青少年起病的 cannabis 使用障碍中冒险决策和奖励反应的神经机制。
Neural mechanisms of risky decision-making and reward response in adolescent onset cannabis use disorder.
机构信息
Healthy Childhood Brain Development and Developmental Traumatology Research Program, Department of Psychiatry and Behavioral Sciences, Duke University, Durham, NC 27710, USA; Brain Imaging Analysis Center and Department of Psychiatry and Behavioral Sciences, Duke University Medical Center, Durham, NC 27710, USA; Department of Psychology and Neuroscience, Duke University, Durham, NC 27710, USA.
出版信息
Drug Alcohol Depend. 2013 Nov 1;133(1):134-45. doi: 10.1016/j.drugalcdep.2013.05.020. Epub 2013 Jun 14.
BACKGROUND
Neural mechanisms of decision-making and reward response in adolescent cannabis use disorder (CUD) are underexplored.
METHODS
Three groups of male adolescents were studied: CUD in full remission (n=15); controls with psychopathology without substance use disorder history (n=23); and healthy controls (n=18). We investigated neural processing of decision-making and reward under conditions of varying risk and uncertainty with the Decision-Reward Uncertainty Task while participants were scanned using functional magnetic resonance imaging.
RESULTS
Abstinent adolescents with CUD compared to controls with psychopathology showed hyperactivation in one cluster that spanned left superior parietal lobule/left lateral occipital cortex/precuneus while making risky decisions that involved uncertainty, and hypoactivation in left orbitofrontal cortex to rewarded outcomes compared to no-reward after making risky decisions. Post hoc region of interest analyses revealed that both control groups significantly differed from the CUD group (but not from each other) during both the decision-making and reward outcome phase of the Decision-Reward Uncertainty Task. In the CUD group, orbitofrontal activations to reward significantly and negatively correlated with total number of individual drug classes the CUD patients experimented with prior to treatment. CUD duration significantly and negatively correlated with orbitofrontal activations to no-reward.
CONCLUSIONS
The adolescent CUD group demonstrated distinctly different activation patterns during risky decision-making and reward processing (after risky decision-making) compared to both the controls with psychopathology and healthy control groups. These findings suggest that neural differences in risky decision-making and reward processes are present in adolescent addiction, persist after remission from first CUD treatment, and may contribute to vulnerability for adolescent addiction.
背景
青少年物质使用障碍(CUD)患者在决策和奖励反应的神经机制方面的研究还很不充分。
方法
研究了三组男性青少年:完全缓解的 CUD 患者(n=15);有精神病理学但无物质使用障碍史的对照组(n=23);和健康对照组(n=18)。我们使用功能磁共振成像,通过决策-奖励不确定性任务,在不同风险和不确定性条件下,研究了决策和奖励的神经处理。
结果
与有精神病理学的对照组相比,戒断的 CUD 青少年在进行涉及不确定性的风险决策时,左顶叶上回/左侧外侧枕叶/楔前叶的一个簇内表现出过度活跃,而在做出风险决策后,对奖励结果的左眶额皮层的激活则低于无奖励。事后的兴趣区域分析显示,两组对照组在决策-奖励不确定性任务的决策和奖励结果阶段都与 CUD 组显著不同(但彼此之间没有差异)。在 CUD 组中,眶额皮层对奖励的激活与 CUD 患者在治疗前尝试的个体药物类别总数显著负相关。CUD 持续时间与眶额皮层对无奖励的激活显著负相关。
结论
与有精神病理学的对照组和健康对照组相比,青少年 CUD 组在风险决策和奖励处理(在风险决策之后)期间表现出明显不同的激活模式。这些发现表明,在青少年成瘾中存在风险决策和奖励处理的神经差异,这些差异在首次 CUD 治疗缓解后仍然存在,并且可能导致青少年成瘾的易感性。
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