Obesity is marked by distinct functional connectivity in brain networks involved in food reward and salience

•A descripition of three different resting-state functional connectivity networks in fed condition and differences between lean and obese individuals.•How these networks respond to 48h of fasting.•The differences between lean and obese individuals in response to fasting with respect to these resting...

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Published inBehavioural brain research Vol. 287; pp. 127 - 134
Main Authors Wijngaarden, M.A., Veer, I.M., Rombouts, S.A.R.B., van Buchem, M.A., Willems van Dijk, K., Pijl, H., van der Grond, J.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.07.2015
Subjects
Adult
Amygdala
Brain - physiopathology
Brain Mapping
Default-mode network
Fasting
Fasting - physiology
Female
Food
Functional MRI
Humans
Hypothalamus
Magnetic Resonance Imaging
Male
Neural Pathways - physiopathology
Obesity
Obesity - physiopathology
Rest
Reward
RSNs
RS
Amygdala
MRI
vmPFC
GLM
MNI
Hypothalamus
dACC
CSF
BMI
RS-fMRI
Obesity
Fasting
DMN
Default-mode network
FOV
ROI
TE
fMRI
PCC
SEM
Functional MRI
TR
EPI
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Abstract •A descripition of three different resting-state functional connectivity networks in fed condition and differences between lean and obese individuals.•How these networks respond to 48h of fasting.•The differences between lean and obese individuals in response to fasting with respect to these resting-state functional connectivity networks. We hypothesized that brain circuits involved in reward and salience respond differently to fasting in obese versus lean individuals. We compared functional connectivity networks related to food reward and saliency after an overnight fast (baseline) and after a prolonged fast of 48h in lean versus obese subjects. We included 13 obese (2 males, 11 females, BMI 35.4±1.2kg/m2, age 31±3 years) and 11 lean subjects (2 males, 9 females, BMI 23.2±0.5kg/m2, age 28±3 years). Resting-state functional magnetic resonance imaging scans were made after an overnight fast (baseline) and after a prolonged 48h fast. Functional connectivity of the amygdala, hypothalamus and posterior cingulate cortex (default-mode) networks was assessed using seed-based correlations. At baseline, we found a stronger connectivity between hypothalamus and left insula in the obese subjects. This effect diminished upon the prolonged fast. After prolonged fasting, connectivity of the hypothalamus with the dorsal anterior cingulate cortex (dACC) increased in lean subjects and decreased in obese subjects. Amygdala connectivity with the ventromedial prefrontal cortex was stronger in lean subjects at baseline, which did not change upon the prolonged fast. No differences in posterior cingulate cortex connectivity were observed. In conclusion, obesity is marked by alterations in functional connectivity networks involved in food reward and salience. Prolonged fasting differentially affected hypothalamic connections with the dACC and the insula between obese and lean subjects. Our data support the idea that food reward and nutrient deprivation are differently perceived and/or processed in obesity.
AbstractList We hypothesized that brain circuits involved in reward and salience respond differently to fasting in obese versus lean individuals. We compared functional connectivity networks related to food reward and saliency after an overnight fast (baseline) and after a prolonged fast of 48 h in lean versus obese subjects. We included 13 obese (2 males, 11 females, BMI 35.4 ± 1.2 kg/m(2), age 31 ± 3 years) and 11 lean subjects (2 males, 9 females, BMI 23.2 ± 0.5 kg/m(2), age 28 ± 3 years). Resting-state functional magnetic resonance imaging scans were made after an overnight fast (baseline) and after a prolonged 48 h fast. Functional connectivity of the amygdala, hypothalamus and posterior cingulate cortex (default-mode) networks was assessed using seed-based correlations. At baseline, we found a stronger connectivity between hypothalamus and left insula in the obese subjects. This effect diminished upon the prolonged fast. After prolonged fasting, connectivity of the hypothalamus with the dorsal anterior cingulate cortex (dACC) increased in lean subjects and decreased in obese subjects. Amygdala connectivity with the ventromedial prefrontal cortex was stronger in lean subjects at baseline, which did not change upon the prolonged fast. No differences in posterior cingulate cortex connectivity were observed. In conclusion, obesity is marked by alterations in functional connectivity networks involved in food reward and salience. Prolonged fasting differentially affected hypothalamic connections with the dACC and the insula between obese and lean subjects. Our data support the idea that food reward and nutrient deprivation are differently perceived and/or processed in obesity.
•A descripition of three different resting-state functional connectivity networks in fed condition and differences between lean and obese individuals.•How these networks respond to 48h of fasting.•The differences between lean and obese individuals in response to fasting with respect to these resting-state functional connectivity networks. We hypothesized that brain circuits involved in reward and salience respond differently to fasting in obese versus lean individuals. We compared functional connectivity networks related to food reward and saliency after an overnight fast (baseline) and after a prolonged fast of 48h in lean versus obese subjects. We included 13 obese (2 males, 11 females, BMI 35.4±1.2kg/m2, age 31±3 years) and 11 lean subjects (2 males, 9 females, BMI 23.2±0.5kg/m2, age 28±3 years). Resting-state functional magnetic resonance imaging scans were made after an overnight fast (baseline) and after a prolonged 48h fast. Functional connectivity of the amygdala, hypothalamus and posterior cingulate cortex (default-mode) networks was assessed using seed-based correlations. At baseline, we found a stronger connectivity between hypothalamus and left insula in the obese subjects. This effect diminished upon the prolonged fast. After prolonged fasting, connectivity of the hypothalamus with the dorsal anterior cingulate cortex (dACC) increased in lean subjects and decreased in obese subjects. Amygdala connectivity with the ventromedial prefrontal cortex was stronger in lean subjects at baseline, which did not change upon the prolonged fast. No differences in posterior cingulate cortex connectivity were observed. In conclusion, obesity is marked by alterations in functional connectivity networks involved in food reward and salience. Prolonged fasting differentially affected hypothalamic connections with the dACC and the insula between obese and lean subjects. Our data support the idea that food reward and nutrient deprivation are differently perceived and/or processed in obesity.
