Brain pathology
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A 54 year old man developed rhabdomyolysis one year after beginning treatment with a combination of lovastatin (an HMGCoA reductase inhibitor) and niacin. Muscle biopsy showed a severe necrotizing myopathy affecting both fibre types. Recovery occured gradually with cessation of medication. The spectrum of cholesterol lowering agent myopathy may include delayed cases of unusual severity.
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Systemic injection of the bacterial endotoxin lipopolysaccharide (LPS) provides a very good mean for increasing the release of proinflammatory cytokines by circulating monocytes and tissue macrophages. There is now considerable evidence that LPS exerts its action on mononuclear phagocytes via the cell surface receptor CD14. The aim of the present study was to verify the hypothesis that the brain has also the ability to express the gene encoding the LPS receptor, which may allow a direct action of the endotoxin onto specific cellular populations during blood sepsis. ⋯ At 6 h post-challenge, small positive cells were found throughout the entire parenchymal brain and dual-labeling procedure indicated that different cells of myeloid origin have the ability to express CD14 in response to systemic LPS. These included CVO microglia, choroid plexus and leptomeninge macrophages, parenchymal and perivascular-associated microglial cells, although specific nonmyeloid cells were also positive for the LPS receptor. These results provide the very first evidence of a direct role of LPS on specific cell populations of the central nervous system, which is likely to be responsible for the transcription of proinflammatory cytokines; first within accessible structures from the blood and thereafter through scattered parenchymal cells during severe sepsis.
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Using in vitro models, our laboratory in collaboration with those of Pierluigi Nicotera (University of Konstanz, Germany) and Stan Orrenius (Karolinska Institute) has recently shown that fulminant insults to the nervous system from excitotoxins or free radicals result in neuronal cell death from necrosis, while more subtle insults result in delayed apoptosis. Over the past dozen or so years, mounting evidence has suggested that excitotoxins, such as glutamate, result in neuronal cell death after stroke. More recent evidence has suggested that in addition to necrotic cell death in the ischemic core, a number of neurons may also undergo apoptosis. ⋯ A final common pathway for neuronal susceptibility appears to be operative, similar to that observed in stroke and several neurodegenerative diseases. This mechanism involves excessive activation of N-methyl-D-aspartate (NMDA) receptor-operated channels, with resultant excessive influx of Ca2+ and the generation of free radicals, leading to neuronal damage. With the very recent development of clinically-tolerated NMDA antagonists, as discussed here, there is hope for future pharmacological intervention.
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Angiogenesis, the sprouting of capillaries from preexisting vessels, is of fundamental importance during embryonic development and is the principal process by which the brain and certain other organs become vascularized. Angiogenesis occurs during embryonic development but is almost absent in adult tissues. Transient and tightly controlled (physiological) angiogenesis in adult tissues occurs during the female reproductive cycle and during wound healing. ⋯ These endothelial cells dissolve their surrounding extracellular matrix, migrate toward the tumor, proliferate, and form a new vascular network, thus supplying the tumor with nutrients and oxygen and removing waste products. The onset of angiogenesis in human gliomas is characterized by the expression of genes encoding angiogenic growth factors such as vascular endothelial growth factor (VEGF), platelet-derived growth factor (PDGF) in tumor cells, and coordinate induction of genes in endothelial cells which encode the respective growth factor receptors. Developmental and tumor angiogenesis appear to be regulated by a paracrine mechanism involving VEGF and VEGF receptor-1 and -2.
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Global cerebral blood flow (GCBF) is low in the human neonate compared to the adult. It is even lower in mechanically ventilated, preterm infants: 10-12 ml/100 g/minute, a level associated with brain infarction in adults. The reactivity, however, of global CBF to changes in cerebral metabolism, PaCO2, and arterial blood pressure is normal, except following severe birth asphyxia, or in mechanically ventilated preterm infants, who subsequently develop major germinal layer hemorrhage. ⋯ Two clinical patterns of brain damage following asphyxia may be explained by changes in the blood flow distribution induced by asphyxia: brainstem sparing and parasagittal cerebral injury. Hours to days after severe asphyxia, a state of marked global hyperperfusion may prevail. It is associated with poor neurological outcome and may be an entry point for trials of interventions aiming sat blocking the translation of asphyctic injury to cellular death and tissue damage.