Metadata language
Gajkowska, Barbara ; Gadamski, Roman (1933–2015) ; Mossakowski, Mirosław Jan (1929–2001)
Publisher:Zakład im. Ossolińskich - Wydawnictwo Polskiej Akademii Nauk
Place of publishing: Date issued/created: Type of object: Subject and Keywords:Brain ischemia ; hippocampus ; CA1 sector of Ammon's horn ; synapses
Abstract:Electron microscope analysis of the CA, Ammon’s horn sector was performed in Mongolian gerbils three days after an incident of short-term ischemia of the forebrain. CAt pyramidal neurons showed advanced disintegration. Some GABA-er- gic interneurons revealed ultrastructural alteration of variable degree. The latter finding contradicts the generally helt view on the relative resistance of CAt sector interneurons to the ischemic injury. Synapses localized in all cortical layers of the CAj sector exhibited ultrastructural abnormalities involving both pre-and postsynap- tic parts. They consisted in marked swelling and accumulation of unbound electron dense material, considered as calcium deposits. Presynaptic parts revealed additionally reduced number of synaptic vesicles and their abnormal distribution. Contrary to the early postischemic period, the most severe synaptic alterations appeared in stratum pyramidale, radiatum and oriens, involving both small dendritic branchings and their spines as well as large shafts of both basal and apical pyramidal dendrites. Synaptic alterations especially features of the postsynaptic damage correspond to those indicating excitotoxic neuronal lesions. Presynaptic alterations may indicate both cessation of neurotransmission function as well as direct ischemic damage. The presence of calcium deposition seems to favour the former possibility.
Relation: Volume: Issue: Start page: End page: Resource type: Detailed Resource Type: Format: Language: Rights:Creative Commons Attribution BY 4.0 license
Terms of use:Copyright-protected material. [CC BY 4.0] May be used within the scope specified in Creative Commons Attribution BY 4.0 license, full text available at: ; -
Digitizing institution:Mossakowski Medical Research Institute PAS
Original in:Library of the Mossakowski Medical Research Institute PAS
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