs interval training on glycemic control and macro- and microvascular reactivity in type 2 diabetic patients. | Q51333105 | ||
No effect of menstrual cycle phase on fuel oxidation during exercise in rowers | Q51532167 | ||
Low cardiorespiratory fitness and physical inactivity as predictors of mortality in men with type 2 diabetes. | Q51557017 | ||
Sprint interval and moderate-intensity continuous training have equal benefits on aerobic capacity, insulin sensitivity, muscle capillarisation and endothelial eNOS/NAD(P)Hoxidase protein ratio in obese men. | Q51662054 | ||
Regional body composition changes in women after 6 months of periodized physical training. | Q55033961 | ||
High-intensity interval training or continuous training, combined or not with fasting, in obese or overweight women with cardiometabolic risk factors: study protocol for a randomised clinical trial. | Q55322365 | ||
Recommendations for Clinical Exercise Laboratories: A Scientific Statement From the American Heart Association | Q56796566 | ||
Adiposity as Compared with Physical Activity in Predicting Mortality among Women | Q57749910 | ||
Influence of exercise intensity and duration on biochemical adaptations in skeletal muscle | Q67256715 | ||
The effects of aerobic conditioning and/or caloric restriction in overweight men and women | Q68721789 | ||
Effect of intensity of aerobic training on VO2max | Q81525253 | ||
Higher insulin-sensitizing response after sprint interval compared to continuous exercise | Q85921892 | ||
Increased blood cholesterol after a high saturated fat diet is prevented by aerobic exercise training | Q86028911 | ||
Qualified Fitness and Exercise as Professionals and Exercise Prescription: Evolution of the PAR-Q and Canadian Aerobic Fitness Test | Q87895617 | ||
HIIT enhances endurance performance and aerobic characteristics more than high-volume training in trained rowers | Q87956366 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P407 | language of work or name | English | Q1860 |
P921 | main subject | obesity | Q12174 |
P304 | page(s) | 1287 | |
P577 | publication date | 2018-09-18 | |
P1433 | published in | Frontiers in Physiology | Q2434141 |
P1476 | title | Effects of Polarized Training on Cardiometabolic Risk Factors in Young Overweight and Obese Women: A Randomized-Controlled Trial | |
P478 | volume | 9 |
Q64082464 | Adaptations to high-intensity interval training in skeletal muscle require NADPH oxidase 2 | cites work | P2860 |
Search more.