Individual variability following 12 weeks of supervised exercise: identification and characterization of compensation for exercise-induced weight loss.
about
The biological control of voluntary exercise, spontaneous physical activity and daily energy expenditure in relation to obesity: human and rodent perspectivesDiet Versus Exercise in Weight Loss and Maintenance: Focus on TryptophanDoes increased exercise or physical activity alter ad-libitum daily energy intake or macronutrient composition in healthy adults? A systematic reviewRole of resting metabolic rate and energy expenditure in hunger and appetite control: a new formulationDoes Habitual Physical Activity Increase the Sensitivity of the Appetite Control System? A Systematic ReviewExercise, Appetite and Weight Control: Are There Differences between Men and Women?Phenotypic Plasticity: Molecular Mechanisms and Adaptive SignificanceChanges in weight, waist circumference and compensatory responses with different doses of exercise among sedentary, overweight postmenopausal womenAre we losing the battle against cardiometabolic disease? The case for a paradigm shift in primary prevention.Change in physical activity after a diabetes diagnosis: opportunity for interventionAttenuating the Biologic Drive for Weight Regain Following Weight Loss: Must What Goes Down Always Go Back Up?Greater weight loss from running than walking during a 6.2-yr prospective follow-upEffects of 6-Weeks High-Intensity Interval Training in Schoolchildren with Insulin Resistance: Influence of Biological Maturation on Metabolic, Body Composition, Cardiovascular and Performance Non-responsesInfluence of Hot and Cold Environments on the Regulation of Energy Balance Following a Single Exercise Session: A Mini-ReviewExercise without weight loss does not reduce C-reactive protein: the INFLAME study.Low fat loss response after medium-term supervised exercise in obese is associated with exercise-induced increase in food rewardQuantification of the effect of energy imbalance on bodyweight.Non-exchangeability of running vs. other exercise in their association with adiposity, and its implications for public health recommendations.The role of exercise and physical activity in weight loss and maintenanceExercise, weight loss, and changes in body composition in mice: phenotypic relationships and genetic architectureAerobic exercise in women with polycystic ovary syndrome improves ovarian morphology independent of changes in body composition.Resistant starch and exercise independently attenuate weight regain on a high fat diet in a rat model of obesity.Effects of aerobic and resistance training on hemoglobin A1c levels in patients with type 2 diabetes: a randomized controlled trial.Predictors of Energy Compensation during Exercise Interventions: A Systematic Review.Energy and Macronutrient Intake in the Midwest Exercise Trial 2 (MET-2).Energy intake, nonexercise physical activity, and weight loss in responders and nonresponders: The Midwest Exercise Trial 2.Consistency in compensatory eating responses following acute exercise in inactive, overweight and obese women.Exercise Makes More than an Energy Deficit: Toward Improved Protocols for the Management of Obesity?The neurocognitive connection between physical activity and eating behaviour.Alterations in energy balance from an exercise intervention with ad libitum food intake.Exercise-related changes in between-network connectivity in overweight/obese adultsAppetite control: methodological aspects of the evaluation of foods.Effects of clinically significant weight loss with exercise training on insulin resistance and cardiometabolic adaptationsAerobic exercise alone results in clinically significant weight loss for men and women: midwest exercise trial 2.Aerobic and resistance training effects on energy intake: the STRRIDE-AT/RT study.Activity related energy expenditure, appetite and energy intake: potential implications for weight managementResistance to exercise-induced weight loss: compensatory behavioral adaptations.Exercise and energy intake in overweight, sedentary individualsIndividual responsiveness to exercise-induced fat loss is associated with change in resting substrate utilization.Impact of imposed exercise on energy intake in children at risk for overweight.
