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Influence of systemic factors on experimental epileptic brain injury (1983)

Söderfeldt, B. ; Blennow, G. ; Kalimo, H. ; [et al.]

Springer

Acta neuropathologica 60 (1983), S. 81-91

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ISSN: 1432-0533

Keywords: Brain injury ; Status epilepticus ; Hyperoxia ; Hypoxia ; Hypotension ; Vitamin E

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A previous study from the laboratory showed that status epilepticus induced by bicuculline administration to ventilated rats produced astrocytic swelling and nerve cell changes (“type 1 and 2 injury”) particularly in layers 3 and 5 of the neocortex (Söderfeldt et al. 1981). The type 1 injured neurons were characterized by condensation of cyto-and karyoplasm and the less common type 2 cells were characterized by swelling of endoplasmic reticulum including the nuclear envelope. In the present study we explored whether changes in cerebral oxygen availability altered the extent or character of the cellular alterations. Animals with 2 h of status epilepticus were made either hyperoxic (administration of 100% O2), hypoxic (arterialpO2 50 mm Hg) or hypotensive (arterial blood pressure of either 70–75 or 50 mm Hg). Furthermore, we explored whether “oxidative” damage occurred by manipulating tissue levels of α-tocopherol, a known free radical scavenger. Non-epileptic control animals exposed to comparable degrees of hypoxia or hypotension showed no or minimal structural alterations. In the epileptic animals the results were as follows.Hyperoxia did not change the quality or extent of the structural alterations previously observed in normoxic epileptic animals. Neither administration nor deficiency ofvitamin E did modify this pattern of alterations. Inhypoxia the extent of cell damage was the same or somewhat larger than in normoxic, epileptic animals. In addition, neurons often showed cytoplasmic microvacuoles due to swelling of mitochondria. The hypoxic animals also showed swelling of astrocytic nuclei with clumped chromatin. Changes similar to those observed in hypoxic animals also appeared in moderatehypotension (mean arterial blood pressure 50 mm Hg), whereas mild hypotension (70–75 mm Hg) did not change the character of the tissue injury from that seen in hyperoxic or normoxic epileptic rats. The present results demonstrate that the neuronal cell damage that can be observed when the brain is fixed by perfusion after status epilepticus of 2 h duration is not exaggerated by hyperoxia or vitamin E deficiency nor is it ameliorated by a moderate restriction in cerebral oxygen supply or by vitamin E administration. If anything, hypoxia (or moderate hypotension) appears to increase the extent of damage and it clearly alters its ultrastructural characteristics. However, although the results fail to support the notion that epileptic cell damage is “oxidative”, definite conclusions must await information on the cell damage that remains upon arrest of the epileptic activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00685351

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Hypoglycemic brain injury (1980)

Kalimo, H. ; Agardh, C. -D. ; Olsson, Y. ; [et al.]

Springer

Acta neuropathologica 50 (1980), S. 43-52

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ISSN: 1432-0533

Keywords: Hypoglycemia ; Nerve cell injury ; Electron microscopy ; Rat cerebral cortex

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Severe hypoglycemia was induced in rats by insulin. The brain was fixed in situ by perfusion after the spontaneous EEG had disappeared for 30 or 60 min or after recovery had been induced for 30 or 180 min by glucose injection. Samples from the cerebral cortex from the area corresponding to the previous metabolic studies were processed for electron microscopy. The light-microscopic finding of two different types of nerve cell injury, reported in a preceding communication (Agardh et al. 1980), was also verified at the ultrastructural level. The type I injury was characterized by cellular shrinkage, condensation of the cell sap and nuclei, and perineuronal astrocytic swelling. No swelling of mitochondria occurred. The slightly swollen type II injured neurons showed contraction of mitochondria, disintegration of ribosomes, loss of RER, and appearance of membrane whorls, while their nuclear chromatin remained evenly distributed. No transition from one type to the other was observed. Neither type of nerve cell injury in hypoglycemia was like that commonly seen in anoxic-ischemic insults indicating a different pathogenesis in these states despite the common final pathway of energy failure. The loss of endoplasmic membranes and disintegration of ribosomes suggests that these structures might be sacrificed for energy production in the absence of normal substrates. During recovery, though, the number of type I injured neurons decreased while some of the remaining ones appeared even more severely affected, suggesting irreversible damage. Type II injured neurons were no longer seen indicating reversibility of these changes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00688533

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