BIOMAT Database Logo BIOMAT Database Logo

[Ultrastructural changes induced by a brief period of anoxia in cerebral cortex tissue culture]. 1979

G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska

Explants of long-term cultures of nervous tissue of the rat cerebral cortex were placed for 30 min in a pure nitrogen atmosphere and then for 3--5 days transferred to the conventional cultivation co conditions. Electron microscope examinations showed that most severe changes occurred in the elements of oligodendroglia in the cytoplasm of which numerous lysosomes, large vacuoles, deposits of glycogen accumulated and myelin figures were formed. The damage of these cells appears to result in the degeneration of myelin sheaths. Edematous changes and glycogen accumulation were prevalent in astrocytes. Alongside with this, neurons had no such severe changes under these treatments. Its is emphasized that the intensity of reproducible oxygen deficiency must be taken into consideration in the evaluation of the sensitivity to anoxia of various nervous tissue elements.

UI MeSH Term Description Entries
D008854 Microscopy, Electron Microscopy using an electron beam, instead of light, to visualize the sample, thereby allowing much greater magnification. The interactions of ELECTRONS with specimens are used to provide information about the fine structure of that specimen. In TRANSMISSION ELECTRON MICROSCOPY the reactions of the electrons that are transmitted through the specimen are imaged. In SCANNING ELECTRON MICROSCOPY an electron beam falls at a non-normal angle on the specimen and the image is derived from the reactions occurring above the plane of the specimen. Electron Microscopy
D009186 Myelin Sheath The lipid-rich sheath surrounding AXONS in both the CENTRAL NERVOUS SYSTEMS and PERIPHERAL NERVOUS SYSTEM. The myelin sheath is an electrical insulator and allows faster and more energetically efficient conduction of impulses. The sheath is formed by the cell membranes of glial cells (SCHWANN CELLS in the peripheral and OLIGODENDROGLIA in the central nervous system). Deterioration of the sheath in DEMYELINATING DISEASES is a serious clinical problem. Myelin,Myelin Sheaths,Sheath, Myelin,Sheaths, Myelin
D009336 Necrosis The death of cells in an organ or tissue due to disease, injury or failure of the blood supply.
D009836 Oligodendroglia A class of large neuroglial (macroglial) cells in the central nervous system. Oligodendroglia may be called interfascicular, perivascular, or perineuronal (not the same as SATELLITE CELLS, PERINEURONAL of GANGLIA) according to their location. They form the insulating MYELIN SHEATH of axons in the central nervous system. Interfascicular Oligodendroglia,Oligodendrocytes,Perineuronal Oligodendroglia,Perineuronal Satellite Oligodendroglia Cells,Perivascular Oligodendroglia,Satellite Cells, Perineuronal, Oligodendroglia,Perineuronal Satellite Oligodendrocytes,Interfascicular Oligodendroglias,Oligodendrocyte,Oligodendrocyte, Perineuronal Satellite,Oligodendrocytes, Perineuronal Satellite,Oligodendroglia, Interfascicular,Oligodendroglia, Perineuronal,Oligodendroglia, Perivascular,Perineuronal Satellite Oligodendrocyte,Satellite Oligodendrocyte, Perineuronal,Satellite Oligodendrocytes, Perineuronal
D002534 Hypoxia, Brain A reduction in brain oxygen supply due to ANOXEMIA (a reduced amount of oxygen being carried in the blood by HEMOGLOBIN), or to a restriction of the blood supply to the brain, or both. Severe hypoxia is referred to as anoxia and is a relatively common cause of injury to the central nervous system. Prolonged brain anoxia may lead to BRAIN DEATH or a PERSISTENT VEGETATIVE STATE. Histologically, this condition is characterized by neuronal loss which is most prominent in the HIPPOCAMPUS; GLOBUS PALLIDUS; CEREBELLUM; and inferior olives. Anoxia, Brain,Anoxic Encephalopathy,Brain Hypoxia,Cerebral Anoxia,Encephalopathy, Hypoxic,Hypoxic Encephalopathy,Anoxia, Cerebral,Anoxic Brain Damage,Brain Anoxia,Cerebral Hypoxia,Hypoxia, Cerebral,Hypoxic Brain Damage,Anoxic Encephalopathies,Brain Damage, Anoxic,Brain Damage, Hypoxic,Damage, Anoxic Brain,Damage, Hypoxic Brain,Encephalopathies, Anoxic,Encephalopathies, Hypoxic,Encephalopathy, Anoxic,Hypoxic Encephalopathies
D002540 Cerebral Cortex The thin layer of GRAY MATTER on the surface of the CEREBRAL HEMISPHERES that develops from the TELENCEPHALON and folds into gyri and sulci. It reaches its highest development in humans and is responsible for intellectual faculties and higher mental functions. Allocortex,Archipallium,Cortex Cerebri,Cortical Plate,Paleocortex,Periallocortex,Allocortices,Archipalliums,Cerebral Cortices,Cortex Cerebrus,Cortex, Cerebral,Cortical Plates,Paleocortices,Periallocortices,Plate, Cortical
D006003 Glycogen
D006651 Histocytochemistry Study of intracellular distribution of chemicals, reaction sites, enzymes, etc., by means of staining reactions, radioactive isotope uptake, selective metal distribution in electron microscopy, or other methods. Cytochemistry
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D000831 Animals, Newborn Refers to animals in the period of time just after birth. Animals, Neonatal,Animal, Neonatal,Animal, Newborn,Neonatal Animal,Neonatal Animals,Newborn Animal,Newborn Animals

Related Publications

G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
[Primary ultrastructural changes in the cerebral cortex during different types of experimental cerebral anoxia].
January 1973, Comptes rendus des seances de la Societe de biologie et de ses filiales,
G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
[Anoxia-induced changes in cAMP contents in the cat cerebral cortex].
September 1992, Biulleten' eksperimental'noi biologii i meditsiny,
G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
[Ultrastructural changes in the cerebral cortex of the cat 30 to 60 minutes after anoxia].
September 1987, Tsitologiia,
G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
Experimental global cerebral ischemia in rats. I. Ultrastructural changes in cerebral cortex in the postischemic period.
January 1989, Neuropatologia polska,
G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
[Ultrastructural characteristics of the tissue changes in the cerebral cortex during aging].
January 1984, Zhurnal nevropatologii i psikhiatrii imeni S.S. Korsakova (Moscow, Russia : 1952),
G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
[Ultrastructural study of cerebral cortex changes near epileptogenic foci induced by aluminum cream].
January 1972, Acta neuropathologica,
G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
[Structural and ultrastructural changes induced by angiotensin II in the cerebral cortex of animals].
March 1980, Arkhiv anatomii, gistologii i embriologii,
G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
[DIRECT CURRENT COMPONENT CHANGES OF THE CEREBRAL CORTEX IN ANOXIA].
October 1963, Zeitschrift fur Biologie,
G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
Anoxia-induced changes in the resting potential of the cerebellar cells in tissue culture.
January 1976, Acta physiologica Polonica,
G V Konovalov, and E I Chumasov, and Z B Krasnitska, and B I Gaĭkovska
[Ultrastructural changes in organelles of the dog cerebral cortex astrocytes in post-ischemic period (morphometric analysis)].
January 2001, Morfologiia (Saint Petersburg, Russia),
Copied contents to your clipboard!