胎儿丙酮酸脱氢酶缺乏症的表型和神经病理特征

N. Pirot, M. Crahès, H. Adle-Biassette, A. Soares, M. Bucourt, A. Boutron, L. Carbillon, C. Mignot, L. Trestard, S. Bekri, A. Laquérriere
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引用次数: 23

摘要

为了将丙酮酸脱氢酶缺乏症(PDH)与其他产前神经代谢疾病区分开来,从而提高产前诊断,我们描述了3个家族胎儿的影像学表现、临床表型和脑部病变,并对这种疾病进行了分子表征。对来自3个无血缘关系家庭的4例尸检患者进行神经病理学分析,随后进行生化和分子鉴定,证实PDH复合物缺乏。2个家族存在PDHA1基因突变;在第三个家庭中,PDHB基因发生了突变。所有胎儿都表现出不同程度的颅面畸形特征,没有内脏病变,以及相关的脑损伤和发育性幕上和幕下病变。神经发育异常包括小头畸形、迁移异常(厚脑回、多小脑回、脑室周围结节性异位)、小脑和脑干发育不全,伴齿状核和锥体束发育不全。相关的碎屑病变包括不对称白质软化、反应性胶质瘤、大的芽孢溶解假性囊肿和基底节区钙化。诊断PDH缺乏症应怀疑与存在的碎屑和神经发育病变和颅面畸形相对特征性。死后检查对于排除其他密切相关的实体是必不可少的,从而允许生化和分子确认。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phenotypic and Neuropathological Characterization of Fetal Pyruvate Dehydrogenase Deficiency
To distinguish pyruvate dehydrogenase deficiency (PDH) from other antenatal neurometabolic disorders thereby improving prenatal diagnosis, we describe imaging findings, clinical phenotype, and brain lesions in fetuses from 3 families with molecular characterization of this condition. Neuropathological analysis was performed in 4 autopsy cases from 3 unrelated families with subsequent biochemical and molecular confirmation of PDH complex deficiency. In 2 families there were mutations in the PDHA1 gene; in the third family there was a mutation in the PDHB gene. All fetuses displayed characteristic craniofacial dysmorphism of varying severity, absence of visceral lesions, and associated encephaloclastic and developmental supra- and infratentorial lesions. Neurodevelopmental abnormalities included microcephaly, migration abnormalities (pachygyria, polymicrogyria, periventricular nodular heterotopias), and cerebellar and brainstem hypoplasia with hypoplastic dentate nuclei and pyramidal tracts. Associated clastic lesions included asymmetric leukomalacia, reactive gliosis, large pseudocysts of germinolysis, and basal ganglia calcifications. The diagnosis of PDH deficiency should be suspected antenatally with the presence of clastic and neurodevelopmental lesions and a relatively characteristic craniofacial dysmorphism. Postmortem examination is essential for excluding other closely related entities, thereby allowing for biochemical and molecular confirmation.
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