Page 67 - 南京医科大学学报自然科学版
P. 67
第41卷第12期 余传勇,邱文超,孙锦涛,等. 基于AFQ技术的CAE患儿脑白质纤维完整性改变的研究[J].
2021年12月 南京医科大学学报(自然科学版),2021,41(12):1767-1773 ·1773 ·
[3] YILDIZ⁃COKSAN S,ASLAN A,COKSAN S,et al. Cogni⁃ [10] DRENTHEN G S,FONSECA WALD E L A,BACKES W
tive profile and academic achievement of children with ab⁃ H,et al. Lower myelin⁃water content of the frontal lobe in
sence epilepsy[J]. Epilepsy Behav,2019,95:95-99 childhood absence epilepsy[J]. Epilepsia,2019,60(8):
[4] 姜雯雯,王小姗. 儿童失神癫痫研究进展[J]. 南京医科 1689-1696
大学学报(自然科学版),2019,39(5):781-785 [11] KIM E H,SHIM W H,LEE J S,et al. Altered structural
[5] YEATMAN J D,DOUGHERTY R F,MYALL N J,et al. network in newly onset childhood absence epilepsy[J]. J
Tract profiles of white matter properties:automating fiber⁃ Clin Neurol,2020,16(4):573-580
tract quantification[J]. PLoS One,2012,7(11):e49790 [12] WEILLER C,REISERT M,PETO I,et al. The ventral
[6] 李卫萍,赵 辉,张 冰,等. 基于纤维束自动定量法对 pathway of the human brain:a continuous association
遗忘型认知障碍患者脑白质纤维完整性改变的诊断价 tract system[J]. Neuroimage,2021,234:117977
值[J]. 中华医学杂志,2020,100(3):172-177 [13] MIAO A L,XIANG J,TANG L,et al. Using ictal high⁃fre⁃
[7] CHENG D Z,YAN X X,CHEN Q,et al. Common and dis⁃ quency oscillations(80⁃500 Hz)to localize seizure onset
tinctive patterns of cognitive dysfunction in children with zones in childhood absence epilepsy:a MEG study[J].
benign epilepsy syndromes[J]. Pediatr Neurol,2017,72: Neurosci Lett,2014,566:21-26
36-41 [14] SZAFLARSKI J P,DIFRANCESCO M,HIRSCHAUER T,
[8] LIANG J S,LEE S P,PULLI B,et al. Microstructural et al. Cortical and subcortical contributions to absence sei⁃
changes in absence seizure children:a diffusion tensor zure onset examined with EEG/fMRI[J]. Epilepsy Behav,
magnetic resonance imaging study[J]. Pediatr Neonatol, 2010,18(4):404-413
2016,57(4):318-325 [15] CARENY P W,MASTERTON R A,HARVEY A S,et al.
[9] QIU W C,GAO Y,WANG X S,et al. Structural abnormal⁃ The core network in absence epilepsy. Differences in cor⁃
ities in childhood absence epilepsy:voxel⁃based analysis tical and thalamic BOLD response[J]. Neurology,2010,
using diffusion tensor imaging[J]. Front Hum Neurosci, 75(10):904-911
2016,10:483 [收稿日期] 2021-05-23
(上接第1752页) [30] ROSKOSKI R JR. Src protein⁃tyrosine kinase structure,
the first two decades[J]. Cold Spring Harb Perspect Biol, mechanism,and small molecule inhibitors[J]. Pharmacol
2014;6(3):a008912 Res,2015,94:9-25
[25] YARDEN Y,PINES G. The ERBB network:at last,can⁃ [31] NOBES C D,HALL A. Rho,rac,and cdc42 GTPases reg⁃
cer therapy meets systems biology[J]. Nat Rev Cancer, ulate the assembly of multimolecular focal complexes as⁃
2012,12(8):553-563 sociated with actin stress fibers,lamellipodia,and filopo⁃
[26] SIGISMUND S,AVANZATO D,LANZETTI L. Emerging dia[J]. Cell,1995,81(1):53-62
functions of the EGFR in cancer[J]. Mol Oncol,2018,12 [32] MATOS P,SKAUG J,MARQUES B,et al. Small GTPase
(1):3-20 Rac1:structure,localization,and expression of the human
[27] MENG Q,XIA Y. c⁃Jun,at the crossroad of the signaling gene[J]. Biochem Biophys Res Commun,2000,277(3):
network[J]. Protein cell,2011,2(11):889-898 741-751
[28] SCHUMMER P,KUPHAL S,VARDIMON L,et al. Specif⁃ [33] MARINKOVIC G,HEEMSKERK N,VAN BUUL J D,et
ic c⁃Jun target genes in malignant melanoma[J]. Cancer al. The ins and outs of small GTPase rac1 in the vascula⁃
Biol Ther,2016,17(5):486-497 ture[J]. J Pharmacol Exp Ther,2015,354(2):91-102
[29] ZHANG Y J,ZHANG M F,ZHOU H F,et al. Activation [34] MALDONADO M D M,DHARMAWARDHANE S. Tar⁃
of c⁃Jun/JNK signaling predicts poor prognosis in naso⁃ geting rac and Cdc42 GTPases in cancer[J]. Cancer Res,
pharyngeal carcinoma[J]. Int J Clin Exp Pathol,2018,11 2018,78(12):3101-3111
(5):2699-2706 [收稿日期] 2021-01-23

