立体定向和功能性神经外科杂志 ›› 2024, Vol. 37 ›› Issue (1): 54-62.DOI: 10.19854/j.cnki.1008-2425.2024.01.00011
田川, 张新定, 王小强, 兰正波, 史雪峰, 杨宝慧, 李正斌
收稿日期:
2023-07-24
出版日期:
2024-02-25
发布日期:
2024-04-03
通讯作者:
张新定 zhangxind@lzu.edu.cn
基金资助:
Received:
2023-07-24
Online:
2024-02-25
Published:
2024-04-03
摘要: 帕金森病(Parkinson'S disease,PD)是一种常见于中老年人的渐进性神经变性疾病。基于体素的形态学分析(voxel-based morphometry,VBM)可以在体素水平上定量检测出脑组织的密度和体积的改变,尤其是灰质(GM)的改变。由于PD患者的GM变化复杂且临床症状多样,许多学者对其从多个相关方向进行了VBM研究,特别是与临床症状相关GM改变的研究成为了现在研究的热点。但由于PD患者的复杂性和个体性差异,相关GM变化的VBM结果不尽相同,而且在与PD的核心致病机制相关的黑质-纹状体通路的研究还比较缺乏,不过多项研究结果表明VBM在研究PD相关的GM改变具有很大的潜力。
中图分类号:
田川, 张新定, 王小强, 兰正波, 史雪峰, 杨宝慧, 李正斌. 基于体素的形态学分析在帕金森病相关灰质改变中应用研究进展[J]. 立体定向和功能性神经外科杂志, 2024, 37(1): 54-62.
[1] Dorsey ER,Sherer T,Okun MS,et al.The emerging evidence of the parkinson pandemic[J].Journal of Parkinson’s Disease,2018,8(s1):S3~S8. [2] Feigin VL,Nichols E,Alam T,et al.Global,regional,and national burden of neurological disorders,1990–2016:a systematic analysis for the global burden of disease study 2016[J].The Lancet Neurology,2019,18(5):459~480. [3] Tolosa E,Garrido A,Scholz SW,et al.Challenges in the diagnosis of parkinson’s disease[J].The Lancet Neurology,2021,20(5):385~397. [4] Ashburner J,Friston KJ.Voxel-based morphometry—the methods[J].Neuroimage,2000,11(6):805~821. [5] Potgieser ARE,Van Der Hoorn A,Meppelink AM,et al.Anterior temporal atrophy and posterior progression in patients with parkinson’s disease[J].Neurodegenerative Diseases,2014,14(3):125~132. [6] Karagulle Kendi AT,Lehericy S,Luciana M,et al.Altered diffusion in the frontal lobe in Parkinson disease[J].American Journal of Neuroradiology,2008,29(3):501–505. [7] Kalia LV,Lang AE.Parkinson’s disease[J].Lancet,2015,386(9996):896~912. [8] Braak H,Tredici KD,RübU,et al.Staging of brain pathology related to sporadic parkinson’s disease[J].Neurobiology Aging,2003,24(2):197~211. [9] Lee E,Eslinger PJ,Du GW,et al.Olfactory-related cortical atrophy is associated with olfactory dysfunction in parkinson’s disease[J].Movement Disorders,2014,29(9):1205~1208. [10] Janzen J,VAN ‘T ENT D,Lemstra A W,et al.The pedunculopontine nucleus is related to visual hallucinations in parkinson’s disease:preliminary results of a voxel-based morphometry study[J].J Neurol,2012,259(1):147~154. [11] Sarkar S,Raymick J,Mann D,et al.Neurovascular changes in acute,sub-acute and chronic mouse models of Parkinson’s disease[J].Curr Neurovasc Res,2014,11(1):48~61. [12] Hikishima K,Ando K,Komaki Y,et al.Voxel-based morphometry of the marmoset brain:in vivo detection of volume loss in the substantia nigra of the mptp-treated parkinson’s disease model[J].Neuroscience,2015,300:585~592. [13] Zheng JH,Sun WH,Ma JJ,et al.Structural and functional abnormalities in Parkinson’s disease based on voxel-based morphometry and resting-state functional magnetic resonance imaging[J].Neurosci Lett,2022,788:136835. [14] Xu X,Han Q,Lin J,et al.Grey matter abnormalities in Parkinson’s disease:a voxel-wise meta-analysis[J].Eur J of Neur,2020,27(4):653~659. [15] Liu SY,Wu JJ,Zhao J,et al.Onset-related subtypes of Parkinson’s disease differ in the patterns of striatal dopaminergic dysfunction:a positron emission tomography study[J].Parkinsonism Relat Disord,2015,21(12):1448~1453. [16] Gu L,Dai S,Zhou C,et al.The effect of the Park16 rs11240572 variant on brain structure in parkinson’s disease[J].Brain Struct Funct,2021,226(8):2665~2673. [17] Ohira K,Yokota H,Hirano S,et al.DRD2 Taq1A polymorphism-related brain volume changes in Parkinson’s disease:voxel-based morphometry[J].Parkinson’s Dis,2022,2022:1~7. [18] Qin B,Yang M X,Gao W,et