Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0022116 (
ischemia
)
91,303
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Rats were exposed to insulin-induced hypoglycemia resulting in periods of cerebral isoelectricity ranging from 10 to 60 min. After recovery with glucose, they were allowed to wake up and survive for 1 week. Control rats were recovered at the stage of EEG slowing. After sub-serial sectioning, the number and distribution of dying neurons was assessed in each brain region.
Acid fuchsin
was found to stain moribund neurons a brilliant red. Brains from control rats showed no dying neurons. From 10 to 60 min of cerebral isoelectricity, the number of dying neurons per brain correlated positively with the number of minutes of cerebral isoelectricity up to the maximum examined period of 60 min. Neuronal necrosis was found in the major brain regions vulnerable to several different insults. However, within each region the damage was not distributed as observed in
ischemia
. A superficial to deep gradient in the density of neuronal necrosis was seen in the cerebral cortex. More severe damage revealed a gradient in relation to the subjacent white matter as well. The caudatoputamen was involved more heavily near the white matter, and in more severely affected animals near the angle of the lateral ventricle. The hippocampus showed dense neuronal necrosis at the crest of the dentate gyrus and a gradient of increasing selective neuronal necrosis medially in CA1. The CA3 zone, while relatively resistant, showed neuronal necrosis in relation to the lateral ventricle in animals with hydrocephalus. Sharp demarcations between normal and damaged neuropil were found in the hippocampus. The periventricular amygdaloid nuclei showed damage closest to the lateral ventricles. The cerebellum was affected first near the foramina of Luschka, with damage occurring over the hemispheres in more severely affected animals. Purkinje cells were affected first, but basket cells were damaged as well. Rare necrotic neurons were seen in brain stem nuclei. The spinal cord showed necrosis of neurons in all areas of the gray matter. Infarction was not seen in this study. The possibility is discussed that a neurotoxic substance borne in the tissue fluid and cerebrospinal fluid (CSF) contributes to the pathogenesis of neuronal necrosis in hypoglycemic brain damage.
...
PMID:The distribution of hypoglycemic brain damage. 649 35
Stress proteins, including the 70 kD heat shock protein (HSP70), are induced in injured cells. The present study was designed to characterize the cells injured by global
ischemia
in rat brain. Adult rats were subjected to forebrain
ischemia
using bilateral carotid occlusion and systemic hypotension. HSP70 protein immunostaining of brain sections was performed using the C92 monoclonal antibody one day later. HSP70 immunoreactive cells were found in many brain regions including cortex. HSP70 positive neurons in cortex were found in certain laminae, especially layers 2 and 3.
Acid fuchsin
positive neurons, cells presumed to be dead, were located only in the layers of cortex where HSP70 immunoreactive neurons were found and were infrequent compared to the large number of HSP70 positive neurons. HSP70 immunoreactive glial cells were detected at the margins of ischemic areas, and were mostly OX42 immunoreactive microglia plus some GFAP immunoreactive astrocytes. In some animals HSP70 stained bipolar cells were detected in the striatum and in white matter which may be type 2 astrocytes. These findings confirm that global
ischemia
injures microglia and astrocytes, and that cells in a given ischemic region sustain varying degrees of injury--from the HSP70 stained neurons that likely survive the
ischemia
to acid fuchsin stained cells that die.
...
PMID:HSP70 heat shock protein induction following global ischemia in the rat. 875 Aug 37
Rats treated with the neuroepileptic drug, kainic acid, exhibit a specific regional pattern of neurodegeneration 24 h following onset of acute limbic status epilepticus. At 24 h post-seizure, the areas undergoing neurodegeneration also exhibit substantial amounts of the neuropeptide corticotropin-releasing factor (CRF) which is not present under normal conditions. In experimental brains, CRF is localized immunocytochemically to cells and densely labeled fibers in areas with neurodegeneration. Networks of CRF fibers closely surround moribund neurons staining intensely for acid fuchsin.
Acid fuchsin
, an acidophilic dye, is used routinely as a marker for irreversible neuronal injury, and acid fuchsin-positive neurons are identified in specific areas affected by kainic neurotoxicity. Evidence exists in the literature that CRF functions in brain as a excitatory neurotransmitter/neuromodulator. Under certain pathological conditions (i.e., seizures, brain trauma,
ischemia
), it has been postulated that CRF could act as an neurotoxic agent. This study provides anatomical evidence that CRF may function following seizures as an neurotoxin because of the close proximity of CRF-labeled fibers to degenerating neurons.
...
PMID:Corticotropin-releasing factor--immunolabeled fibers in brain regions with localized kainate neurotoxicity. 1060 38
