F Wu1,2, H Zhao1, Y Zhang1, M Wang1, C Liu1, X Wang1, Y Cheng1, C Jin1, J Yang1, X Li3. 1. From the Department of Radiology (F.W., H.Z., Y.Z., M.W., C.L., X.W., Y.C., C.J., J.Y., X.L.), the First Affiliated Hospital of Xi'an Jiaotong University, Xi'an, China. 2. Department of Radiology (F.W.), Guangzhou Women and Children's Medical Center, Guangzhou Medical University, Guangzhou, China. 3. From the Department of Radiology (F.W., H.Z., Y.Z., M.W., C.L., X.W., Y.C., C.J., J.Y., X.L.), the First Affiliated Hospital of Xi'an Jiaotong University, Xi'an, China xianj.li@mail.xjtu.edu.cn.
Abstract
BACKGROUND AND PURPOSE: Knowledge of anatomic markers of the hand motor cortex is essential in the evaluation and treatment of motor neurologic diseases for both adults and developing populations. However, hand motor cortex variants in developing brains remain to be investigated. Our objective was to observe morphologic variants of the hand motor cortex in developing brains from neonates through childhood. MATERIALS AND METHODS: In this study, 542 participants (0∼15 years of age) were retrospectively enrolled and divided into different age groups. The hand motor cortex morphology was evaluated on the basis of 3D T1WI. Variations in hand motor cortex variants were compared among different age groups. Inter-gender and interhemispheric differences of hand motor cortex variants were also evaluated. RESULTS: Various hand motor cortex variants could be observed in developing brains, even in the neonatal period. One new morphologic shape, "immature Ω," was found in neonates and infants. The proportion of this new shape decreased dramatically during the first year after birth, then disappeared after 1 year of age. It persisted for a longer time in the right hemisphere and in males. However, sex or hemispheric effects on the distribution of the proportion of variants were not statistically significant. Furthermore, the proportion of concordance of the bilateral hand motor cortex showed an increasing trend with age (P = .006), higher in females than males. CONCLUSIONS: Various hand motor cortex variants already existed at birth. The distribution of proportions of different variants developmentally varied during the first year after birth and became stable after 1 year of age. The concordance of the bilateral hand motor cortex could be influenced by age and sex.
BACKGROUND AND PURPOSE: Knowledge of anatomic markers of the hand motor cortex is essential in the evaluation and treatment of motor neurologic diseases for both adults and developing populations. However, hand motor cortex variants in developing brains remain to be investigated. Our objective was to observe morphologic variants of the hand motor cortex in developing brains from neonates through childhood. MATERIALS AND METHODS: In this study, 542 participants (0∼15 years of age) were retrospectively enrolled and divided into different age groups. The hand motor cortex morphology was evaluated on the basis of 3D T1WI. Variations in hand motor cortex variants were compared among different age groups. Inter-gender and interhemispheric differences of hand motor cortex variants were also evaluated. RESULTS: Various hand motor cortex variants could be observed in developing brains, even in the neonatal period. One new morphologic shape, "immature Ω," was found in neonates and infants. The proportion of this new shape decreased dramatically during the first year after birth, then disappeared after 1 year of age. It persisted for a longer time in the right hemisphere and in males. However, sex or hemispheric effects on the distribution of the proportion of variants were not statistically significant. Furthermore, the proportion of concordance of the bilateral hand motor cortex showed an increasing trend with age (P = .006), higher in females than males. CONCLUSIONS: Various hand motor cortex variants already existed at birth. The distribution of proportions of different variants developmentally varied during the first year after birth and became stable after 1 year of age. The concordance of the bilateral hand motor cortex could be influenced by age and sex.
Authors: K Zilles; A Schleicher; C Langemann; K Amunts; P Morosan; N Palomero-Gallagher; T Schormann; H Mohlberg; U Bürgel; H Steinmetz; G Schlaug; P E Roland Journal: Hum Brain Mapp Date: 1997 Impact factor: 5.038
Authors: Liang Jingshan; Fang Shengyu; Fan Xing; Wang Zheng; Zhang Chuanbao; Qian Zenghui; Liu Xing; Sun Lihua; Li Guanzhang; Yang Fuqiang; Jin Shuai; Wang Yinyan; Jiang Tao Journal: Clin Neuroradiol Date: 2018-01-09 Impact factor: 3.649