与食物偏好相关的对食物线索的神经反应性改变,但在胃旁路手术后与食欲相关的激素浓度未改变。
Altered neural responsivity to food cues in relation to food preferences, but not appetite-related hormone concentrations after RYGB-surgery.
作者信息
Zoon Harriët F A, de Bruijn Suzanne E M, Smeets Paul A M, de Graaf Cees, Janssen Ignace M C, Schijns Wendy, Aarts Edo O, Jager Gerry, Boesveldt Sanne
机构信息
Division of Human Nutrition and Health, Wageningen University, Wageningen, The Netherlands.
Division of Human Nutrition and Health, Wageningen University, Wageningen, The Netherlands; Image Sciences Institute, University Medical Center Utrecht, Utrecht, The Netherlands.
出版信息
Behav Brain Res. 2018 Nov 1;353:194-202. doi: 10.1016/j.bbr.2018.07.016. Epub 2018 Jul 21.
BACKGROUND
After Roux-en-Y gastric bypass (RYGB) surgery, patients report a shift in food preferences away from high-energy foods.
OBJECTIVE
We aimed to elucidate the potential mechanisms underlying this shift in food preferences by assessing changes in neural responses to food pictures and odors before and after RYGB. Additionally, we investigated whether altered neural responsivity was associated with changes in plasma endocannabinoid and ghrelin concentrations.
DESIGN
19 RYGB patients (4 men; age 41 ± 10 years; BMI 41 ± 1 kg/m before; BMI 36 ± 1 kg/m after) participated in this study. Before and two months after RYGB surgery, they rated their food preferences using the Macronutrient and Taste Preference Ranking Task and BOLD fMRI responses towards pictures and odors of high-, and low-energy foods and non-food items were measured. Blood samples were taken to determine plasma endocannabinoid and ghrelin concentrations pre- and post-surgery.
RESULTS
Patients demonstrated a shift in food preferences away from high-fat/sweet and towards low-energy/savory food products, which correlated with decreased superior parietal lobule responsivity to high-energy food odor and a reduced difference in precuneus responsivity to high-energy versus low-energy food pictures. In the anteroventral prefrontal cortex (superior frontal gyrus) the difference in deactivation towards high-energy versus non-food odors reduced. The precuneus was less deactivated in response to all cues. Plasma concentrations of anandamide were higher after surgery, while plasma concentrations of other endocannabinoids and ghrelin did not change. Alterations in appetite-related hormone concentrations did not correlate with changes in neural responsivity.
CONCLUSIONS
RYGB leads to changed responsivity of the frontoparietal control network that orchestrates top-down control to high-energy food compared to low-energy food and non-food cues, rather than in reward related brain regions, in a satiated state. Together with correlations with the shift in food preference from high- to low-energy foods this indicates a possible role in new food preference formation.
背景
在接受Roux-en-Y胃旁路术(RYGB)后,患者报告其食物偏好从高能量食物转向了其他食物。
目的
我们旨在通过评估RYGB手术前后对食物图片和气味的神经反应变化,阐明这种食物偏好转变的潜在机制。此外,我们还研究了神经反应性的改变是否与血浆内源性大麻素和胃饥饿素浓度的变化有关。
设计
19名RYGB患者(4名男性;年龄41±10岁;术前BMI 41±1kg/m²;术后BMI 36±1kg/m²)参与了本研究。在RYGB手术前和术后两个月,他们使用宏量营养素和口味偏好排序任务对食物偏好进行评分,并测量对高能量和低能量食物及非食物项目的图片和气味的血氧水平依赖性功能磁共振成像(BOLD fMRI)反应。采集血样以测定手术前后血浆内源性大麻素和胃饥饿素的浓度。
结果
患者的食物偏好从高脂肪/甜食转向了低能量/美味食物,这与顶叶上小叶对高能量食物气味的反应性降低以及楔前叶对高能量与低能量食物图片反应性的差异减小相关。在前额腹侧皮质(额上回),对高能量与非食物气味去激活的差异减小。楔前叶对所有线索的去激活程度均降低。术后血浆花生四烯乙醇胺浓度升高,而其他内源性大麻素和胃饥饿素的血浆浓度未发生变化。食欲相关激素浓度的改变与神经反应性的变化无关。
结论
RYGB导致额顶叶控制网络的反应性发生改变,在饱腹感状态下,该网络对高能量食物而非低能量食物和非食物线索进行自上而下的控制,而非在与奖赏相关的脑区。再加上与食物偏好从高能量食物向低能量食物转变的相关性,这表明其在新食物偏好形成中可能发挥作用。
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