Role of Mediator Compounds in Secondary Brain Damage — Current Evidence

[1]  A. Unterberg,et al.  The kallikrein-kinin system as mediator in vasogenic brain edema. Part 3: Inhibition of the kallikrein-kinin system in traumatic brain swelling. , 1986, Journal of neurosurgery.

[2]  E. Bickerstaff Cerebral Blood Flow, Metabolism and Epilepsy , 1986 .

[3]  F. Gage,et al.  Evidence for amelioration of ischaemic neuronal damage in the hippocampal formation by lesions of the perforant path. , 1985, Neurological research.

[4]  A. Unterberg,et al.  Blood Flow, Metabolism, and Function of the Brain During Cerebral Administration of Bradykinin , 1985 .

[5]  A. Unterberg,et al.  Effects of Bradykinin on Permeability and Diameter of Pial Vessels In vivo , 1984, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[6]  A. Unterberg,et al.  The kallikrein-kinin system as mediator in vasogenic brain edema. Part 2: Studies on kinin formation in focal and perifocal brain tissue. , 1984, Journal of neurosurgery.

[7]  A. Unterberg,et al.  The kallikrein-kinin system as mediator in vasogenic brain edema. Part 1: Cerebral exposure to bradykinin and plasma. , 1984, Journal of neurosurgery.

[8]  K. Go,et al.  Recent Progress in the Study and Therapy of Brain Edema , 1984 .

[9]  L. Edvinsson,et al.  Effects of Bradykinin on Pial Arteries and Arterioles in vitro and in situ , 1983, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[10]  P. Chan,et al.  Reductions of Γ‐Aminobutyric Acid and Glutamate Uptake and (Na++ K+)‐ATPase Activity in Brain Slices and Synaptosomes by Arachidonic Acid , 1983, Journal of neurochemistry.

[11]  N. Diemer,et al.  Selective neuron loss after cerebral ischemia in the rat: Possible role of transmitter glutamate , 1982, Acta neurologica Scandinavica.

[12]  L. Churchill,et al.  Arachidonic Acid Stimulates Renal Kallikrein Release in Isolated Rat Kidney , 1982 .

[13]  P. Chan,et al.  Alterations of membrane integrity and cellular constituents by arachidonic acid in neuroblastoma and glioma cells , 1982, Brain Research.

[14]  G. Reiser,et al.  Bradykinin induces hyperpolarizations in rat glioma cells and in neuroblastoma × glioma hybrid cells , 1982, Brain Research.

[15]  P. Gross Cerebral Histamine: Indications for Neuronal and Vascular Regulation , 1982, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[16]  R. Fishman,et al.  Phospholipid Degradation and Cellular Edema Induced by Free Radicals in Brain Cortical Slices , 1982, Journal of neurochemistry.

[17]  S. Rehncrona,et al.  Brain Cortical Fatty Acids and Phospholipids During and Following Complete and Severe Incomplete Ischemia , 1982, Journal of neurochemistry.

[18]  L. Wolfe Eicosanoids: Prostaglandins, Thromboxanes, Leukotrienes, and Other Derivatives of Carbon‐20 Unsaturated Fatty Acids , 1982, Journal of neurochemistry.

[19]  O. Kempski,et al.  An in Vitro Model of Cytotoxic Brain Edema: Cell Volume and Metabolism of Cultivated Glial- and Nerve-Cells , 1982 .

[20]  J. Pickard Role of Prostaglandins and Arachidonic Acid Derivatives in the Coupling of Cerebral Blood Flow to Cerebral Metabolism , 1981, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[21]  C. Agardh,et al.  Hypoglycemic Brain Injury: Phospholipids, Free Fatty Acids, and Cyclic Nucleotides in the Cerebellum of the Rat after 30 and 60 Minutes of Severe Insulin-Induced Hypoglycemia , 1981, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[22]  B. Siesjö Cell Damage in the Brain: A Speculative Synthesis , 1981, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[23]  S. Rehncrona,et al.  Free Fatty Acids in the Rat Brain in Moderate and Severe Hypoxia , 1981, Journal of neurochemistry.

[24]  P. Chan,et al.  Transient Formation of Superoxide Radicals in Polyunsaturated Fatty Acid‐Induced Brain Swelling , 1980, Journal of neurochemistry.

[25]  J. Povlishock,et al.  Cerebral arteriolar damage by arachidonic acid and prostaglandin G2. , 1980, Science.

[26]  A. Unterberg,et al.  Brain edema factors: current state with particular reference to plasma constituents and glutamate. , 1980, Advances in neurology.

