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Regional cerebral blood flow of acute carbon monoxide poisoning in cats (1987)

Okeda, R. ; Matsuo, T. ; Kuroiwa, T. ; [et al.]

Springer

Acta neuropathologica 72 (1987), S. 389-393

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ISSN: 1432-0533

Keywords: Regional cerebral blood flow ; Carbon monoxide ; Acute carbon monoxide poisoning ; Selective vulnerability

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The mechanism of selective vulnerability of the cerebral white matter and pallidum in acute carbon monoxide (CO) poisoning was experimentally investigated by measuring regional cerebral blood flow (rCBF) with the iodo-[14C]antipyrine method. A CO group consisting of five cats was exposed to 0.2%–0.3% CO gas and the rCBF was measured when moderate systemic hypotension (70–80 mm Hg) occurred; because systemic hypotension of this level during exposing to 0.2%–0.3% CO gas induces typical cerebral lesions of acute CO poisoning in almost all cats [Okeda et al. Acta Neuropathol (Berl) 54:1–10 (1981)]. Controls were a hypotension group of three cats with moderate systemic hypotension induced for 1 h without CO exposure, and a control group of five cats which inhaled only air for 2 h. The rCBF of each structure in the CO and hypotension groups was evaluated as a percentage of that of the control group. The rCBF of the CO group exhibited a wide range (68%–127%) according to the structures examined, and the mean (94.6%) was large compared with that (range: 53%–82%, mean: 67.4%) of the hypotension group. In the CO group, the examined brain structures where divided in two group according to the rCBF values; low-value structures and high-value structures. There was significant (P〈0.05) difference between rCBFs of both the structure groups. The cerebral white matter and pallidum belonged to low-value structures, and these rCBFs did not show any significant difference from those of other structures in this structure group. The rCBF of the cerebral white matter was significantly lower than that of the cerebellar white matter. From these findings and our previous observations using the hydrogen clearance and rheological methods, the mechanism of the selective vulnerability of the pallidum and cerebral white matter in acute CO poisoning is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00687271

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Experimental neurotoxicity of 5-fluorouracil and its derivatives is due to poisoning by the monofluorinated organic metabolites, monofluoroacetic acid and α-fluoroβ-alanine (1990)

Okeda, R. ; Shibutani, M. ; Matsuo, T. ; [et al.]

Springer

Acta neuropathologica 81 (1990), S. 66-73

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ISSN: 1432-0533

Keywords: 5-Fluorouracil ; Monofluoroacetic acid ; α-Fluoro-β-alanine ; Neurotoxicity ; Vacuolation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Two metabolites of 5-fluorouracil (FU), monofluoroacetic acid (FA) and α-fluoro-β-alanine (FBAL), were continuously administered into the left ventricle of the brain in cats for up to 1 month to investigate the mechanissm of neurotoxicity of FU and its derivatives. The cumulative doses of FU and FBAL over a 1-month period were 1.5–45 mg (20 cats) and 0.2–4.8 mg (21 cats), respectively. As controls for each experimental group, acetic acid (AA) and β-alanine (BAL) were administered. In terms of survival time in relation to the cumulative dose and molecular weight, FBAL was more toxic than FA. Neuropathologically, two types of change, vacuoles and necrosis/softening-like change, were found. The vacuoles were 20–50 μm in diameter, and distributed mainly in the cerebellar nuclei, white matter and the tectum and tegmentum of the brain stem in both experimental groups. Electron microscopically, these vacuoles were due to splitting of the myelin intraperiod line or separation between the axon and the innermost layer of myelin. Necrosis/softening-like change occurred preferentially in the FBAL group and was located symmetrically in the superior and inferior colliculi, oculomotor nuclei and thalamus. Both types of neuropathological change, especially those in the FBAL group, were similar to those found in cats orally administered with FU and its derivatives. It was, therefore, concluded that the subacute and chronic neurotoxicity of FU and its derivatives in dogs and cats is due to intoxication with the monofluorinated organic metabolites, FA and FBAL, and that the direct action of FA and FBAL on myelin and the action of FBAL on energy metabolism or vessels of the mid brain were proposed as the main pathogenetic factor involved.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00662639

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