We hypothesized that brain circuits involved in reward and salience respond differently to fasting in obese versus lean individuals. We compared functional connectivity networks related to food reward and saliency after an overnight fast (baseline) and after a prolonged fast of 48h in lean versus obese subjects. We included 13 obese (2 males, 11 females, BMI 35.4 plus or minus 1.2kg/m2, age 31 plus or minus 3 years) and 11 lean subjects (2 males, 9 females, BMI 23.2 plus or minus 0.5kg/m2, age 28 plus or minus 3 years). Resting-state functional magnetic resonance imaging scans were made after an overnight fast (baseline) and after a prolonged 48h fast. Functional connectivity of the amygdala, hypothalamus and posterior cingulate cortex (default-mode) networks was assessed using seed-based correlations. At baseline, we found a stronger connectivity between hypothalamus and left insula in the obese subjects. This effect diminished upon the prolonged fast. After prolonged fasting, connectivity of the hypothalamus with the dorsal anterior cingulate cortex (dACC) increased in lean subjects and decreased in obese subjects. Amygdala connectivity with the ventromedial prefrontal cortex was stronger in lean subjects at baseline, which did not change upon the prolonged fast. No differences in posterior cingulate cortex connectivity were observed. In conclusion, obesity is marked by alterations in functional connectivity networks involved in food reward and salience. Prolonged fasting differentially affected hypothalamic connections with the dACC and the insula between obese and lean subjects. Our data support the idea that food reward and nutrient deprivation are differently perceived and/or processed in obesity.
Author Rombouts, S.A.R.B.
Willems van Dijk, K.
Pijl, H.
van Buchem, M.A.
Veer, I.M.
van der Grond, J.
Wijngaarden, M.A.
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  surname: Wijngaarden
  fullname: Wijngaarden, M.A.
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  organization: Department of Endocrinology and Metabolism, Leiden University Medical Center, 2333ZA Leiden, The Netherlands
– sequence: 2
  givenname: I.M.
  surname: Veer
  fullname: Veer, I.M.
  email: i.m.veer@lumc.nl
  organization: Leiden Institute for Brain and Cognition (LIBC), Leiden University, 2300RC Leiden, The Netherlands
– sequence: 3
  givenname: S.A.R.B.
  surname: Rombouts
  fullname: Rombouts, S.A.R.B.
  email: s.a.r.b.rombouts@lumc.nl
  organization: Leiden Institute for Brain and Cognition (LIBC), Leiden University, 2300RC Leiden, The Netherlands
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  fullname: van Buchem, M.A.
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  organization: Leiden Institute for Brain and Cognition (LIBC), Leiden University, 2300RC Leiden, The Netherlands
– sequence: 5
  givenname: K.
  surname: Willems van Dijk
  fullname: Willems van Dijk, K.
  email: k.willems_van_dijk@lumc.nl
  organization: Department of Endocrinology and Metabolism, Leiden University Medical Center, 2333ZA Leiden, The Netherlands
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  givenname: H.
  surname: Pijl
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  organization: Department of Endocrinology and Metabolism, Leiden University Medical Center, 2333ZA Leiden, The Netherlands
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  givenname: J.
  surname: van der Grond
  fullname: van der Grond, J.
  email: j.van_der_grond@lumc.nl
  organization: Department of Radiology, Leiden University Medical Center, 2333ZA Leiden, The Netherlands
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Keywords RSNs
RS
Amygdala
MRI
vmPFC
GLM
MNI
Hypothalamus
dACC
CSF
BMI
RS-fMRI
Obesity
Fasting
DMN
Default-mode network
FOV
ROI
TE
fMRI
PCC
SEM
Functional MRI
TR
EPI
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Snippet •A descripition of three different resting-state functional connectivity networks in fed condition and differences between lean and obese individuals.•How...
We hypothesized that brain circuits involved in reward and salience respond differently to fasting in obese versus lean individuals. We compared functional...
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SubjectTerms Adult
Amygdala
Brain - physiopathology
Brain Mapping
Default-mode network
Fasting
Fasting - physiology
Female
Food
Functional MRI
Humans
Hypothalamus
Magnetic Resonance Imaging
Male
Neural Pathways - physiopathology
Obesity
Obesity - physiopathology
Rest
Reward
Title Obesity is marked by distinct functional connectivity in brain networks involved in food reward and salience
URI https://dx.doi.org/10.1016/j.bbr.2015.03.016
https://www.ncbi.nlm.nih.gov/pubmed/25779924
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https://www.proquest.com/docview/1732822525
Volume 287
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