al.Voxel-wise meta-analysis of structural changes in gray matter of Parkinson’s disease patients with mild cognitive impairment[J].Braz J Med Biol Res,2020,53(6):e9275. [19] Zheng D,Chen C,Song WC,et al.Regional gray matter reductions associated with mild cognitive impairment in Parkinson’s disease:a meta-analysis of voxel-based morphometry studies[J].Behav Brain Res,2019,371:111973. [20] Li M,Bian X,Zhang J,et al.Aberrant voxel-based degree centrality in parkinson’s disease patients with mild cognitive impairment[J].Neurosci Lett,2021,741:135507. [21] Li LH,Ji BJ,Zhao T,et al.The structural changes of gray matter in Parkinson disease patients with mild cognitive impairments[J].PLoS One,2022,17(7):e0269787. [22] Aracil-Bolaños I,Sampedro F,MaríN-Lahoz J,et al.A divergent breakdown of neurocognitive networks in parkinson’s disease mild cognitive impairment[J].Hum Brain Mapp,2019,40(11):3233~3242. [23] Donzuso G,Monastero R,Cicero C E,et al.Neuroanatomical changes in early Parkinson’s disease with mild cognitive impairment:a VBM study; the Parkinson’s disease cognitive impairment study (pacos)[J].Neurol Sci,2021,42(9):3723~3731. [24] Chen YS,Chen HL,Lu CH,et al.Reduced lateral occipital gray matter volume is associated with physical frailty and cognitive impairment in parkinson’s disease[J].Eur Radiol,2019,29(5):2659~2668. [25] Kunst J,Marecek R,Klobusiakova P,et al.Patterns of grey matter atrophy at different stages of Parkinson’s and alzheimer’s diseases and relation to cognition[J].Brain Topogr,2019,32(1):142~160. [26] Terada T,Miyata J,Obi T,et al.Reduced gray matter volume is correlated with frontal cognitive and behavioral impairments in parkinson’s disease[J].J Neurol Sci,2018,390:231~238. [27] Wolters AF,Moonen AJH,Lopes R,et al.Grey matter abnormalities are associated only with severe cognitive decline in early stages of Parkinson’s disease[J].Cortex,2020,123:1~11. [28] Li MG,He JF,Liu XY,et al.Structural and functional thalamic changes in Parkinson’s disease with mild cognitive impairment[J].J Magn Reson Imaging,2020,52(4):1207~1215. [29] Jia XQ,Wang ZJ,Yang T,et al.Entorhinal cortex atrophy in early,drug-naive Parkinson’s disease with mild cognitive impairment[J].Aging Dis,2019,10(6):1221. [30] Jia XQ,Li Y,Li KC,et al.Precuneus dysfunction in parkinson’s disease with mild cognitive impairment[J].Front Aging Neurosci,2019,10:427. [31] Bejr-Kasem H,Pagonabarraga J,MartíNez-Horta S,et al.Disruption of the default mode network and its intrinsic functional connectivity underlies minor hallucinations in Parkinson’s disease[J].Mov Disord,2019,34(1):78~86. [32] Bejr-Kasem H,Sampedro F,MaríN-Lahoz J,et al.Minor hallucinations reflect early gray matter loss and predict subjective cognitive decline in Parkinson’s disease[J].Eur J Neurol,2021,28(2):438~447.DOI:10.1111/ene.14576. [33] Zhong M,Li CL,Lu HQ,et al.Aberrant gray matter volume and functional connectivity in parkinson’s disease with minor hallucination[J].Front Aging Neurosci,2022,14:923560. [34] Lawn T,Ffytche D.Cerebellar correlates of visual hallucinations in Parkinson’s disease and charles bonnet syndrome[J].Cortex,2021,135:311~325. [35] Pezzoli S,Cagnin A,Antonini A,et al.Frontal and subcortical contribution to visual hallucinations in dementia with lewy bodies and Parkinson’s disease[J].Postgrad Med,2019,131(7):509~522. [36] Goto M,Kamagata K,Hatano T,et al.Depressive symptoms in Parkinson’s disease are related to decreased left hippocampal volume:correlation with the 15-item shortened version of the geriatric depression scale[J].Acta Radiol,2018,59(3):341~345. [37] Li