Milkshake Acutely Stimulates Dopamine Release in Ventral and Dorsal Striatum in Healthy-Weight Individuals and Patients with Severe Obesity Undergoing Bariatric Surgery: A Pilot Study.
Susan CarnellKimberley E SteeleGita ThapaliyaHiroto KuwubaraAnahys AghababianAfroditi PapantoniAyon NandiJames Robert BrašićTimothy H MoranDean F WongPublished in: Nutrients (2023)
The overconsumption of palatable energy-dense foods drives obesity, but few human studies have investigated dopamine (DA) release in response to the consumption of a palatable meal, a putative mediator of excess intake in obesity. We imaged [ 11 C]raclopride in the brain with positron emission tomography (PET) to assess striatal dopamine (DA) receptor binding pre- and post-consumption of a highly palatable milkshake (250 mL, 420 kcal) in 11 females, 6 of whom had severe obesity, and 5 of whom had healthy-weight. Those with severe obesity underwent assessments pre- and 3 months post-vertical sleeve gastrectomy (VSG). Our results demonstrated decreased post- vs. pre-meal DA receptor binding in the ventral striatum ( p = 0.032), posterior putamen ( p = 0.012), and anterior caudate ( p = 0.018), consistent with meal-stimulated DA release. Analysis of each group separately suggested that results in the caudate and putamen were disproportionately driven by meal-associated changes in the healthy-weight group. Baseline (pre-meal) DA receptor binding was lower in severe obesity than in the healthy-weight group. Baseline DA receptor binding and DA release did not change from pre- to post-surgery. The results of this small pilot study suggest that milkshake acutely stimulates DA release in the ventral and dorsal striatum. This phenomenon likely contributes to the overconsumption of highly palatable foods in the modern environment.
Keyphrases
- weight loss
- weight gain
- bariatric surgery
- insulin resistance
- metabolic syndrome
- positron emission tomography
- prefrontal cortex
- spinal cord
- type diabetes
- high fat diet induced
- body mass index
- computed tomography
- binding protein
- early onset
- physical activity
- obese patients
- uric acid
- adipose tissue
- pet ct
- endothelial cells
- skeletal muscle
- dna binding
- coronary artery disease
- body weight
- white matter
- brain injury
- pluripotent stem cells