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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pattern of hippocampal cell death has been studied following hippocampal seizure activity and status epilepticus induced by 110-min stimulation of the perforant pathway in awake rats. The order of vulnerability of principal cells in the different hippocampal subfields--as determined by silver impregnation--was found to be very similar to the pattern found in ischemia; i.e., dentate hilus greater than CA1, subiculum greater than CA3c greater than CA3a,b greater than dentate granule cells. The hilar somatostatin-containing cells were the most vulnerable cell type, whereas all other subpopulations of nonprincipal neurons--visualized by immunocytochemistry for the calcium binding proteins parvalbumin and calbindin--were remarkably resistant. Pyramidal cells in the CA3 region containing neither of the examined calcium binding proteins were more resistant to overexcitation than CA1 pyramidal cells, most of which do contain calbindin. This indicates that no simple relationship exists between vulnerability in status epilepticus and neuronal calcium binding protein content, and that local and/or systemic hypoxia during status epilepticus may be responsible for the ischemic pattern of cell death.
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PMID:Pattern of neuronal death in the rat hippocampus after status epilepticus. Relationship to calcium binding protein content and ischemic vulnerability. 134 49

Cerebral ischemia can be caused by many diverse conditions such as cardiac arrest and severe hypotension and is often the cause of secondary brain damage following head injury or infantile birth trauma. The inadequate cerebral blood flow can result in permanent loss of essential brain circuitries and neurological deficits. The CA1 region of the hippocampal formation is the region of the brain that is most often lesioned following transient forebrain ischemia and is associated with impairments of learning and memory. Furthermore, the loss of such a large target area can lead to detrimental post-trauma synaptic reorganization. Since methods are not currently available for the prevention of neuronal loss following cerebral ischemia, a number of anatomical methodologies were utilized to investigate whether transplanted neurons had the potential to afford some measure of repair. The hippocampal CA1 region of the rat brain was lesioned by transient forebrain ischemia and subsequently repopulated with suspensions of fetal hippocampal tissue. The ability of the transplanted neurons to remain viable when placed into a degenerating environment was confirmed by the histological demonstration of 3H-thymidine labelled neurons in the lesioned region. Histological and immunohistochemical techniques showed that the transplanted neurons developed cytological features that were indistinguishable from their normal CA1 counterparts, often showed a remarkable degree of organization, and expressed some of the same neuron specific proteins; specifically calbindin-D28K and parvalbumin. Acetylcholinesterase histochemistry and retrograde axonal transport of Fluorogold demonstrated that some afferent and efferent fibre projections to and from the septal nucleus could be reinstated. The data have shown that the transplanted neurons can demonstrate many of the anatomical properties that are characteristic of the adult cells they have replaced and therefore have great potential for the reconstruction of severe focal lesions due to ischemia.
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PMID:Hippocampal neurons transplanted into ischemically lesioned hippocampus: anatomical assessment of survival, maturation and integration. 172 74

The relationship between neuronal calcium binding protein content (calbindin D28K: CaBP and parvalbumin: PV) and vulnerability to ischemia was studied in different regions of the rat brain using the four vessel occlusion model of complete forebrain ischemia. The areas studied, i.e. the hippocampal formation, neocortex, neostriatum and reticular thalamic nucleus (RTN), show a characteristic pattern of CaBP and PV distribution, and are involved in ischemic damage to different degrees. In the hippocampal formation CaBP is present in dentate granule cells and in a subpopulation of the CA1 pyramidal cells, the latter being the most and the former the least vulnerable to ischemia. Non-pyramidal cells containing CaBP in these regions survive ischemia, whereas PV-containing non-pyramidal cells in the CA1 region are occasionally lost. Hilar somatostatin-containing cells and CA3 pyramidal cells contain neither PV nor CaBP. Nevertheless, the latter are resistant to ischemia and the former is the first population of cells that undergoes degeneration. Supragranular pyramidal neurons containing CaBP are the most vulnerable cell group in the sensory neocortex. In the RTN the degenerating neurons contain both PV and CaBP. In the neostriatum, ischemic damage involves both CaBP-positive and negative medium spiny neurons, although the degeneration always starts in the dorsolateral neostriatum containing relatively few CaBP-positive cells. The giant cholinergic interneurons of the striatum contain neither CaBP nor PV, and they are the most resistant cell type in this area. These examples suggest the lack of a consistent and systematic relationship between neuronal CaBP or PV content and ischemic vulnerability. It appears that some populations of cells containing CaBP or PV are more predisposed to ischemic cell death than neurons lacking these proteins. These neurons may express high levels of calcium binding proteins because their normal activity may involve a high rate of calcium uptake and/or intraneuronal release.
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PMID:Relationship of neuronal vulnerability and calcium binding protein immunoreactivity in ischemia. 207 50

