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Functional magnetic resonance imaging explore the cerebral function and structure changes of the depression first-degree relatives
SONG Yu-lu  WANG Bin 

DOI:10.12015/issn.1674-8034.2016.09.014.


[Abstract] The functional magnetic resonance imaging (fMRI) has been widely used in the process of the diagnosis and treatment of the depression, and the probability of risk in depression first-degree relatives is higher than the average individual.In this paper, we combined several related literatures about depression first-degree relatives in recent years, and made a review from the aspects of brain function and brain structure.
[Keywords] Depression;First-degree relatives;Magnetic resonance imaging;Brain

SONG Yu-lu Department of Radiology, School of Clinical Medicine and Yantai Affiliated Hospital, Binzhou Medical University, Yantai 264003, China

WANG Bin* Department of Radiology, School of Clinical Medicine and Yantai Affiliated Hospital, Binzhou Medical University, Yantai 264003, China

*Correspondence to: Wang Bin. E-mail: bingwang001@aliyun.com

Conflicts of interest   None.

ACKNOWLEDGMENTS  This paper is funded by the National Natural Science Foundation of China No. 81171303
Received  2016-04-01
Accepted  2016-05-30
DOI: 10.12015/issn.1674-8034.2016.09.014
DOI:10.12015/issn.1674-8034.2016.09.014.

