1. |
Corballis M C, Häberling I S. The many sides of hemispheric asymmetry: a selective review and outlook. J Int Neuropsychol Soc, 2017, 23(9-10): 710-718.
|
2. |
Ocklenburg S, Güntürkün O. The lateralized brain - the neuroscience and evolution of hemispheric asymmetries. London, UK: Academic Press, 2018.
|
3. |
Hirnstein M, Hugdahl K, Hausmann M. Cognitive sex differences and hemispheric asymmetry: a critical review of 40 years of research. Laterality, 2019, 24(2): 204-252.
|
4. |
尚韡, 王乐, 段凯凯, 等. Broca区的脑半球偏侧化静息态功能连接研究. 中西医结合心脑血管病杂志, 2017, 15(8): 917-923.
|
5. |
Corballis M C. The evolution of lateralized brain circuits. Front Psychol, 2017, 8: 1021.
|
6. |
Kong X Z, Mathias S R, Guadalupe T, et al. Mapping cortical brain asymmetry in 17, 141 healthy individuals worldwide via the ENIGMA Consortium. Proc Natl Acad Sci U S A, 2018, 115(22): E5154-E5163.
|
7. |
Calabria M, Costa A, Green D W, et al. Neural basis of bilingual language control. Ann N Y Acad Sci, 2018, 1426(1): 221-235.
|
8. |
Xiang L A-O, Crow T, Roberts N. Automatic analysis of cross-sectional cerebral asymmetry on 3D in vivo MRI scans of human and chimpanzee. J Neurosci Res, 2019, 97(6): 673-682.
|
9. |
Toga A W, Thompson P M. Mapping brain asymmetry. Nat Rev Neurosci, 2003, 4(1): 37-48.
|
10. |
Güntürkün O, Ocklenburg S. Ontogenesis of lateralization. Neuron, 2017, 94(2): 249-263.
|
11. |
Wiberg A, Ng M, Al Omran Y, et al. Handedness, language areas and neuropsychiatric diseases: insights from brain imaging and genetics. Brain, 2019, 142(10): 2938-2947.
|
12. |
de Kovel C G F, Lisgo S, Karlebach G, et al. Left-Right asymmetry of maturation rates in human embryonic neural development. Biol Psychiatry, 2017, 82(3): 204-212.
|
13. |
de Kovel C G F, Lisgo S N, Fisher S E, et al. Subtle left-right asymmetry of gene expression profiles in embryonic and foetal human brains. Sci Rep, 2018, 8(1): 12606.
|
14. |
Ocklenburg S, Schmitz J, Moinfar Z, et al. Epigenetic regulation of lateralized fetal spinal gene expression underlies hemispheric asymmetries. eLife, 2017: e22784.
|
15. |
Muntané G, Santpere G, Verendeev A, et al. Interhemispheric gene expression differences in the cerebral cortex of humans and macaque monkeys. Brain Struct Funct, 2017, 222(7): 3241-3254.
|
16. |
王雪雯, 傅一笑, 唐金香, 等. 双生子研究方法在精神障碍研究中的应用与进展. 四川精神卫生, 2019, 32(2): 181-184.
|
17. |
Blokland G A, de Zubicaray G I, Mcmahon K L, et al. Genetic and environmental influences on neuroimaging phenotypes: a meta-analytical perspective on twin imaging studies. Twin Res Hum Genet, 2012, 15(3): 351-371.
|
18. |
Vuoksimaa E, Panizzon M S, Hagler D J, et al. Heritability of white matter microstructure in late middle age: a twin study of tract-based fractional anisotropy and absolute diffusivity indices. Hum Brain Mapp, 2017, 38(4): 2026-2036.
|
19. |
Thompson P M, Ge T, Glahn D C, et al. Genetics of the connectome. Neuroimage, 2013, 80: 475-488.
|
20. |
Brouwer R O, Panizzon M S, Glahn D O, et al. Genetic influences on individual differences in longitudinal changes in global and subcortical brain volumes: results of the ENIGMA plasticity working group. Hum Brain Mapp, 2017, 38(9): 4444-4458.
|
21. |
马兴顺, 贺越, 李晓, 等. 遗传和环境因素对青少年脑灰质容积和皮层厚度影响的双生子研究. 中国神经精神疾病杂志, 2018, 44(6): 354-359.
|
22. |
Gao W, Grewen K, Knickmeyer R C, et al. A review on neuroimaging studies of genetic and environmental influences on early brain development. Neuroimage, 2019, 185: 802-812.
|
23. |
Ge T, Chen C Y, Vettermann R, et al. The shared genetic basis of human fluid intelligence and brain morphology. Cereb Cortex, 2018, 29(8): 3471-3481.