YX,Huang PY,Guo T,et al.Brain structural correlates of depressive symptoms in Parkinson’s disease patients at different disease stage[J].Psychiatry Res:Neuroimaging,2020,296:111029. [38] Prange S,Metereau E,Maillet A,et al.Early limbic microstructural alterations in apathy and depression in de novo parkinson’s disease[J].Mov Disord,2019,34(11):1644~1654. [39] Zhi Y,Wang M,Yuan YS,et al.The increased gray matter volumes of precentral gyri in Parkinson’s disease patients with diphasic dyskinesia[J].Aging,2019,11(21):9661~9671. [40] Brugger F,Walch J,Hägele-Link S,et al.Decreased grey matter in the postural control network is associated with lateral flexion of the trunk in Parkinson’s disease[J].NeuroImage:Clin,2020,28:102469. [41] Yang CX,Chang JB,Liang XH,et al.Gray matter alterations in Parkinson’s disease with rapid eye movement sleep behavior disorder:a meta-analysis of voxel-based morphometry studies[J].Front Aging Neurosci,2020,12:213. [42] Kamps S,Van Den Heuvel O A,Van Der Werf Y D,et al.Smaller subcortical volume in parkinson patients with rapid eye movement sleep behavior disorder[J].Brain Imaging Behav,2019,13(5):1352~1360. [43] Rahayel S,Gaubert M,Postuma RB,et al.Brain atrophy in Parkinson’s disease with polysomnography-confirmed REM sleep behavior disorder[J].Sleep,2019,42(6):zsz062. [44] Lee SY,Chen MH,Chiang PL,et al.Reduced gray matter volume and respiratory dysfunction in Parkinson’s disease:a voxel-based morphometry study[J].BMC Neurol,2018,18(1):73. [45] Kim JB,Kim H,Lee CN,et al.Regional gray matter volume changes in Parkinson’s disease with orthostatic hypotension[J].Brain Sciences,2021,11(3):294. [46] Wu YN,Chen MH,Chiang PL,et al.Associations between brain structural damage and core muscle loss in patients with Parkinson’s disease[J].J Clin Med,2020,9(1):239. [47] Otomune H,Mihara M,Hattori N,et al.Involvement of cortical dysfunction in frequent falls in patients with Parkinson’s disease[J].Parkinsonism Relat Disord,2019,64:169~174. [48] Dalrymple WA,Huss DS,Blair J,et al.Cholinergic nucleus 4 atrophy and gait impairment in Parkinson’s disease[J].J Neurol,2021,268(1):95~101. [49] Zang QL,Zheng JH,Ma JJ,et al.Neuroanatomy and functional connectivity in patients with Parkinson’s disease with or without restless legs syndrome[J].Neurol Ther,2022,11(4):1625~1636. [50] Beach TG,Adler CH.Importance of low diagnostic accuracy for early Parkinson’s disease:low diagnostic accuracy for early Parkinson’s disease [J].Mov Disord,2018,33(10):1551~1554. [51] Tsuda M,Asano S,Kato Y,et al.Differential diagnosis of multiple system atrophy with predominant parkinsonism and parkinson’s disease using neural networks[J].J Neurol Sci,2019,401:19~26. [52] Dabrowska M,Schinwelski M,Sitek E J,et al.The role of neuroimaging in the diagnosis of the atypical parkinsonian syndromes in clinical practice[J].Neurol Neurochirurgia Pol,2015,49(6):421~431. [53] Yu F,Barron DS,Tantiwongkosi B,et al.Patterns of gray matter atrophy in atypical parkinsonism syndromes:a VBM meta analysis[J/OL].Brain Behav,2015,5(6)[2022–12–23]. [54] Shao N,Yang J,Li J,et al.Voxelwise meta-analysis of gray matter anomalies in progressive supranuclear palsy and Parkinson’s disease using anatomic likelihood estimation[J/OL].Front Hum Neurosci,2014,8[2022-12-23]. [55] Shao N,Yang J,Shang H.Voxelwise meta-analysis of gray matter anomalies in parkinson variant of multiple system atrophy and Parkinson’s disease using anatomic likelihood estimation[J].Neurosci Lett,2015,587:79~86. [56] Donzuso G,Sciacca G,Rascunà C,et al.Structural MRI substrate of long-duration