Anatomo-functional changes in neural substrates of cognitive memory in developmental amnesia: Insights from automated and manual Magnetic Resonance Imaging examinations

IF 2.4 3区 医学 Q3 NEUROSCIENCES
Hippocampus Pub Date : 2024-09-13 DOI:10.1002/hipo.23638
Loïc J. Chareyron, W. K. Kling Chong, Tina Banks, Neil Burgess, Richard C. Saunders, Faraneh Vargha-Khadem
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Abstract

Despite bilateral hippocampal damage dating to the perinatal or early childhood period and severely impaired episodic memory, patients with developmental amnesia continue to exhibit well-developed semantic memory across the developmental trajectory. Detailed information on the extent and focality of brain damage in these patients is needed to hypothesize about the neural substrate that supports their remarkable capacity for encoding and retrieval of semantic memory. In particular, we need to assess whether the residual hippocampal tissue is involved in this preservation, or whether the surrounding cortical areas reorganize to rescue aspects of these critical cognitive memory processes after early injury. We used voxel-based morphometry (VBM) analysis, automatic (FreeSurfer) and manual segmentation to characterize structural changes in the brain of an exceptionally large cohort of 23 patients with developmental amnesia in comparison with 32 control subjects. Both the VBM and the FreeSurfer analyses revealed severe structural alterations in the hippocampus and thalamus of patients with developmental amnesia. Milder damage was found in the amygdala, caudate, and parahippocampal gyrus. Manual segmentation demonstrated differences in the degree of atrophy of the hippocampal subregions in patients. The level of atrophy in CA-DG subregions and subicular complex was more than 40%, while the atrophy of the uncus was moderate (−24%). Anatomo-functional correlations were observed between the volumes of residual hippocampal subregions in patients and selective aspects of their cognitive performance, viz, intelligence, working memory, and verbal and visuospatial recall. Our findings suggest that in patients with developmental amnesia, cognitive processing is compromised as a function of the extent of atrophy in hippocampal subregions. More severe hippocampal damage may be more likely to promote structural and/or functional reorganization in areas connected to the hippocampus. In this hypothesis, different levels of hippocampal function may be rescued following this variable reorganization. Our findings document not only the extent, but also the limits of circuit reorganization occurring in the young brain after early bilateral hippocampal damage.

Abstract Image

发育性遗忘症认知记忆神经基质的解剖功能变化:自动和手动磁共振成像检查的启示
尽管双侧海马受损可追溯到围产期或婴幼儿时期,且情节记忆严重受损,但发育性遗忘症患者在整个发育轨迹中仍然表现出发达的语义记忆。我们需要有关这些患者脑损伤程度和病灶的详细信息,以推测支持他们非凡的语义记忆编码和检索能力的神经基质。特别是,我们需要评估残留的海马组织是否参与了这种记忆的保存,或者周围的皮质区域是否在早期损伤后重组以挽救这些关键认知记忆过程的某些方面。我们使用基于体素的形态计量(VBM)分析、自动(FreeSurfer)和手动分割来描述23名发育性遗忘症患者大脑结构变化的特征,并与32名对照受试者进行了对比。VBM 和 FreeSurfer 分析均显示,发育性遗忘症患者的海马和丘脑发生了严重的结构改变。杏仁核、尾状核和海马旁回的损伤较轻。手动分割显示了患者海马亚区萎缩程度的差异。CA-DG 亚区和丘脑下复合体的萎缩程度超过 40%,而椎间盘的萎缩程度为中度(-24%)。在患者残余海马亚区的体积与他们认知能力的选择性方面(即智力、工作记忆、言语和视觉空间回忆)之间,观察到了解剖功能相关性。我们的研究结果表明,发育性遗忘症患者的认知处理能力会随着海马亚区的萎缩程度而受到影响。更严重的海马损伤可能会促进与海马相连区域的结构和/或功能重组。根据这一假设,不同程度的海马功能可能会在这种可变的重组后得到恢复。我们的研究结果不仅记录了早期双侧海马损伤后幼年大脑回路重组的程度,还记录了其局限性。
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来源期刊
Hippocampus
Hippocampus 医学-神经科学
CiteScore
5.80
自引率
5.70%
发文量
79
审稿时长
3-8 weeks
期刊介绍: Hippocampus provides a forum for the exchange of current information between investigators interested in the neurobiology of the hippocampal formation and related structures. While the relationships of submitted papers to the hippocampal formation will be evaluated liberally, the substance of appropriate papers should deal with the hippocampal formation per se or with the interaction between the hippocampal formation and other brain regions. The scope of Hippocampus is wide: single and multidisciplinary experimental studies from all fields of basic science, theoretical papers, papers dealing with hippocampal preparations as models for understanding the central nervous system, and clinical studies will be considered for publication. The Editor especially encourages the submission of papers that contribute to a functional understanding of the hippocampal formation.
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