Sleep restriction increases the neuronal response to unhealthy food in normal-weight individuals.
about
Elevated ghrelin predicts food intake during experimental sleep restrictionJoint Consensus Statement of the American Academy of Sleep Medicine and Sleep Research Society on the Recommended Amount of Sleep for a Healthy Adult: Methodology and DiscussionSleep disturbances, body fat distribution, food intake and/or energy expenditure: pathophysiological aspectsJoint Consensus Statement of the American Academy of Sleep Medicine and Sleep Research Society on the Recommended Amount of Sleep for a Healthy Adult: Methodology and DiscussionThe impact of sleep and circadian disturbance on hormones and metabolismCircadian Rhythm and Sleep Disruption: Causes, Metabolic Consequences, and CountermeasuresAn integrative review of sleep for nutrition professionalsThe Impact of Shiftwork on Skeletal Muscle HealthSleep Duration and Quality: Impact on Lifestyle Behaviors and Cardiometabolic Health: A Scientific Statement From the American Heart Association.Nutritional psychiatry research: an emerging discipline and its intersection with global urbanization, environmental challenges and the evolutionary mismatchMetabolic imaging in obesity: underlying mechanisms and consequences in the whole body.Sleep and energy intake in early childhood.Increased food intake by insufficient sleep in humans: are we jumping the gun on the hormonal explanation?Altered salience network connectivity predicts macronutrient intake after sleep deprivation.Short sleep duration and dietary intake: epidemiologic evidence, mechanisms, and health implicationsChronic insufficient sleep and diet quality: Contributors to childhood obesityHungry for Sleep: A Role for Endocannabinoids?Actigraphy Measured Sleep Indices and Adiposity: The Multi-Ethnic Study of Atherosclerosis (MESA)Lack of sleep as a contributor to obesity in adolescents: impacts on eating and activity behaviors.Sleep and meal-time misalignment alters functional connectivity: a pilot resting-state studyChemogenetic inhibition of the medial prefrontal cortex reverses the effects of REM sleep loss on sucrose consumption.Effects of continuous positive airway pressure on energy intake in obstructive sleep apnea: A pilot sham-controlled study.Effects of continuous positive airway pressure on energy balance regulation: a systematic review.Chronic sleep fragmentation promotes obesity in young adult mice.Relationship between Self-Reported Dietary Nutrient Intake and Self-Reported Sleep Duration among Japanese AdultsAssociation between Sleep Habits and Metabolically Healthy Obesity in Adults: A Cross-Sectional StudySleep, obesity, and weight loss in adults: is there a rationale for providing sleep interventions in the treatment of obesity?Is sleep deprivation a contributor to obesity in children?Delayed Timing of Eating: Impact on Weight and Metabolism.Improved Sleep, Diet, and Exercise in Adults with Serious Mental Illness: Results from a Pilot Self-Management Intervention.Probable insomnia is associated with future total energy intake and diet quality in men.Obstructive sleep apnea and energy balance regulation: A systematic review.Sleep-obesity relation: underlying mechanisms and consequences for treatment.Actigraphic sleep fragmentation, efficiency and duration associate with dietary intake in the Rotterdam Study.The epidemiology of sleep and obesity.Systems biology of personalized nutrition.Does stress influence sleep patterns, food intake, weight gain, abdominal obesity and weight loss interventions and vice versa?A sipometer for measuring motivation to consume and reward value of foods and beverages in humans: Description and proof of principle.Short Sleep Duration Increases Metabolic Impact in Healthy Adults: A Population-Based Cohort Study.Unrecognized sleep loss accumulated in daily life can promote brain hyperreactivity to food cue.
P2860
Q23761087-F70624D0-DC85-43CC-825D-37B02BCEA0ADQ26800166-22C6AEE6-2DC1-40A8-BAED-9060B076BC93Q26859058-4A6AE45E-6352-4A0F-8CA3-BAD63219127FQ28383873-D6B08FF3-B429-4835-889C-E5670A63C3D9Q28390753-211C9AF1-53AE-43FD-83E6-25508EA97B15Q28396073-890C05BB-3BD5-4731-9C74-257EC4B7645BQ28397279-75A6EC2F-D9BF-4427-818D-0AA9B2179F36Q29247855-277C4390-3413-4C89-909F-25AC127A0E58Q30243888-2BF118E5-973B-4C25-B53D-95278475EEC2Q30838578-B5C66106-0A0D-45B5-8AD5-F2E8E13810FFQ30991322-315762D4-C8D7-4101-972C-64CB454062B7Q33870456-F0CD316D-CFFD-405C-8A04-11B381F283BFQ33901766-F07E2C05-60E1-41B2-8C1C-C80D76398AB8Q35040819-661D2008-C606-4CB0-A218-C2AD7043E298Q36273199-33C76CCF-53FC-4AE8-B0D7-2A399C527567Q36395891-41D73A87-33E0-4939-B540-A99627A4A8D9Q36606323-D80F324D-BFDB-4F29-9363-27F1175EB8D0Q37185054-67F65F69-840F-4C10-86AD-1BA89BF14143Q37286060-89765868-9CA3-4719-9E95-39C5E32F6245Q37402016-BBAABE3D-E34F-454B-9ABA-FFDAE4691CA5Q37478421-06F670C0-E70B-4E02-B2EA-FD8836933BB0Q37519539-E52CEC2E-959F-4F8C-AF58-07662F6AF870Q37545870-11C0FF2B-EB16-4EE6-B106-30DEF7818E17Q37626898-845A0859-5680-47BF-BFEA-24C9EEA2E132Q37673208-AB2098A5-D459-4081-91A1-6CD799F3CF6DQ37711701-F94DEE0B-F8A6-40BF-ABB6-65F09FF89F74Q38217281-B9472C0D-9414-4637-8D43-9A7079C559C9Q38635870-6293F164-CEDC-412E-B951-E371DAA73562Q38655455-041E0BEC-36B0-4384-88A6-41709D725893Q38813414-9AD9B08D-E27C-4785-A562-7B0F2CA5EC95Q38842121-D07897C1-274B-4393-B5AD-0738A2CD79D0Q39000359-FC0018A5-C3A3-4B11-A631-8DAD63C06B3BQ39121543-0B7F3007-14B5-44AF-B692-459EF7721050Q40012942-1EF20F61-A5F4-4929-BDE2-B8E85C515712Q41996815-F2DFAC92-C77F-4B49-A577-33D7352B9B7BQ46093623-B533C8E9-4F2D-4279-82DB-06E2498C4F64Q47191546-5F67926C-C7F2-491B-A493-F02817CC6557Q47371532-C03F1F0B-C528-46A1-8B07-FED8DF73DC79Q47550069-3A73A6A5-161B-422D-9CEA-CEE46A15B86AQ47610946-264CF757-E7AE-47C8-B7BE-454C2FA93663
P2860
Sleep restriction increases the neuronal response to unhealthy food in normal-weight individuals.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 19 June 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Sleep restriction increases th ...... in normal-weight individuals.
@en
Sleep restriction increases th ...... in normal-weight individuals.
@nl
type
label
Sleep restriction increases th ...... in normal-weight individuals.
@en
Sleep restriction increases th ...... in normal-weight individuals.
@nl
prefLabel
Sleep restriction increases th ...... in normal-weight individuals.
@en
Sleep restriction increases th ...... in normal-weight individuals.
@nl
P2093
P2860
P356
P1476
Sleep restriction increases th ...... in normal-weight individuals.
@en
P2093
P2860
P2888
P304
P356
10.1038/IJO.2013.114
P407
P50
P577
2013-06-19T00:00:00Z