Alves Isabela S, Coutinho Artur M N, Vieira Ana P F, Rocha Bruno P, Passos Ula L, Gonçalves Vinicius T, Silva Paulo D S, Zhan Malia X, Pinho Paula C, Delgado Daniel S, Docema Marcos F L, Lee Hae W, Policeni Bruno A, Leite Claudia C, Martin Maria G M, Amancio Camila T
From the Neuroradiology Section, Department of Radiology, Hospital Sírio-Libanês, Adma Jafet 91, Bela Vista, São Paulo SP 01308-050, Brazil (I.S.A., A.M.N.C., A.P.F.V., B.P.R., U.L.P., V.T.G., P.C.P., D.S.D., M.F.L.D., H.W.L., M.G.M.M., C.T.A.); Neuroradiology Section, Department of Radiology, University of São Paulo, Brazil (A.M.N.C., P.C.P., C.C.L., M.G.M.M.); Department of Neurology, Prevent Senior, São Paulo, Brazil (P.D.S.S.); and Neuroradiology Section, Department of Radiology, University of Iowa, Iowa City, Iowa (M.X.Z., B.A.P.).
Radiographics. 2022 May-Jun;42(3):822-840. doi: 10.1148/rg.210153. Epub 2022 Feb 25.
The hippocampus is one of the most sophisticated structures in the brain, owing to its complex anatomy, intriguing functions, relationship with other structures, and relevant associated symptoms. Despite being a structure analyzed for centuries, its anatomy and physiology in the human body are still being extensively studied, as well as associated pathologic conditions and potential biomarkers. It can be affected by a broad group of diseases that can be classified as congenital, degenerative, infectious or inflammatory, neoplastic, vascular, or toxic-metabolic disease. The authors present the anatomy and close structures, function, and development of the hippocampus, as well as an original algorithm for imaging diagnosis. The algorithm includes pathologic conditions that typically affect the hippocampus and groups them into nodular (space occupying) and nonnodular pathologic conditions, serving as a guide to narrow the differential diagnosis. MRI is the imaging modality of choice for evaluation of the hippocampus, and CT and nuclear medicine also improve the analysis. The MRI differential diagnosis depends on anatomic recognition and careful characterization of associated imaging findings such as volumetric changes, diffusion restriction, cystic appearance, hyperintensity at T1-weighted imaging, enhancement, or calcification, which play a central role in diagnosis along with clinical findings. Some pathologic conditions arising from surrounding structures such as the amygdala are also important to recognize. Pathologic conditions of the hippocampus can be a challenge to diagnose because they usually manifest as similar clinical syndromes, so the imaging findings play a potential role in guiding the final diagnosis. RSNA, 2022.
海马体是大脑中最复杂的结构之一,这归因于其复杂的解剖结构、引人入胜的功能、与其他结构的关系以及相关的伴随症状。尽管作为一个已被研究了几个世纪的结构,但其在人体中的解剖学和生理学仍在被广泛研究,以及相关的病理状况和潜在的生物标志物。它可受到一大类疾病的影响,这些疾病可分为先天性、退行性、感染性或炎症性、肿瘤性、血管性或毒性代谢性疾病。作者介绍了海马体的解剖结构和相邻结构、功能、发育,以及一种用于影像诊断的原创算法。该算法包括通常影响海马体的病理状况,并将它们分为结节性(占位性)和非结节性病理状况,作为缩小鉴别诊断范围的指南。MRI是评估海马体的首选成像方式,CT和核医学也有助于分析。MRI鉴别诊断取决于解剖学识别以及对相关影像表现的仔细特征描述,如体积变化、扩散受限、囊性表现、T1加权成像上的高信号、强化或钙化,这些与临床发现一起在诊断中起核心作用。一些源自周围结构(如杏仁核)的病理状况也很重要,需要识别。海马体的病理状况诊断可能具有挑战性,因为它们通常表现为相似临床综合征,所以影像发现对指导最终诊断具有潜在作用。RSNA,2022年
