Golgi-like demonstration of “dark” neurons with an argyrophil III method for experimental neuropathology (original) (raw)
- Agardh CD, Kalimo H, Olsson Y, Siesjö BK (1981) Reply to the remarks by JB Brierley and AW Brown. Acta Neuropathol (Berl) 55: 323–325
Google Scholar - Atillo A, Söderfeldt B, Kalimo H, Olsson Y, Siesjö BK (1983) Pathogenesis of brain lesions caused by experimental epilepsy. Light and electron-microscopic changes in the rat hippocampus following bicucculline-induced status epilepticus. Acta Neuropathol (Berl) 59: 11–24
Google Scholar - Auer RN, Wieloch T, Olsson Y, Siesjö BK (1984) The distribution of hypoglycemic brain damage. Acta Neuropathol (Berl) 64: 177–191
Google Scholar - Ben-Ari Y, Tremblay E, Ottersen OP, Meldrum BS (1980) The role of epileptic activity in hippocampal and “remote” cerebral lesions induced by kainic acid. Brain Res 191: 79–97
Google Scholar - Brierley JB, Brown AW (1981) Remarks on the papers by C-D Agardh et al/H Kalimo et al. “Hyperglycemic brain injury, I, II”. Acta Neuropathol (Berl) 55: 319–322
Google Scholar - Cammermeyer J (1960) A critique of neuronal hyperchromatosis. J Neuropathol Exp Neurol 19: 141–142
Google Scholar - Cammermeyer J (1960) The post-mortem origin and mechanism of neuronal hyperchromatosis and nuclear pycnosis. Exp Neurol 2: 379–405
Google Scholar - Cammermeyer J (1961) An evaluation of the significance of “dark” neuron. Ergeb Anat Entwicklungsgesch 36: 1–61
Google Scholar - Cammermeyer J (1961) The importance of avoiding “dark” neurons in experimental neuropathology. Acta Neuropathol (Berl) 1: 245–270
Google Scholar - Cammermeyer J (1975) Histochemical phospholipid reaction in ischemic neurons as an indication of exposure to post-mortem trauma. Exp Neurol 49: 251–271
Google Scholar - Cammermeyer J (1978) Is the solitary dark neuron a manifestation of post mortem trauma to the brain inadequately fixed by perfusion? Histochemistry 56: 97–115
Google Scholar - Cammermeyer J (1979) Argentophil neuronal perikarya and neurofibrils induced by post-mortem trauma and hypertonic perfusates. Acta Anat 105: 9–24
Google Scholar - Clarke PGH (1980) Golgi-like staining with haematoxilin. Neurosci Lett 18: 31–36
Google Scholar - Clarke PGH, Nussbaumer JC (1987) A stain for ischemic or excessively stimulated neurons. Neuroscience 23: 969–979
Google Scholar - Desclin JC, Escubi J (1974) Effects of 3-acetylpyridine on the central nervous system of the rat, as demonstrated by silver methods. Brain Res 77: 349–364
Google Scholar - Finnie JW, O'Shea JD (1988) Pathological and pathogenic changes in the central nervous system of guinea pigs given tunicamycin. Acta Neuropathol (Berl) 75: 411–421
Google Scholar - Gallyas F (1980) Chemical nature of the first products (nuclei) of the aryrophil staining. Acta Histochem 67: 145–158
Google Scholar - Gallyas F (1980) Determination of the development time for the characterization of nucleus formation in the argyrophil staining. Acta Histochem 67: 1–5
Google Scholar - Gallyas F (1982) Physico-chemical mechanism of the argyrophil III reaction. Histochemistry 74: 409–421
Google Scholar - Gallyas F (1982) Equation of the mass-time relationship of the argyrophil I and III reactions. Histochemistry 74: 423–433
Google Scholar - Gallyas F, Wolff JR, Lohner H (1989) An argyrophil III method for the selective demonstration of mitochondria in aldehyde-fixed rat brain. J Neurosci Methods (in press)
- Goldschmidt RB, Steward D (1980) Preferential neurotoxicity of colchicine for granule cells of the dentate gyrus of adult rat. Proc Natl Acad Sci USA 77: 3047–3051
Google Scholar - Griffiths THS, Evans MC, Meldrum BS (1983) Intracellular calcium accumulation in rat hippocampus during seizures induced by bicucculline or l-allylglycine. Neuroscience 10: 385–395
Google Scholar - Güldner FH, Gallyas F, Wolff JR (1978) Spezifische Neuronfärbung im Rattenhirn nach Stimulation und Läsion. Verh Anat Ges 72: 401
Google Scholar - Hamilton BF, Gould DH (1987) Nature and distribution of brain lesions in rats intoxicated with 3-nitropropionic acid: a type of hypoxic (energy deficient) brain damage. Acta Neuropathol (Berl) 72: 286–297
Google Scholar - Hedreen JC, Chalmers JP (1972) Neuronal degeneration in rat brain induced by 6-hydroxydopamine. A histological and biochemical study. Brain Res 47: 1–36