P2860
Q24622846-237F4444-8AD3-461E-AAAE-7A43385D7E89Q26747588-2F590DBB-F8B8-45B7-BF08-66F1A489DB41Q26851919-1BF07FEF-662C-4A12-8E26-8F07D6459C53Q26866503-04BA754A-8FEF-4473-A5F7-4E07E5729277Q28070199-6E7F4057-72A7-4C25-8E2F-1BF5093F4D11Q28076371-6A172504-9E6D-4828-BB9D-B0A944B83631Q30052420-B15C1E2A-5CE6-49C2-8BAD-E8AD1B055855Q33410106-9ED1D95C-21A4-4605-AA4C-440D1100516AQ33411079-0922FF9F-A0BE-40AA-ABF3-E2F71BE85D99Q33640328-5059AFB9-95DA-45AD-A802-A40BA8C16C27Q33749354-842B7A8D-B4B0-4706-B99B-4B7EF42052D6Q33794263-E3A2795B-B5CA-4FCF-AB6E-8E19B5E9FC83Q33849773-695DAB9A-EFF9-4829-A2B3-4082D6464F38Q33852012-38563642-8784-49EB-8A28-8ACC04AFDC1AQ34058026-F3845A90-4AB1-4631-987E-C9AD80ACDDF6Q34155735-9A92511E-9817-4820-ADE5-5D5FE8CA2D9EQ34211257-787F1997-4154-4A05-8886-781912474898Q34341448-D1552DD2-6B74-4597-BE59-4F4D03535232Q34398666-9BD1AF07-C926-427B-9785-C90B6F21EE67Q34661908-32A22140-EF3B-4D31-B646-D5A735B0A50EQ35046136-04CBA495-0204-4C10-98B0-0A6699145A5CQ35153834-2451D7D9-0417-4DDC-B75D-9D52183B1083Q35215687-87503F49-1F4B-422B-B14E-EE7C526EF046Q35635098-07BB96BF-689E-4397-850C-20D5382C89A2Q35832817-E43DB048-BB60-4EBF-9E0D-B54838002673Q36082917-ECF367A7-4F04-41F3-AD76-AF40855B930DQ36288202-EB1938CC-B2D0-42F5-A5F1-9BC9F7D9553FQ36437716-224FE0C8-B0BD-4575-8173-577B8499D5E9Q36503714-FE39863B-4047-4160-8EA7-010C309F1293Q36686205-077951B5-D37F-4AEE-ACB6-D211011E99B3Q36717111-F53FDCDF-E1B9-4EA3-8E81-0B640CCA5ED7Q36720003-13C74497-23EF-4815-B36E-48EC4DE25A99Q36746519-3646A325-3ADC-4A0A-BCD4-F5BF936DC236Q36778778-27F43820-1E6D-49E8-9D46-23793DD04CE6Q36840735-EBD4DC1C-2974-4625-9E90-E5F27A6F5C80Q36863851-B10B2385-F001-4A8D-9151-D37D5F2B7027Q36966273-F5665AB2-B751-45F6-A09E-D646114D5232Q37164308-0D671BB4-D7FC-4D04-A805-91D4B13920EAQ37318332-322CCAE9-91A9-47EE-A62A-77264CB03020Q37356824-B8D93730-8172-4B42-A31A-761220843D7F
P2860
Individual variability following 12 weeks of supervised exercise: identification and characterization of compensation for exercise-induced weight loss.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Individual variability followi ...... exercise-induced weight loss.
@en
Individual variability followi ...... exercise-induced weight loss.
@en-gb
Individual variability followi ...... exercise-induced weight loss.
@nl
type
label
Individual variability followi ...... exercise-induced weight loss.
@en
Individual variability followi ...... exercise-induced weight loss.
@en-gb
Individual variability followi ...... exercise-induced weight loss.
@nl
prefLabel
Individual variability followi ...... exercise-induced weight loss.
@en
Individual variability followi ...... exercise-induced weight loss.
@en-gb
Individual variability followi ...... exercise-induced weight loss.
@nl
P2860
P50
P356
P1476
Individual variability followi ...... exercise-induced weight loss.
@en
P2093
P2860
P2888
P304
P356
10.1038/SJ.IJO.0803712
P407
P577
2007-09-11T00:00:00Z