[1]
Kessler RC, Berglund P, Demler O, et al. The epidemiology of major depressive disorder: results from the National Comorbidity Survey Replication (NCS-R). JAMA, 2003, 289(23): 3095-3105.
[2]
McIntyre RS, Woldeyohannes HO, Soczynska JK, et al. Anhedonia and cognitive function in adults with MDD: results from the international mood disorders collaborative project. CNSSpectr, 2015:1-5. DOI:
[3]
Waugh CE, Muhtadie L, Thompson RJ, et al. Affective and physiological responses to stress in girls at elevated risk for depression. Dev Psychopathol, 2012, 24(2): 661-675.
[4]
Ogawa S, Lee TM, Kay AR, et a1.Brain magnetic resonance imaging with contrast dependent on blood oxygenation. Proc Natl Acad Sci U S A, 1990, 87(24): 9868-9872.
[5]
Hammeke TA, Bellgowan PS, Binder JR. fMRI: methodology-cognitive function mapping. Adv Neurol, 2000, 83: 221-233.
[6]
谢生辉,牛广明,高阳,等.首发抑郁症脑局部一致性静息态MRI对比研究.磁共振成像, 2015, 6(1): 10-14.
[7]
Greicius M, Krasnow B, Reiss AL, et a1. Functional connectivity in the resting brain: a network analysis of the default mode hypothesis. Proc Natl Acad Sci S U A, 2003, 100(1): 253-258.
[8]
Zang Y, Jiang T, Lu Y, et al. Regional homogeneity approach to fMRI dataanalysis. Neuroimage, 2004, 22(1): 394-400.
[9]
Chao-Gan Y, Yu-Feng Z. DPARSF: a MATLAB toolbox for "pipeline" dataanalysis of resting-state fMRI. Front Syst Neurosci, 2010, 4(13): 13.
[10]
Liu D, Yan C, Ren J, et al. Using coherence to measure regional homogeneity of resting-state fMRI signal. Front Syst Neurosci, 2010, 4: 24.
[11]
Zang YF, He Y, Zhu CZ, et a1. Altered baseline brain activity in children with ADHD revealed by restingstate functional MRI. Brain Dev, 2007, 29(2): 83-91.
[12]
Zou QH, Zhu CZ, Yang Y, et al. An improved approach to detection of amplitude of low-frequency fluctuation (ALFF) for resting-state fMRI: fractional ALFF. J Neurosci Methods, 2008, 172(1): 137-141.
[13]
刘志芬.首发抑郁症及其一级亲属静息态脑功能磁共振研究.太原:山西医科大学, 2008.
[14]
房俊芳,李旭日,王滨,等. VBM联合ReHo在评价抑郁症脑功能及结构异常中的应用.广东医学, 2015(14): 2167-2171.
[15]
Lai CH, Wu YT. The alterations in regional homogeneity of parieto-cingulate and temporo-cerebellum regions of first-episode medication-naive depression patients. Brain Imaging Behav, 2016, 10(1): 187-194.
[16]
徐成,颜宝云.首发抑郁症及其一级亲属脑基础活动的fMRI研究.实用医学影像杂志, 2010, 11(2): 69-72.
[17]
Fang J, Mao N, Jiang X, et al. Functional and anatomical brain abnormalities and effects of antidepressant in major depressive disorder: combined application of voxel-based morphometry and amplitude of frequency fluctuation in restingstate. J Comput Assist Tomo, 2015, 39(5): 766-773.
[18]
Gong Y, Hao L, Zhang X, et al. Case-control restingstate fMRI study of brain functioning among adolescents with first-episode major depressive disorder. Shanghai Arch Psychiatry, 2014, 26(4): 207-215.
[19]
Zhu X, Li R, Wang P, et al. Aberrant functional connectivity of the hippocampus in older adults with subthreshold depression. Psych J, 2014, 3(4): 245-253.
[20]
Buchanan A, Xue W, Gollan JK. Resting-state functional connectivity in women with major depressive disorder. J Psychiat Res, 2014, 59:38-44.
[21]
Liu Z, Xu C, Xu Y, et al. Decreased regional homogeneity in insula and cerebellum: a restingstate fMRI study in patients with major depression and subjects at high risk for major depression. Psychiat Res Neuroim, 2010, 182(3): 211-215.
[22]
Li HJ, Cao XH, Zhu XT, et al. Surface-based regional homogeneity in first-episode, drug-naive major depression: a restingstate fMRI study. Biomed Res Int, 2014, 2014(3): 374-828.
[23]
Sharp C, Kim S, Herman L, et al. Major depression in mothers predicts reduced ventral striatum activation in adolescent female offspring, with and without depression. J Abnorm Psychol, 2014, 123(2): 298-309.
[24]
Whalley HC, Sussmann JE, Romaniuk L, et al. Prediction of depression in individuals at high familial risk of mood disorders using functional magnetic resonance imaging. Plos One, 2013, 8(3): 134-134.
[25]
Mannie ZN, Filippini N, Williams C, et al. Structural and functional imaging of the hippocampus in young people at familial risk of depression. Psychol Med, 2014, 44(14): 2939-2948.
[26]
Liu CH, Ma X, Wu X, et al. Resting-state brain activity in major depressive disorder patients and their siblings. J Affect Disorders, 2013, 149(1-3): 299-306.
[27]
王佳,张磊,袁靖姣,等.抑郁症的脑神经结构及功能改变.中国健康心理学杂志, 2015, (12): 1896-1899.
[28]
Elderkin-Thompson V, Ballmaier M, Hellemann G, et al. Daily functioning and prefrontal brain morphology in healthy and depressed community-dwelling elderly. Am J GeriatPsychiat, 2008, 16(8):633-642.
[29]
MacmasterFP, Normand C, Lisa ML. Corpus callosal morphology in early onset adolescent depression. J Affect Disorders, 2013, 145(4):256-259.
[30]
Foland-Ross LC, Hardin MG, Gotlib IH. Neurobiological markers of familial risk for depression. Curr Top Behav Neurosci, 2013, 14:181-206.
[31]
Madsen K, Torstensen E, Holst KK, et al. Familial risk for major depression is associated with lower striatal 5-HT4 receptor binding. Int J Neuropsychoph, 2014, 18(1): DOI: .
[32]
Nina RS, Lydia P, Sebastian M, et al. Larger amygdala volume in first-degree relatives of patients with major depression. Neuroimage Clin,2014, 5(9): 62-68.
[33]
Hogenelst K, Schoevers RA, Rot MA. The effects of tryptophan on everyday interpersonal encounters and social cognitions in individuals with a family history of depression. Int J Neuropsychoph, 2015, 18(8): DOI: .
[34]
Ruth S, Harold GT, Kit E, et al. Maternal depression and co-occurring antisocial behaviour: testing maternal hostility and warmth as mediators of risk for offspring psychopathology. J Child Psychol Psyc, 2014, 55(2): 112-120.
[35]
D'Souza S, Thompson JM, Slykerman R, et al. Environmental and genetic determinants of childhood depression: The roles of DAT1 and the antenatal environment. JAffect Disord, 2016, 197:151-158.
[36]
李健,薛绍伟,王雪梅,等.基于局部一致性的脑静息功能模式偏侧化研究.磁共振成像, 2011, 02(2): 108-111.

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