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Keywords

Hepatic Encephalopathy Methyl Mercury Quinolinic Acid Prenatal Alcohol Exposure Introductory Remark 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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Bibliography

  1. Ashton HE (1981) Disorders of the foetus and infant. In: Davies DM (ed) Textbook of adverse drug reactions, 2nd edn. Oxford University Press, Oxford, pp 64–80Google Scholar
  2. Bays J, Feldman KW (2001) Child abuse by poisoning. In: Reece RM, Ludwig S (eds) Child abuse: medical diagnosis and management, 2nd edn. Lippincott, Williams and Wilkins, Philadelphia, Pa., pp 405–441Google Scholar
  3. Schaumburg HH (2000) Human neurotoxic disease. In: Spencer PS, Schaumburg HH (eds) Experimental and clinical neurotoxicology. Oxford University Press, Oxford, pp 55–82Google Scholar
  4. Schröder JM (1999) Pathologie peripherer Nerven. In: Doerr W, Seifert G (eds) Spezielle pathologische Anatomie, vol 13/VIII. Springer, Berlin Heidelberg New YorkGoogle Scholar

References

  1. Aschner M, Sonnewald U, Tan KH (2002) Astrocyte modulation of neurotoxic injury. Brain Pathol 12:475–481PubMedGoogle Scholar
  2. Ashton HE (1981) Disorders of the foetus and infant. In: Davies DM (ed) Textbook of adverse drug reactions, 2nd edn. Oxford University Press, Oxford, pp 64–80Google Scholar
  3. Auer RN (1991) Excitotoxic mechanisms, and age-related susceptibility to brain damage in ischemia, hypoglycemia and toxic mussel poisoning. Neurotoxicity 12:541–546Google Scholar
  4. Auer RN, Siesjö BK (1988) Biological differences between ischemia, hypoglycemia and epilepsy. Ann Neurol 24:699–707PubMedCrossRefGoogle Scholar
  5. Baldelli RJ, Green FHY, Auer RN (1993) Sulfide toxicity: the role of mechanical ventilation and hypotension in determining survival rate and brain necrosis. J Appl Physiol 75:1348–1353PubMedGoogle Scholar
  6. Baumgarten HG, Zimmermann B (1992) Cellular and subcellular targets of neurotoxins: the concept of selective vulnerability. In: Herken H, Hucho F (eds) Selective neurotoxicity. Springer, Berlin Heidelberg New York, pp 1–27Google Scholar
  7. Bays J, Feldman KW (2001) Child abuse by poisoning. In: Reece RM, Ludwig S (eds) Child abuse: medical diagnosis and management, 2nd edn. Lippincott, Williams and Wilkins, Philadelphia, Pa., pp 405–441Google Scholar
  8. Cavanagh JB (1964) The significance of the “dying back” process in experimental and human neurological disease. Int Rev Exp Biol 3:219–250Google Scholar
  9. Ceccarelli B, Clementi F (1979) Neurotoxins: tools in neurobiology. Raven, New YorkGoogle Scholar
  10. Collins RC (1987) Neurotoxins and the selective vulnerability of brain. In: Jenner P (ed) Neurotoxins and their pharmacological implications. Raven, New York, pp 1–17Google Scholar
  11. De Vito WJ, Xhaja K, Stone S (2000) Prenatal alcohol exposure increases TNFα-induced cytotoxicity in primary astrocytes. Alcohol 21:63–71PubMedGoogle Scholar
  12. Dolly JO (1992) Peptide toxins that alter neurotransmitter release. In: Herken H, Hucho F (eds) Selective neurotoxicity. Springer, Berlin Heidelberg New York, pp 681–717Google Scholar
  13. Dyck PJ, Thomas PK, Lambert EH (eds) (1975) Peripheral neuropathy. WB Saunders, Philadelphia, Pa.Google Scholar
  14. Filley CM (1999) Toxic leukoencephalopathy. Clin Neuropharmacol 22:249–260PubMedGoogle Scholar
  15. Filley CM, Kleinschmidt-DeMasters BK (2001) Toxic leukoencephalopathy. N Engl J Med 345:425–432PubMedCrossRefGoogle Scholar
  16. Frisch S, Keweloh T, Belz H-H, Kijewski H (1997) Untersuchung zur Einwanderung von organischen Verbindungen in Keratin und deren Konsequenzen für den Nachweis von Drogen und organischen Giften in Haaren. In: Kijewski H (ed) Das Haar als Spur. In: Research in legal medicine, vol 16. Schmidt-Römhild, Lübeck, pp 13–29Google Scholar
  17. Haschek WM, Rousseaux CG (1998) Fundamentals of toxicologic pathology. Academic Press, San Diego, Calif.Google Scholar