[27]  N. Bazan,et al.  Membrane lipids in the pathogenesis of brain edema: phospholipids and arachidonic acid, the earliest membrane components changed at the onset of ischemia. , 1980, Advances in neurology.

[28]  K. Go,et al.  The effect of intracerebral ouabain administration on the composition of edema fluid isolated from cats with cold-induced brain edema , 1979, Brain Research.

[29]  K. Malik,et al.  Relationships between the kallikrein-kinin and prostaglandin systems. , 1979, Life sciences.

[30]  K. Go,et al.  Composition of isolated edema fluid in cold-induced brain edema. , 1979, Journal of neurosurgery.

[31]  L. Rakić,et al.  Pathophysiology of Cerebral Energy Metabolism , 1979, Springer US.

[32]  H. Movat,et al.  The Plasma Kallikrein-Kinin System and Its Interrelationship With Other Components of Blood , 1979 .

[33]  P. Chan,et al.  Brain edema: induction in cortical slices by polyunsaturated fatty acids. , 1978, Science.

[34]  N. Allen,et al.  Response of lysosomal hydrolases of dog spinal cord and cerebrospinal fluid to experimental trauma , 1978, Neurology.

[35]  E. G. Erdös,et al.  The kinins. A status report. , 1976, Biochemical pharmacology.

[36]  A. Kobrine,et al.  Role of histamine in posttraumatic spinal cord hyperemia and the luxury perfusion syndrome. , 1976, Journal of neurosurgery.

[37]  N. Bazan Free arachidonic acid and other lipids in the nervous system during early ischemia and after electroshock. , 1976, Advances in experimental medicine and biology.

[38]  W. Feindel,et al.  Dynamics of Brain Edema , 1976, Springer Berlin Heidelberg.

[39]  T. Perry,et al.  CSF amino acids and plasma‐CSF amino acid ratios in adults 1 , 1975, Journal of neurochemistry.

[40]  Shikimi Tadahiro,et al.  Studies on kinin-like substances in brain. , 1973 .

[41]  B. Vargaftig,et al.  Selective inhibition by mepacrine of the release of “rabbit aorta contracting substance” evoked by the administration of bradykinin , 1972, The Journal of pharmacy and pharmacology.

[42]  E. Fifková,et al.  EFFECTS OF GLUTAMATE AND OTHER AMINO ACIDS ON THE RETINA 1 , 1971, Journal of neurochemistry.

[43]  A. van Harreveld,et al.  Light- and electron-microscopic changes in central nervous tissue after electrophoretic injection of glutamate. , 1971, Experimental and molecular pathology.

[44]  N. Bazan CHANGES IN FREE FATTY ACIDS OF BRAIN BY DRUG‐INDUCED CONVULSIONS, ELECTROSHOCK AND ANAESTHESIA , 1971, Journal of neurochemistry.

[45]  N. Bazan,et al.  Effects of ischemia and electroconvulsive shock on free fatty acid pool in the brain. , 1970, Biochimica et biophysica acta.

[46]  E. G. Erdös,et al.  Bradykinin, Kallidin and Kallikrein , 1970, Handbook of Experimental Pharmacology / Handbuch der experimentellen Pharmakologie.

[47]  Johnson Rt Advances in neurosurgery. , 1969 .

[48]  J. Bell,et al.  Experimental effects of free serotonin on the brain and its relation to brain injury. 1. The neurological consequences of intracerebral serotonin injections. 2. Trauma-induced alterations in spinal fluid and brain. 3. Serotonin-induced cerebral edema. , 1969, Journal of neurosurgery.

[49]  J. Harvey,et al.  Excitatory acidic amino acids and the cation content and sodium ion flux of isolated tissues from the brain. , 1968, The Biochemical journal.

[50]  F. Khattab Alterations in acid phosphatase bodies (lysosomes) in cat motoneurons after asphyxiation of the spinal cord. , 1967, Experimental neurology.

[51]  J. Berry,et al.  HYDROLYSIS OF NUCLEOSIDE DIPHOSPHATE ESTERS IN PERIPHERAL NERVE DURING WALLERIAN' DEGENERATION * , 1967, Journal of neurochemistry.

[52]  A. Ames,et al.  Intracellular Cl-, Na+, K+, Ca2+, Mg2+, and P in nervous tissue; response to glutamate and to changes in extracellular calcium. , 1967, Journal of neurochemistry.

[53]  R. T. Jones,et al.  The amino acid content of human cerebrospinal fluid in normal individuals and in mental defectives. , 1961, The Journal of clinical investigation.

[54]  P. H. Bulle Effects of Reserpine and Chlorpromazine in Prevention of Cerebral Edema and Reversible Cell Damage.∗ , 1957, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.