Berg D, Becker G, Zeiler B, Tucha O, Hofmann E, Preier M, Benz P, Jost W, Reiners K, Lange K W
Department of Neurology, Bayerische Julius-Maximilians-Universität Würzburg, Germany.
Neurology. 1999 Sep 22;53(5):1026-31. doi: 10.1212/wnl.53.5.1026.
To assess the incidence of a hyperechogenic substantia nigra (SN) by transcranial sonography (TCS) in healthy people and to evaluate whether an enlarged hyperechogenic SN area is associated with functional impairment of the nigrostriatal system.
Until now, preclinical impairment of the nigrostriatal system could be identified only by functional neuroimaging techniques such as PET in selected groups of patients. TCS is a new, noninvasive ultrasound technique that has demonstrated an increased echogenicity of the SN in patients with PD, whereas in most healthy individuals, the SN is either barely detectable or undetectable by TCS.
Of 330 healthy volunteers, 8.6% exhibited an increased echogenicity of the SN. From these, 10 clinically healthy individuals with distinct unilateral or bilateral hyperechogenic signals in the SN region (SN area above 0.25 cm2) underwent comprehensive motor testing, neuropsychological assessment, MRI, and [18F]-dopa PET examination. With regard to motor functions, these individuals did not differ from 10 age- and sex-matched controls with a low echogenic SN and an area of echogenic signals below 0.2 cm2. Enlargement of hyperechogenic areas in the 10 healthy individuals was associated with a marked decrease in the accumulation of [15F]-dopa in the caudate nucleus and putamen.
Substantia nigra hyperechogenicity appears to indicate a functional impairment of the nigrostriatal system. Transcranial sonography may be a suitable method of identifying persons at risk of nigrostriatal alterations, making possible the introduction of early neuroprotective therapy.
通过经颅超声检查(TCS)评估健康人群中高回声黑质(SN)的发生率,并评估高回声SN区域增大是否与黑质纹状体系统的功能损害相关。
迄今为止,黑质纹状体系统的临床前损害仅能通过功能神经成像技术(如PET)在特定患者群体中识别。TCS是一种新的无创超声技术,已证明在帕金森病患者中SN的回声增强,而在大多数健康个体中,TCS几乎检测不到或无法检测到SN。
在330名健康志愿者中,8.6%表现出SN回声增强。其中,10名临床健康个体在SN区域有明显的单侧或双侧高回声信号(SN面积大于0.25 cm²),接受了全面的运动测试、神经心理学评估、MRI和[18F]-多巴PET检查。在运动功能方面,这些个体与10名年龄和性别匹配、SN回声低且回声信号面积小于0.2 cm²的对照组没有差异。10名健康个体中高回声区域的扩大与尾状核和壳核中[15F]-多巴的积聚明显减少有关。
黑质高回声似乎表明黑质纹状体系统存在功能损害。经颅超声检查可能是识别有黑质纹状体改变风险人群的合适方法,从而使早期神经保护治疗成为可能。
