Lein Pamela J, Barnhart Christopher D, Pessah Isaac N
Department of Molecular Biosciences, School of Veterinary Medicine and Center for Children's Environmental Health, University of California, Davis, CA, USA.
Methods Mol Biol. 2011;758:115-34. doi: 10.1007/978-1-61779-170-3_8.
A major advantage of hippocampal slice preparations is that the cytoarchitecture and synaptic circuits of the hippocampus are largely retained. In neurotoxicology research, organotypic hippocampal slices have mostly been used as acute ex vivo preparations for investigating the effects of neurotoxic chemicals on synaptic function. More recently, hippocampal slice cultures, which can be maintained for several weeks to several months in vitro, have been employed to study how neurotoxic chemicals influence the structural and functional plasticity in hippocampal neurons. This chapter provides protocols for preparing hippocampal slices to be used acutely for electrophysiological measurements using glass microelectrodes or microelectrode arrays or to be cultured for morphometric assessments of individual neurons labeled using biolistics.
海马切片制备的一个主要优点是海马的细胞结构和突触回路在很大程度上得以保留。在神经毒理学研究中,器官型海马切片大多被用作急性离体标本,以研究神经毒性化学物质对突触功能的影响。最近,能够在体外维持数周乃至数月的海马切片培养物已被用于研究神经毒性化学物质如何影响海马神经元的结构和功能可塑性。本章提供了制备海马切片的方案,这些切片可用于使用玻璃微电极或微电极阵列进行急性电生理测量,或用于培养以对使用生物弹道技术标记的单个神经元进行形态学评估。