Google Scholar - Heimer L, Kalil R (1978) Rapid transneuronal degeneration and death of cortical neurons following removal of the olfactory bulb. J Comp Neurol 178: 559–610
Google Scholar - Ingvar M, Morgan PF, Auer RN (1988) The nature and timing of excitotoxic neuronal necrosis in the cerebral cortex, hippocampus and thalamus due to flurothyl-induced status epilepticus. Acta Neuropathol (Berl) 75: 362–369
Google Scholar - Jenkins LW, Povlishock JT, Lewelt W, Miller JP, Becker DP (1981) The role of postichmic recirculation in the development of ischemic neuronal injury following complete cerebral ischemia. Acta Neuropathol (Berl) 55: 205–220
Google Scholar - Johnson JE (1975) The occurrence of dark neurons in the normal and deafferentated lateral vestibular nucleus in the rat: observations by light and electron microscopy. Acta Neuropathol (Berl) 31: 117–127
Google Scholar - Kirino T, Sano K (1984) Selective vulnerability in the gerbil hippocampus following ischemia. Acta Neuropathol (Berl) 62: 201–208
Google Scholar - Kleihues P, Kiessling M, Thilmann R, Xie Y, Uozumi A, Volk B (1986) Resitance to hypoglycemia of cerebellar transplants in the rat forebrain. Acta Neuropathol (Berl) 72: 23–28
Google Scholar - Környey S (1963) Patterns of CNS vulnerability in CO, cyanide and other poisoning. In: Schade JP, McMenemey WH (eds) Selective vulnerability of the nervous system in hypoxemia. Blackwell, Oxford, pp 165–176
Google Scholar - Mihály A, Joo F, Szente M (1983) Neuropathological alterations in the neocortex of rats subjected to focal aminopyridine seizures. Acta Neuropathol (Berl) 61: 85–94
Google Scholar - Nedergaard M (1987) Neuronal injury in the infarct border: a neuropathological study in the rat. Acta Neuropathol (Berl) 73: 267–274
Google Scholar - Palay SL, McGee-Russel SM, Gordon S, Grillo MA (1962) Fixation of neural tissue for electron microscopy by perfusion with solution of osmium tetroxide. J Cell Biol 12: 385–410
Google Scholar - Pulsinelli WA Brierley JB (1979) New model of bilateral hemispheric ischemia in the unanaesthetized rat. Stroke 10: 267–272
Google Scholar - Purpura DP, Gonzalez-Monteagydo O (1960) Acute effects of methoxypyridoxine on hippocampal end blade neurons; an experimental study of “special pathoclisis” in the cerebral cortex. J Neuropathol Exp Neurol 19: 421–432
Google Scholar - Queiroz LS, Eduardo RMP (1977) Occurrence of dark neurons in living mechanically injured rat neocortex. Acta Neuropathol (Berl) 38: 45–48
Google Scholar - Schnakenburg K (1971) Licht-und elektronenmikroskopische Untersuchungen der Hirngewebsveränderungen bei akuter experimenteller Sauerstoffvergiftung. Virchows Arch [A] 8: 230–242
Google Scholar - Sokrab TW, Johansson BB, Kalimo H, Olsson Y (1988) A transient hypertensive opening of the blood-brain barrier can lead to brain damage changes in rats subjected to aortic compression. Acta Neuropathol (Berl) 75: 557–565
Google Scholar - Solohuddin TS, Kalimo H, Johnsson BA, Olsson Y (1988) Observations on exsudation of fibronectin, fibrinogen and albumin in the brain after carotid infusion of hyperosmolar solutions. An immunohistochemical study in the rat indicating long-lasting changes in the brain microenvironment and multifocal nerve cell injuries. Acta Neuropathol (Berl) 76: 1–10
Google Scholar - Sperk G, Lassmann H, Baran H, Kish SJ, Seitelberger F, Hornykiewicz O (1983) Kainic acid induced seizures: neurochemical and histopathological changes. Neuroscience 10: 1301–1315
Google Scholar - Stensaas SS, Edwards CQ, Stensaas LJ (1972) An experimental study of hyperchromic nerve cells in the cerebral cortex. Exp Neurol 36: 472–487
Google Scholar - Switzer RC III (1976) Neural argyrophilia induced by puromycin. A directed Golgi-like method. Neurosci Lett 2: 301–305
Google Scholar - Tremblay E, Berger M, Nitecka L, Cavalheiro E, Ben-Ari Y (1984) A multidisciplinary study of folic acid neurotoxicity: interactions with kainate binding sites and relevance to the aethiology of epilepsy. Neuroscience 12: 569–589
Google Scholar - Zaczek R, Simonton S, Coyle JT (1980) Local and distant neuronal degeneration following intrastritial injection of kainic acid. J Neuropathol Exp Neurol 39: 245–264
Google Scholar