Intracellular accumulation of Ca2+ after brain ischemia is regarded as one of the principal causes of neuronal death, but details of the intracellular events occurring after Ca2+ accumulation have not yet been described. We propose that a calcium-activated neutral proteinase which can degrade neuronal cytoskeletal proteins might link Ca2+ accumulation and irreversible injury of the neuronal intracellular structure. First, therefore, we examined the distribution of calcium-activated neutral proteinase in normal brains. Immunohistochemical distribution of calcium-activated neutral proteinases (CANP) with high and low sensitivity to Ca2+ (muCANP and mCANP) and of endogenous CANP inhibitor was investigated in the dorsal hippocampus of the rabbit. muCANP-immunoreactivity was detected in almost all of the pyramidal cells and granule cells and in some other neurons. A full-length staining from perikarya to dendrites was shown in muCANP-positive neurons. mCANP-immunoreactivity was found mainly in four kinds of hippocampal interneurons: 1) basket cells in the stratum oriens of Ammon's horn, 2) pyramidal basket cells at the boundary of pyramidal cell layer and stratum oriens, 3) polymorphic cells in the hilar region of dentate gyrus, and 4) pyramidal or fusiform basket cells at the inner boundary of the granule cell layer and the hilar region. The distribution of these four kinds of neurons was similar to that of parvalbumin-containing GABAergic neurons. CANP inhibitor immunoreactivity was confined to pyramidal cells in the CA3-CA3c region and some hilar neurons.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunohistochemical distribution of calcium-activated neutral proteinases and endogenous CANP inhibitor in the rabbit hippocampus. 208 9

The calcium-binding proteins, parvalbumin (PV) and calbindin (CaBP), were used as immunocytochemical markers for two different interneuron populations in the rat hippocampus shortly after transient cerebral ischemia. Besides in interneurons, CaBP immunoreactivity (-i) is located in hippocampal CA1 pyramidal cells and dentate granule cells. Shortly after ischemia, the PV-i and CaBP-i were unchanged but, around the 4th postischemic day, PV-i disappeared from somata and fibers located in CA1, CA3c, and the dentate hilus. Terminal PV-i was unchanged. Within days, the PV-i gradually reappeared, first in somata and then in fibers. The transient loss of PV-i was, on a time scale, closely accompanied by a permanent loss of CaBP-i in CA1 pyramidal cells. CaBP-i in interneurons was unchanged. In order to examine the effect of an increased intracellular calcium concentration on the PV-i and CaBP-i, the calcium ionophore A23187 was stereotaxically injected into CA1. In rats killed 30 min later and processed for PV-i and CaBP-i, both PV-i and CaBP-i had disappeared around the A23187 injection sites. Based on this observation and the changes observed after ischemia, it is suggested that the hippocampal PV-i interneurons suffer from a delayed and reversible calcium accumulation in the days after ischemia. Concomitantly, there could be a decreased synthesis or increased destruction of PV after ischemia.
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PMID:Short-term changes of parvalbumin and calbindin immunoreactivity in the rat hippocampus following cerebral ischemia. 229 4

Bilateral transient occlusion of carotid arteries in gerbils for 7 min results in delayed neuronal cell death in hippocampal field CA1. Local gamma-aminobutyric acid (GABA)ergic neurons survive the ischemic insult. Here we show that interneurons in gerbil hippocampus are parvalbumin-immunoreactive, that they contain the GABA-synthetizing enzyme glutamic acid decarboxylase (GAD), and that they are resistant to the effects of ischemia, being present up to 28 days after the insult. It might be concluded that the presence of the Ca2+-binding protein parvalbumin protects the GABAergic neurons from the deleterious consequences of ischemia-induced excitotoxin-mediated Ca2+-influx.
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PMID:GABAergic hippocampal neurons resistant to ischemia-induced neuronal death contain the Ca2(+)-binding protein parvalbumin. 259 13

Histological and immunohistochemical techniques were used to investigate the long-term structural changes that occur in the rat hippocampal formation following the induction of transient forebrain ischemia. Histological analysis showed that after 6-12 months cell loss was still largely restricted to the CA1 region but within this region degeneration was progressive and culminated in a severe shrinkage of the stratum oriens and stratum radiatum. Using the immunohistochemical markers calbindin-D28K and parvalbumin, we were able to demonstrate some of the structural changes that reflect this shrinkage. Calbindin immunohistochemistry clearly illustrated that the shrinkage was primarily due to the loss of the pyramidal neurons and the framework normally provided by their long apical dendrites. Parvalbumin immunostaining demonstrated that although a few GABAergic interneurons survived the insult, their terminal network was reduced greatly and the dendrites which normally extended the length of the stratum radiatum were retracted. Additionally, the normally dense band of parvalbumin immunoreactivity in the stratum lacunosum-moleculare, thought to be indicative of a fiber bundle travelling through the CA1 region, was almost completely depleted. These data illustrate that the primary damage observed in the CA1 region following cerebral ischemia is not static but progressive and may thus have important functional implications.
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PMID:Long-term structural changes in the rat hippocampal formation following cerebral ischemia. 277 6

