Ward Thomas W, Killanin Abraham D, Rice Danielle L, Ende Grace C, Steiner Erica L, Coutant Anna T, Embury Christine M, Calhoun Vince D, Wang Yu-Ping, Stephen Julia M, Heinrichs-Graham Elizabeth, Wilson Tony W
Institute for Human Neuroscience, Boys Town National Research Hospital, Boys Town, NE, United States.
Center for Pediatric Brain Health, Boys Town National Research Hospital, Boys Town, NE, United States.
Imaging Neurosci (Camb). 2025 Jul 9;3. doi: 10.1162/IMAG.a.78. eCollection 2025.
Pediatric obesity is one of the most serious public health issues the world faces today. Deleterious behavioral effects scaling with obesity and body mass have been demonstrated in cognitive tasks in children and adults, yet the neural oscillatory dynamics underlying these effects remain largely unstudied. In this study, 88 youth (6-13 years old) performed a verbal working memory task during high-density magnetoencephalography (MEG). The MEG data were transformed into the time-frequency domain and oscillatory responses during encoding and maintenance phases were imaged separately using a beamformer approach. Each participant's height, weight, sex, and age were used to create age- and-sex-adjusted body mass index (i.e., zBMI) measures and BMI-for-age percentiles. Whole-brain correlation maps were examined for effects of body mass on neural dynamics serving encoding and maintenance. According to the BMI-for-age percentiles, 21 subjects were classified as overweight/obese. Behaviorally, our results indicated that task accuracy and reaction time were strongly correlated with age but not zBMI, such that older youth were faster and more accurate than their younger peers. Neural oscillatory activity in the theta (4-7 Hz) and alpha (8-12 Hz) range scaled with zBMI in several left-hemispheric regions across occipital, temporal, and frontal cortices. During the encoding phase, elevated zBMI was associated with theta and alpha oscillations. In the maintenance phase, higher zBMIs were associated with alpha oscillatory activity. Taken together, these results suggest that oscillatory dynamics in brain regions central to working memory processing are vulnerable to deviations from normal body mass in specific spectral bands. The stronger alpha and weaker theta oscillations may point to opposing compensatory and deleterious effects of elevated zBMI on working memory, respectively.
儿童肥胖是当今世界面临的最严重的公共卫生问题之一。肥胖和体重对儿童及成人认知任务的有害行为影响已得到证实,然而这些影响背后的神经振荡动力学在很大程度上仍未得到研究。在本研究中,88名青少年(6至13岁)在高密度脑磁图(MEG)检查期间执行了言语工作记忆任务。MEG数据被转换到时间-频率域,并且使用波束形成器方法分别对编码和维持阶段的振荡反应进行成像。利用每位参与者的身高、体重、性别和年龄来创建年龄和性别调整后的体重指数(即zBMI)测量值以及年龄别BMI百分位数。研究了全脑相关性图谱,以探究体重对服务于编码和维持的神经动力学的影响。根据年龄别BMI百分位数,21名受试者被归类为超重/肥胖。在行为方面,我们的结果表明,任务准确性和反应时间与年龄密切相关,但与zBMI无关,因此年龄较大的青少年比年龄较小的同龄人反应更快且更准确。枕叶、颞叶和额叶皮质的几个左半球区域中,θ波(4至7赫兹)和α波(8至12赫兹)范围内的神经振荡活动与zBMI相关。在编码阶段,zBMI升高与θ波和α波振荡有关。在维持阶段,较高的zBMI与α波振荡活动有关。综上所述,这些结果表明,工作记忆处理核心脑区的振荡动力学在特定频谱带中容易受到正常体重偏差的影响。较强的α波振荡和较弱的θ波振荡可能分别表明zBMI升高对工作记忆的相反补偿作用和有害作用。
