Circadian rhythmicity as a predictor of weight-loss effectiveness

Objectives: Some of the major challenges associated with successful dietary weight management include the identification of individuals not responsive to specific interventions. The aim was to investigate the potential relationship between weight loss and circadian rhythmicity, using wrist temperatu...

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Bibliographic Details
Published in:International Journal of Obesity 2014-08, Vol.38 (8), p.1083-1088
Main Authors: Bandín, C, Martinez-Nicolas, A, Ordovás, J M, Madrid, J A, Garaulet, M
Format: Article
Language:English
Subjects:
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Adult
Amplitudes
Behavior Therapy
Biological and medical sciences
Body Mass Index
Body size
Body Temperature
Body weight
Body weight loss
Cell interaction
Circadian Rhythm
Circadian rhythms
Diet, Mediterranean
Epidemiology
Female
Fragmentation
Health aspects
Health Promotion and Disease Prevention
Humans
Internal Medicine
Medical sciences
Medicine
Medicine & Public Health
Melatonin
Metabolic Diseases
Metabolic syndrome
Motor Activity
Nutrition research
Obesity
Obesity - metabolism
Obesity - prevention & control
original-article
Overweight
Physiological aspects
Physiology
Predictive Value of Tests
Public Health
Sensors
Spain
Treatment Outcome
Weight control
Weight Loss
Weight loss measurement
Weight reduction
Weight Reduction Programs
Wrist
Wrist - blood supply
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Summary:Objectives: Some of the major challenges associated with successful dietary weight management include the identification of individuals not responsive to specific interventions. The aim was to investigate the potential relationship between weight loss and circadian rhythmicity, using wrist temperature and actimetry measurements, in women undergoing a weight-loss program, in order to assess whether circadian rhythmicity could be a marker of weight-loss effectiveness. Methods: Participants were 85 overweight and obese women (body mass index, BMI: 30.24±4.95 kg m −2 ) subjected to a weight-reduction program. Efficacy of the treatment was defined as total weight loss, percentage of initial weight and weekly weight loss rates. Circadian rhythmicity in wrist temperature motor activity and position were analyzed using different sensors. Results: Lower weight loss was related with a more flattened pattern measured as amplitude from cosinor ( r =0.235, P =0.032), a higher fragmentation of rhythms determined by higher intradaily variability (IV) ( r =−0.339, P =0.002), and an impaired wrist temperature circadian rhythm determined by the means of Circadian Function Index ( r =0.228, P =0.038). Further analyses showed that low responders displayed lower amplitude (0.71±0.36 versus 1.24±0.62, P =0.036) and higher fragmentation of the circadian rhythm (0.24±0.11 versus 0.15±0.07, P =0.043) than high responders. Whereas we did not find significant differences in total activity rates between high responders and low responders, we found significant differences for the mean values of body position for high responders (39.12±3.79°) as compared with low responder women (35.31±2.53°, P =0.01). Conclusions: Circadian rhythms at the beginning of the treatment are good predictors of future weight loss. Further treatment should consider chronobiological aspects to diagnose obesity and effectiveness of treatments.
ISSN:0307-0565
1476-5497
DOI:10.1038/ijo.2013.211