Genetically epilepsy-prone rodents show some changes of ion levels in the brain

[1]  J. Crabbe,et al.  Genetic differences in hypothalamic-pituitary-adrenal axis responsiveness to acute ethanol and acute ethanol withdrawal , 1992, Brain Research.

[2]  G. Nisticó,et al.  Age-releated changes in Cu,Zn superoxide dismutase, Se-dependent and -independent glutathione peroxidase and catalase activities in specific areas of rat brain , 1991, Mechanisms of Ageing and Development.

[3]  H. Nakanishi,et al.  Inhibitory effects of NMDA receptor antagonists on hypoxia-induced seizures in dietary Mg(2+)-deficient mice. , 1991, European journal of pharmacology.

[4]  R. Collins,et al.  Genetic dissection of susceptibility to audiogenic seizures in inbred mice. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[5]  J. Penny,et al.  Noradrenergic Abnormalities in the Central Nervous System of Seizure‐Naive Genetically Epilepsy‐Prone Rats , 1991, Epilepsia.

[6]  G. Holmes,et al.  Effects of Age on Seizure Susceptibility in Genetically Epilepsy‐Prone Rats (GEPR‐9s) , 1991, Epilepsia.

[7]  J. Laschet,et al.  Effect of Milacemide on Audiogenic Seizures and Cortical (Na+, K+)‐ATPase of DBA/2J Mice , 1991, Epilepsia.

[8]  U. Heinemann,et al.  Late low magnesium-induced epileptiform activity in rat entorhinal cortex slices becomes insensitive to the anticonvulsant valproic acid , 1990, Neuroscience Letters.

[9]  C. Hornfeldt,et al.  Seizures induced by fluoroacetic acid and fluorocitric acid may involve chelation of divalent cations in the spinal cord. , 1990, European journal of pharmacology.

[10]  Paul E. Neumann,et al.  Mapping of two genes that influence susceptibility to audiogenic seizures in crosses of C57BL/6J and DBA/2J mice , 1990, Behavior genetics.

[11]  G. Holmes,et al.  Effect of kainate-induced seizures on tissue trace element concentrations in the rat , 1989, Neuroscience.

[12]  G. Davies,et al.  Normal extracellular calcium levels block kindled seizures , 1989, Experimental Neurology.

[13]  R. David Andrew,et al.  Seizure susceptibility and the osmotic state , 1989, Brain Research.

[14]  H. Laird The genetically epilepsy-prone rat. A valuable model for the study of the epilepsies. , 1989, Molecular and chemical neuropathology.

[15]  Robert S. Fisher,et al.  Animal models of the epilepsies , 1989, Brain Research Reviews.

[16]  R. Dingledine,et al.  Role of extracellular space in hyperosmotic suppression of potassium-induced electrographic seizures. , 1989, Journal of neurophysiology.

[17]  F. Nicol,et al.  Inhibition of type I and type II iodothyronine deiodinase activity in rat liver, kidney and brain produced by selenium deficiency. , 1989, The Biochemical journal.

[18]  J. E. Franck,et al.  Developing Genetically Epilepsy‐Prone Rats Have an Abnormal Seizure Response to Flurothyl , 1989, Epilepsia.

[19]  D. Woodbury,et al.  Seizure Susceptibility in DBA and C57 Mice: The Effects of Various Convulsants , 1988, Epilepsia.

[20]  D. Savage,et al.  Evidence of hypothyroidism in the genetically epilepsy-prone rat , 1988, Epilepsy Research.

[21]  G. Nisticó,et al.  Anticonvulsant effects of some calcium entry blockers in DBA/2 mice , 1988, British journal of pharmacology.

[22]  P. Jobe,et al.  The genetically epilepsy-prone rat: an overview of seizure-prone characteristics and responsiveness to anticonvulsant drugs. , 1986, Life sciences.

[23]  D. Caspary,et al.  Decreased effectiveness of GABA-mediated inhibition in the inferior colliculus of the genetically epilepsy-prone rat , 1986, Experimental Neurology.

[24]  R. D. Traub,et al.  Computer simulations indicate that electrical field effects contribute to the shape of the epileptiform field potential , 1985, Neuroscience.

[25]  U. Tacke,et al.  Seizure thresholds and their postictal changes in audiogenic seizure (AGS)-susceptible rats. , 1984, European journal of pharmacology.

[26]  Laird He nd,et al.  Neurotransmitter abnormalities in genetically epileptic rodents. , 1984 .

[27]  S. T. Palayoor,et al.  Genetic Association Between Ca2+‐ATPase Activity and Audiogenic Seizures in Mice , 1984, Journal of neurochemistry.

[28]  B. Meldrum,et al.  Anticonvulsant actions of DS 103–282 Pharmacological studies in rodents and the baboon, Papio papio , 1984, Neuropharmacology.

[29]  Melanie S. Johnson,et al.  Divalent transition-metal ions (Cu2+ and Zn2+) in the brains of epileptogenic and normal mice , 1983, Brain Research.

[30]  S. Miller,et al.  Generalized seizures alter the cerebral and peripheral metabolism of essential metals in mice , 1983, Experimental Neurology.

[31]  Shin-Ho Chung,et al.  Experimentally induced susceptibility to audiogenic seizure , 1983, Experimental Neurology.

[32]  T. Seyfried Audiogenic seizures in mice. , 1979, Federation proceedings.

[33]  A. Picchioni,et al.  Audiogenic seizure susceptible rats. , 1979, Federation proceedings.

[34]  G. Glaser,et al.  Thyroid hormone influence on the susceptibility of mice to audiogenic seizures. , 1979, Science.

[35]  A. Prasad Trace elements and iron in human metabolism , 1978 .

[36]  S. Wold,et al.  SIMCA: A Method for Analyzing Chemical Data in Terms of Similarity and Analogy , 1977 .

[37]  P. Timiras,et al.  Influence of manganese on susceptibility of rats to convulsions. , 1963, The American journal of physiology.

[38]  L. Wilkins The Epileptic Seizure , 1958, Neurology.

[39]  Patton Ra Sound-induced convulsions in the hamster associated with magnesium deficiency. , 1947 .

[40]  P. Jobe,et al.  Serotonergic abnormalities in the central nervous system of seizure-naive genetically epilepsy-prone rats. , 1992, Life sciences.

[41]  B. L. O’dell,et al.  Low copper status of rats affects polyunsaturated fatty acid composition of brain phospholipids, unrelated to neuropathology. , 1992, The Journal of nutrition.

[42]  G. Trimarchi,et al.  Comparative anticonvulsant effects of sodium valproate and magnesium valproate in two models of reflex epilepsy , 1989 .

[43]  P. Molinoff,et al.  Basic Neurochemistry: Molecular, Cellular and Medical Aspects , 1989 .

[44]  C. Faingold The genetically epilepsy-prone rat. , 1988, General pharmacology.

[45]  C. Armanino,et al.  Pattern recognition study of biochemical assays for liver function , 1987 .

[46]  U. Heinemann,et al.  Ionic changes and alterations in the size of the extracellular space during epileptic activity. , 1986, Advances in neurology.

[47]  B. Meldrum,et al.  Evaluation of anticonvulsant drugs in DBA/2 mice with sound-induced seizures. , 1984, Arzneimittel-Forschung.

[48]  Del Maestro Rf An approach to free radicals in medicine and biology. , 1980 .

[49]  C. Hall Genetic differences in fatal audiogenic seizures between two inbred strains of house mice. , 1947, The Journal of heredity.