response to levodopa in Parkinson’s disease:an exploratory study[J].J Neurol,2021,268(11):4258~4264. [57] Cerasa A,Messina D,Pugliese P,et al.Increased prefrontal volume in PD with levodopa-induced dyskinesias:a voxel-based morphometry study:MRI in PD with levodopa-induced dyskinesias[J].Mov Disord,2011,26(5):807~812. [58] Karachi C,Cormier-Dequaire F,Grabli D,et al.Clinical and anatomical predictors for freezing of gait and falls after subthalamic deep brain stimulation in Parkinson’s disease patients[J].Parkinsonism Relat Disord,2019,62:91~97. [59] Righini A,Antonini A,Ferrarini M,et al.Thin section MR study of the basal ganglia in the differential diagnosis between striatonigral degeneration and Parkinson disease:[J].J Comput Assist Tomogr,2002,26(2):266~271. [60] Schocke MFH,Seppi K,Esterammer R,et al.Diffusion-weighted MRI differentiates the Parkinson variant of multiple system atrophy from PD[J].Neurology,2002,58(4):575~580. [61] AL-Bachari S,Parkes LM,Vidyasagar R,et al.Arterial spin labelling reveals prolonged arterial arrival time in idiopathic Parkinson’s disease[J].NeuroImage:Clin,2014,6:1~8. [62] Wu T,Ma YL,Zheng Z,et al.Parkinson’s disease—related spatial covariance pattern identified with resting-state functional MRI[J].J Cereb Blood Flow Metab,2015,35(11):1764~1770. [63] Politis M.Neuroimaging in Parkinson disease:from research setting to clinical practice[J].Nat Rev Neurol,2014,10(12):708~722. [64] Asenbaum S,Pirker W,Angelberger P,et al.[ 123 i] β-CIT and SPECT in essential tremor and Parkinson’s disease[J].J Neural Transm,1998,105(10–12):1213~1228. [65] Jennings DL,Seibyl JP,Oakes D,et al.(123I) beta-CIT and single-photon emission computed tomographic imaging vs clinical evaluation in Parkinsonian syndrome:unmasking an early diagnosis[J].Arch Neurol,2004,61(8):1224-1229. [66] Benamer TS,Patterson J,Grosset DG,et al.Accurate differentiation of Parkinsonism and essential tremor using visual assessment of [123i] -FP-CIT SPECT imaging:the [123i] -FP-CIT study group[J].Mov Disord,2000,15(3):503~510. [67] Benamer HTS,Oertel WH,Patterson J,et al.Prospective study of presynaptic dopaminergic imaging in patients with mild Parkinsonism and tremor disorders:part 1.baseline and 3-month observations:presynaptic dopaminergic imaging[J].Mov Disord,2003,18(9):977~984. [68] Tang CC,Poston KL,Eckert T,et al.Differential diagnosis of Parkinsonism:a metabolic imaging study using pattern analysis[J].Lancet Neurol,2010,9(2):149~158. [69] Camicioli R,Gee M,Bouchard TP,et al.Voxel-based morphometry reveals extra-nigral atrophy patterns associated with dopamine refractory cognitive and motor impairment in Parkinsonism[J].Parkinsonism Relat Disord,2009,15(3):187~195. [70] BrüCKA.Kurki T,Kaasinen V,et al Hippocampal and prefrontal atrophy in patients with early non-demented Parkinson’s disease is related to cognitive impairment[J].J Neurol,Neurosurg Psychiatry,2004,75(10):1467~1469. [71] Menke RAL,Szewczyk-Krolikowski K,Jbabdi S,et al.Comprehensive morphometry of subcortical grey matter structures in early-stage Parkinson’s disease:grey matter morphometry in early PD[J].Hum Brain Mapp,2014,35(4):1681~1690. [72] Burton EJ .Mckeith I G,Burn DJ,et al.Cerebral atrophy in parkinson’s disease with and without dementia:a comparison with alzheimer’s disease,dementia with lewy bodies and controls[J].Brain,2004,127(4):791~800. [73] Nagano-Saito A,Washimi Y,Arahata Y,et al.Cerebral atrophy and its relation to cognitive impairment in Parkinson disease[J].Neurology,2005,64(2):224~229. |
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