|
24. |
Elliott L T, Sharp K, Alfaro-Almagro F, et al. Genome-wide association studies of brain imaging phenotypes in UK Biobank. Nature, 2018, 562(7726): 210-216.
|
25. |
Eyler L T, Vuoksimaa E, Panizzon M S, et al. Conceptual and data-based investigation of genetic influences and brain asymmetry: a twin study of multiple structural phenotypes. J Cogn Neurosci, 2014, 26(5): 1100-1117.
|
26. |
Liu S, Li A, Zhu M, et al. Genetic influences on cortical myelination in the human brain. Genes Brain Behav, 2019, 18(4): e12537.
|
27. |
Wen W, Thalamuthu A, Mather K A, et al. Distinct genetic influences on cortical and subcortical brain structures. Scientific Reports, 2016, 6: 32760.
|
28. |
Zhao B, Ibrahim J G, Li Y, et al. Heritability of regional brain volumes in large-scale neuroimaging and genetic studies. Cereb Cortex, 2019, 29(7): 2904-2914.
|
29. |
Geschwind D H, Miller B L, Decarli C, et al. Heritability of lobar brain volumes in twins supports genetic models of cerebral laterality and handedness. Proc Natl Acad Sci U S A, 2002, 99(5): 3176-3181.
|
30. |
Yoon U, Fahim C, Perusse D, et al. Lateralized genetic and environmental influences on human brain morphology of 8-year-old twins. Neuroimage, 2010, 53(3): 1117-1125.
|
31. |
Yoon U, Perusse D, Evans A C. Mapping genetic and environmental influences on cortical surface area of pediatric twins. Neuroscience, 2012, 220: 169-178.
|
32. |
van der Lee S J, Roshchupkin G V, Adams H H, et al. Gray matter heritability in family-based and population-based studies using voxel-based morphometry. Hum Brain Mapp, 2017, 38(5): 2408-2423.
|
33. |
Yoon U, Perusse D, Lee J M, et al. Genetic and environmental influences on structural variability of the brain in pediatric twin: deformation based morphometry. Neurosci Lett, 2011, 493(1/2): 8-13.
|
34. |
Lebel C, Deoni S. The development of brain white matter microstructure. Neuroimage, 2018, 182(1): 207-218.
|
35. |
Guadalupe T, Mathias S R, Vanerp T, et al. Human subcortical brain asymmetries in 15, 847 people worldwide reveal effects of age and sex. Brain Imaging Behav, 2017, 11(5): 1497-1514.
|
36. |
Parma V, Brasselet R, Zoia S, et al. The origin of human handedness and its role in pre-birth motor control. Sci Rep, 2017, 7(1): 16804.
|
37. |
Young G. Causality and Development. Berlin, Germany: Springer, Cham, 2019.
|
38. |
Barzilay E, Bar-Yosef O, Dorembus S, et al. Fetal brain anomalies associated with ventriculomegaly or asymmetry: an MRI-based study. AJNR Am J Neuroradiol, 2017, 38(2): 371-375.
|
39. |
Andescavage N N, Du Plessis A, Mccarter R, et al. Complex trajectories of brain development in the healthy human fetus. Cereb Cortex, 2017, 27(11): 5274-5283.
|
40. |
Jahanshad N, Lee A D, Barysheva M, et al. Genetic influences on brain asymmetry: a DTI study of 374 twins and siblings. Neuroimage, 2010, 52(2): 455-469.
|
41. |
Budisavljevic S, Dell'acqua F, Rijsdijk F V, et al. Age-related differences and heritability of the perisylvian language networks. J Neurosci, 2015, 35(37): 12625-12634.
|
42. |
Zhong S, He Y, Shu H, et al. Developmental changes in topological asymmetry between hemispheric brain white matter networks from adolescence to young adulthood. Cereb Cortex, 2017, 27(4): 2560-2570.
|
43. |
Brainstorm C, Anttila V, Bulik-Sullivan B, et al. Analysis of shared heritability in common disorders of the brain. Science, 2018, 360(6395): eaap8757.
|
44. |
Lee S J, Zhang J, Neale M C, et al. Quantitative tract-based white matter heritability in 1- and 2-year-old twins. Hum Brain Mapp, 2019, 40(4): 1164-1173.
|
45. |
Kennedy J T, Astafiev S V, Golosheykin S, et al. Shared genetic influences on adolescent body mass index and brain structure: a voxel-based morphometry study in twins. Neuroimage, 2019, 199: 261-272.
|
46. |
Teeuw J, Brouwer R M, Koenis M, et al. Genetic influences on the development of cerebral cortical thickness during childhood and adolescence in a Dutch longitudinal twin sample: the brainscale study. Cereb Cortex, 2019, 29(3): 978-993.
|