Neural mechanism and heritability of complex motor sequence and audiovisual integration: A healthy twin study
Author(s)
Li, Zhi
Huang, Jia
Xu, Ting
Wang, Ya
Li, Ke
Zeng, Ya-Wei
Lui, Simon SY
Cheung, Eric FC
Jin, Zhen
Dazzan, Paola
Glahn, David C
Chan, Raymond CK
Griffith University Author(s)
Year published
2018
Metadata
Show full item recordAbstract
Complex motor sequencing and sensory integration are two key items in scales assessing neurological soft signs. However, the underlying neural mechanism and heritability of these two functions is not known. Using a healthy twin design, we adopted two functional brain imaging tasks focusing on fist‐edge‐palm (FEP) complex motor sequence and audiovisual integration (AVI). Fifty‐six monozygotic twins and 56 dizygotic twins were recruited in this study. The pre‐ and postcentral, temporal and parietal gyri, the supplementary motor area, and the cerebellum were activated during the FEP motor sequence, whereas the precentral, ...
View more >Complex motor sequencing and sensory integration are two key items in scales assessing neurological soft signs. However, the underlying neural mechanism and heritability of these two functions is not known. Using a healthy twin design, we adopted two functional brain imaging tasks focusing on fist‐edge‐palm (FEP) complex motor sequence and audiovisual integration (AVI). Fifty‐six monozygotic twins and 56 dizygotic twins were recruited in this study. The pre‐ and postcentral, temporal and parietal gyri, the supplementary motor area, and the cerebellum were activated during the FEP motor sequence, whereas the precentral, temporal, and fusiform gyri, the thalamus, and the caudate were activated during AVI. Activation in the supplementary motor area during FEP motor sequence and activation in the precentral gyrus and the thalamic nuclei during AVI exhibited significant heritability estimates, ranging from 0.5 to 0.62. These results suggest that activation in cortical motor areas, the thalamus and the cerebellum associated with complex motor sequencing and audiovisual integration function may be heritable.
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View more >Complex motor sequencing and sensory integration are two key items in scales assessing neurological soft signs. However, the underlying neural mechanism and heritability of these two functions is not known. Using a healthy twin design, we adopted two functional brain imaging tasks focusing on fist‐edge‐palm (FEP) complex motor sequence and audiovisual integration (AVI). Fifty‐six monozygotic twins and 56 dizygotic twins were recruited in this study. The pre‐ and postcentral, temporal and parietal gyri, the supplementary motor area, and the cerebellum were activated during the FEP motor sequence, whereas the precentral, temporal, and fusiform gyri, the thalamus, and the caudate were activated during AVI. Activation in the supplementary motor area during FEP motor sequence and activation in the precentral gyrus and the thalamic nuclei during AVI exhibited significant heritability estimates, ranging from 0.5 to 0.62. These results suggest that activation in cortical motor areas, the thalamus and the cerebellum associated with complex motor sequencing and audiovisual integration function may be heritable.
View less >
Journal Title
HUMAN BRAIN MAPPING
Volume
39
Issue
3
Subject
Neurosciences
Cognitive and computational psychology