DeGuzman Marisa, Shott Megan E, Yang Tony T, Riederer Justin, Frank Guido K W
From the Department of Psychiatry, University of Colorado School of Medicine, and the Neuroscience Program, University of Colorado Anschutz Medical Campus, Aurora; and the Division of Child and Adolescent Psychiatry, Department of Psychiatry, University of California, San Francisco School of Medicine, San Francisco.
Am J Psychiatry. 2017 Jun 1;174(6):557-565. doi: 10.1176/appi.ajp.2016.16060671. Epub 2017 Feb 24.
Anorexia nervosa is a psychiatric disorder of unknown etiology. Understanding associations between behavior and neurobiology is important in treatment development. Using a novel monetary reward task during functional magnetic resonance brain imaging, the authors tested how brain reward learning in adolescent anorexia nervosa changes with weight restoration.
Female adolescents with anorexia nervosa (N=21; mean age, 16.4 years [SD=1.9]) underwent functional MRI (fMRI) before and after treatment; similarly, healthy female control adolescents (N=21; mean age, 15.2 years [SD=2.4]) underwent fMRI on two occasions. Brain function was tested using the reward prediction error construct, a computational model for reward receipt and omission related to motivation and neural dopamine responsiveness.
Compared with the control group, the anorexia nervosa group exhibited greater brain response 1) for prediction error regression within the caudate, ventral caudate/nucleus accumbens, and anterior and posterior insula, 2) to unexpected reward receipt in the anterior and posterior insula, and 3) to unexpected reward omission in the caudate body. Prediction error and unexpected reward omission response tended to normalize with treatment, while unexpected reward receipt response remained significantly elevated. Greater caudate prediction error response when underweight was associated with lower weight gain during treatment. Punishment sensitivity correlated positively with ventral caudate prediction error response.
Reward system responsiveness is elevated in adolescent anorexia nervosa when underweight and after weight restoration. Heightened prediction error activity in brain reward regions may represent a phenotype of adolescent anorexia nervosa that does not respond well to treatment. Prediction error response could be a neurobiological marker of illness severity that can indicate individual treatment needs.
神经性厌食症是一种病因不明的精神疾病。了解行为与神经生物学之间的关联对治疗方案的制定很重要。作者通过在功能性磁共振脑成像期间使用一种新颖的金钱奖励任务,测试了青少年神经性厌食症患者的大脑奖励学习如何随体重恢复而变化。
患有神经性厌食症的女性青少年(N = 21;平均年龄16.4岁[标准差 = 1.9])在治疗前后接受了功能性磁共振成像(fMRI);同样,健康的女性对照青少年(N = 21;平均年龄15.2岁[标准差 = 2.4])也接受了两次fMRI检查。使用奖励预测误差结构对脑功能进行测试,这是一种与动机和神经多巴胺反应性相关的奖励接收和遗漏的计算模型。
与对照组相比,神经性厌食症组在以下方面表现出更强的大脑反应:1)尾状核、腹侧尾状核/伏隔核以及前岛叶和后岛叶内的预测误差回归;2)前岛叶和后岛叶对意外奖励接收的反应;3)尾状核体对意外奖励遗漏的反应。预测误差和意外奖励遗漏反应在治疗后趋于正常化,而意外奖励接收反应仍显著升高。体重过轻时尾状核预测误差反应越大,与治疗期间体重增加越低相关。惩罚敏感性与腹侧尾状核预测误差反应呈正相关。
青少年神经性厌食症患者在体重过轻时以及体重恢复后,奖励系统反应性升高。大脑奖励区域中增强的预测误差活动可能代表青少年神经性厌食症的一种对治疗反应不佳的表型。预测误差反应可能是疾病严重程度的神经生物学标志物,可指示个体的治疗需求。