Repeated episodes of cerebral hypoxia-ischemia can cause primarily striatal neuronal loss in the developing brain. We investigated the effect of repeated episodes of asphyxia on specific neuronal sub-populations of the basal ganglia in late-gestation fetal sheep. Asphyxia was induced in 10 fetal sheep (118-126 days gestation) by occluding the umbilical cord for 5 min. This procedure was repeated four times at 30 min intervals and the brains were fixed 3 days later for histopathology. Immunohistochemical markers were used to identify various populations of neurons in the striatum. Antibodies to calbindin were used to stain the GABAergic medium-sized striatal projection neurons and antibodies to somatostatin and parvalbumin to identify striatal interneurons. Striatal projection neurons to the globus pallidus were recognized by enkephalin immunoreactivity, while the striatonigral terminals were identified in the substantia nigra pars reticulata by substance P immunohistochemical labelling. The results showed a marked loss of calbindin staining in the striatum, evident by both reduced cell numbers and a decrease in neuropil staining. The number of parvalbumin immunoreactive cells was also reduced in the striatum, while somatostatin interneurons were selectively preserved. In addition, immunostaining for enkephalin in the globus pallidus and for substance P in the substantia nigra was markedly reduced. These results show that the stiatal GABAergic medium-sized projection neurons are severely affected by recurrent episodes of asphyxia. These findings are confirmed and extended by the results demonstrating that both the enkephalin/GABA striatopallidal and the substance P/GABA stiatonigral pathways are affected. The results of this study therefore suggest that the efferent striatal projections to the globus pallidus and to the substantia nigra may be involved in asphyxial episodes resulting in cerebral palsy.
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PMID:Repeated asphyxia causes loss of striatal projection neurons in the fetal sheep brain. 760 81

The present study concerns the vulnerability of striatal interneurons immunopositive for the Ca(2+)-binding protein calretinin to ischemic neuronal injury. An immunohistochemical study was carried out on the striata of rats which had undergone transient middle cerebral artery occlusion. Two weeks after the ischemia, there was a marked reduction in the number of calretinin-positive neurons in the ipsilateral ischemic lesion, although the striatal interneurons positive for parvalbumin, which are a neuronal population distinct from the calretinin-immunoreactive cells in the striatum, were spared in the insulted areas. The present data indicate that the striatal calretinin-positive neurons are less resistant to transient ischemia, suggesting that there may exist vulnerability differences among the striatal interneurons in ischemia-induced neuronal injury.
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PMID:Striatal cells containing the Ca(2+)-binding protein calretinin (protein 10) in ischemia-induced neuronal injury. 773 89

The thalamic reticular nucleus (NRT) is one of the most vulnerable structures to selective neuronal damage both in human cardiac arrest patients and in experimental rodent global cerebral ischemia models. The detailed distribution of neuronal injury within the NRT was examined following 10-min cardiac arrest in the rat with conventional Nissl staining, 45Ca autoradiography and immunocytochemistry of the calcium binding proteins parvalbumin (PV) and calretinin (CR). While Nissl staining was almost unable to show the exact boundary of the nucleus and of the lesion, immunocytochemistry of PV proved to be the most useful index of the exact location and extent of neuronal loss in the NRT after ischemia. Calcium autoradiography was a sensitive method for detecting the lesion, and showed a similar distribution to the loss of PV staining, but did not give optimal spatial resolution. Quantitative analysis of PV staining at 7 days of recirculation demonstrated cell loss restricted to the lateral aspect of the middle segment of the NRT, identical with the distribution of large fusiform neurons in the somatosensory component of the nucleus. CR-positive neurons in the NRT were completely spared, although not all surviving neurons contained CR. These studies provide the first detailed characterization of the distribution of vulnerable neurons within the NRT after experimental ischemia and suggest that immunocytochemistry of PV is a useful tool for quantitative analysis of the lesion for use in further experiments to elucidate the mechanisms of selective vulnerability of the NRT.
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PMID:Loss of parvalbumin immunoreactivity defines selectively vulnerable thalamic reticular nucleus neurons following cardiac arrest in the rat. 775 47


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