Sneider Jennifer T, Cohen-Gilbert Julia E, Hamilton Derek A, Stein Elena R, Golan Noa, Oot Emily N, Seraikas Anna M, Rohan Michael L, Harris Sion K, Nickerson Lisa D, Silveri Marisa M
Neurodevelopmental Laboratory on Addictions and Mental Health, McLean Hospital, Belmont, MA, United States.
Department of Psychiatry, Harvard Medical School, Harvard University, Boston, MA, United States.
Front Hum Neurosci. 2018 Jun 26;12:238. doi: 10.3389/fnhum.2018.00238. eCollection 2018.
The frontal cortex undergoes substantial structural and functional changes during adolescence and significant developmental changes also occur in the hippocampus. Both of these regions are notably vulnerable to alcohol and other substance use, which is typically initiated during adolescence. Identifying measures of brain function during adolescence, particularly before initiation of drug or alcohol use, is critical to understanding how such behaviors may affect brain development, especially in these vulnerable brain regions. While there is a substantial developmental literature on adolescent working memory, less is known about spatial memory. Thus, a virtual Morris water task (vMWT) was applied to probe function of the adolescent hippocampus. Multiband blood oxygen level dependent (BOLD) functional magnetic resonance imaging (fMRI) data were acquired at 3T during task performance. Participants included 32 healthy, alcohol- and drug-naïve adolescents, 13-14 years old, examined at baseline of a 3-year longitudinal MRI study. Significantly greater BOLD activation was observed in the hippocampus and surrounding areas, and in prefrontal regions involved in executive function, during retrieval relative to motor performance. In contrast, significantly greater BOLD activation was observed in components of the default mode network, including frontal medial cortex, during the motor condition (when task demands were minimal) relative to the retrieval condition. Worse performance (longer path length) during retrieval was associated with greater activation of angular gyrus/supramarginal gyrus, whereas worse performance (longer path length/latency) during motor control was associated with less activation of frontal pole. Furthermore, while latency (time to complete task) was greater in females than in males, there were no sex differences in path length (accuracy), suggesting that females required more time to navigate the virtual environment, but did so as effectively as males. These findings demonstrate that performance of the vMWT elicits hippocampal and prefrontal activation patterns in early adolescence, similar to activation observed during spatial memory retrieval in adults. Given that this task is sensitive to hippocampal function, and that the adolescent hippocampus is notably vulnerable to the effects of alcohol and other substances, data acquired using this task during healthy adolescent development may provide a framework for understanding neurobiological impact of later initiation of use.
前额叶皮质在青春期会经历显著的结构和功能变化,海马体也会发生重大的发育变化。这两个区域都特别容易受到酒精和其他物质使用的影响,而这些物质的使用通常始于青春期。确定青春期期间,尤其是在开始使用药物或酒精之前的脑功能测量方法,对于理解此类行为如何影响大脑发育至关重要,特别是在这些易受影响的脑区。虽然有大量关于青少年工作记忆的发育文献,但对空间记忆的了解较少。因此,应用虚拟莫里斯水迷宫任务(vMWT)来探究青少年海马体的功能。在任务执行期间,于3T磁场下采集多波段血氧水平依赖(BOLD)功能磁共振成像(fMRI)数据。参与者包括32名健康的、未接触过酒精和药物的13 - 14岁青少年,他们在一项为期3年的纵向MRI研究的基线期接受检查。相对于运动表现,在检索过程中,海马体及其周围区域以及参与执行功能的前额叶区域观察到显著更强的BOLD激活。相比之下,相对于检索状态,在运动状态(任务需求最小)期间,默认模式网络的组成部分,包括额内侧皮质,观察到显著更强的BOLD激活。检索过程中较差的表现(路径长度更长)与角回/缘上回的更大激活相关,而运动控制过程中较差的表现(路径长度/潜伏期更长)与额极的激活减少相关。此外,虽然女性完成任务的潜伏期比男性长,但在路径长度(准确性)方面没有性别差异,这表明女性在虚拟环境中导航需要更多时间,但效果与男性一样好。这些发现表明,vMWT任务在青春期早期会引发海马体和前额叶的激活模式,类似于在成年人空间记忆检索过程中观察到的激活。鉴于此任务对海马体功能敏感,且青少年海马体特别容易受到酒精和其他物质的影响,在健康青少年发育过程中使用此任务获取的数据可能为理解后期开始使用这些物质的神经生物学影响提供一个框架。