  18. Hörtnagel H, Hanin J (1992) Toxins affecting the cholinergic system. In: Herken H, Hucho F (eds) Selective neurotoxicity. Springer, Berlin Heidelberg New York, pp 293–332Google Scholar
  19. Kirby ML, Barlow RL, Bloomquist JR (2001) Neurotoxicity of the organochlorine insecticide heptachlor to murine striatal dopamine pathways. Toxicol Sci 61:100–106PubMedCrossRefGoogle Scholar
  20. Klatzo I (1977) Pathologic aspects of the blood-brain barrier. In: Roizin L, Shiraki H, Grcevic N (eds) Neurotoxicology. Raven, New York, pp 577–584Google Scholar
  21. Krieglstein J, Kuglisch J (1992) Metabolic disorders as consequences of drug-induced energy deficits. In: Herken H, Hucho F (eds) Selective neurotoxicology. Springer, Berlin Heidelberg New York, pp 111–139Google Scholar
  22. Kruse K, Oehmichen M (eds) (1994) Intoxikation im Kindesalter. Hansisches Verlagskontor, LübeckGoogle Scholar
  23. MacMillan V (1989) Cerebral energy metabolism in cyanide encephalopathy. J Cereb Blood Flow Metab 9:156–162PubMedGoogle Scholar
  24. Martin CO, Adams HP Jr (2003) Neurological aspects of biological and chemical terrorism: a review for neurologists. Arch Neurol 60:21–25PubMedCrossRefGoogle Scholar
  25. Merigan WH, Weiss B (eds) (1980) Neurotoxicity of the visual system. Raven, New YorkGoogle Scholar
  26. Müller HA, Jeschke R (1970) Cytologische Befunde an den motorischen Vorderhornganglienzellen beim Tetanus. Verh Dtsch Path Ges 54:650Google Scholar
  27. Norenberg MD (1995) Hepatic encephalopathy. In: Kettenmann H, Ransom BR (eds) Neuroglia. Oxford University Press, New York, pp 950–953Google Scholar
  28. Oehmichen M (ed) (1996) Lebensverkürzung, Tötung und Serientötung — eine interdisziplinäre Analyse der “Euthanasie”. Schmidt-Römhild, LübeckGoogle Scholar
  29. Oehmichen M, Meissner C (2000) Life shortening and physician assistance in dying. Euthanasia from the viewpoint of German Legal Medicine. Gerontology 46:212–218PubMedGoogle Scholar
  30. Oehmichen M, Ochs U, Meissner C (2001) Regional potassium distribution in the brain in forensically relevant types of intoxication. Neurotoxicology 22:99–107PubMedCrossRefGoogle Scholar
  31. Proudfoot AT (1989) Poisoning in children. In: Mason K (ed) Paediatric forensic medicine and pathology. Chapman and Hall Medical, London, pp 256–268Google Scholar
  32. Rochholz G, Fischer F, Schütz T, Ritz-Timme S, Kaatsch H-J (1999) Nachweis von Drogen und Medikamenten in humanem Knochengewebe. Rechtsmedizin 9:A84Google Scholar
  33. Sachs H (1997) Drogennachweis in Haaren. In: Kijewski H (ed) Das Haar als Spur. In: Research in legal medicine, vol 16, Schmidt-Römhild, Lübeck, pp 119–133Google Scholar
  34. Schaumburg HH (2000) Human neurotoxic disease. In: Spencer PS, Schaumburg HH (eds) Experimental and clinical neurotoxicology. Oxford University Press, Oxford, pp 55–82Google Scholar
  35. Schröder JM (1999) Pathologie peripherer Nerven. In: Doerr W, Seifert G (eds) Spezielle pathologische Anatomie, vol 13/VIII. Springer, Berlin Heidelberg New YorkGoogle Scholar
  36. Shields LBE, Corey Handy T, Parker JC, Burns C (1998) Postmortem diagnosis of leukodystrophies. J Forensic Sci 43:1068–1071PubMedGoogle Scholar
  37. Slotkin TA, Cousins MM, Tate CA, Seidler FJ, (2001) Persistent cholinergic presynaptic deficits after neonatal chlorpyrifos exposure. Brain Res 902:229–234PubMedCrossRefGoogle Scholar
  38. Thomas PK (1980) The peripheral nervous system as a target for toxic substances. In: Spencer PS, Schaumburg HH (eds) Experimental and clinical neurotoxicology. Williams and Wilkins, Baltimore, Md., pp 35–47Google Scholar
  39. Vogt C, Vogt O (1937) Sitz und Wesen der Krankheit im Lichte der topistischen Hirnforschung und des Variierens der Tiere. J Psychol Neurol 47:237–457Google Scholar
  40. Whetsell WO (1996) Current concepts of excitotoxicity. J Neuropathol Exp Neurol 55:1–13PubMedGoogle Scholar
  41. Whetsell WO (2002) The mammalian striatum and neurotoxic injury. Brain Pathol 12:482–487PubMedGoogle Scholar

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