Kitae Ito scite author profile

Kitae Ito

5Publications

143Citation Statements Received

17Citation Statements Given

How they've been cited

252

139

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Affiliations

Ohu University, Tohoku University Hospital

Publications

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Quantitative Analysis of Aconitum Alkaloids in the Urine and Serum of a Male Attempting Suicide by Oral Intake of Aconite Extract

Mizugaki

Ito

Ohyama

et al. 1998

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A method for the quantitation of diesterditerpene-type Aconitum alkaloids and their hydrolysis products by gas chromatography-selected ion monitoring was applied to a clinical case study. A 45-year-old male attempted suicide by oral intake of Aconitum alkaloids, which are highly intoxicant extracts of Aconitum tubers. It was estimated that he had ingested approximately 11 mg of diesterditerpene-type alkaloids but was saved by intensive gastric irrigation. Mesaconitine, aconitine, hypaconitine, and their hydrolysis products were detected in the serum on the first day only. On the other hand, some alkaloids were still detectable in the urine even six days after intoxication. Aconitum alkaloids are biotransformed, and their hydrolysis products are excreted time-dependently to the urine. The urine was a useful material to identify the toxicants in the case of aconite intoxication.

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Distribution of Aconitum Alkaloids in Body Fluids and Tissues in a Suicidal Case of Aconite Ingestion

Ito

Tanaka

Funayama

et al. 2000

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A case involving a suicidal ingestion of Aconitum tubers is presented. A 40-year-old woman in Hokkaido, Japan ingested ground aconite and died of aconite intoxication about 4 h after ingestion. The Aconitum alkaloids were quantitated using gas chromatography-selected ion monitoring from extracts of the body fluids and organs. The blood and urine concentrations of jesaconitine, the main alkaloid of the aconite in this case, were 69.1 ng/mL and 237.8 ng/mL, respectively. Higher values of the alkaloid were demonstrated in the kidneys, the liver, and in the bile rather than other organs or serum, suggesting the alkaloids were eliminated by the liver and kidneys. In the gastrointestinal tract, the highest value of jesaconitine (471.3 ng/g) was in the ileal contents. These findings show that Aconitum alkaloids were found in the liver and kidneys in much higher concentrations than in serum and suggest that they were eliminated not only via urine but also in feces. Feces may be useful to detect Aconitum alkaloid if other biological samples are not available.

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Glutamine Synthetase of the Human Brain: Purification and Characterization

Yamamoto¹,

Konno²,

Yamamoto³

et al. 1987

Journal of Neurochemistry

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Glutamine synthetase (GS) isolated from human brain formed a single band on sodium dodecyl sulfate-polyacrylamide gel with a molecular weight of 44,000. The enzyme had a specific activity of 179.2 U/mg protein when assayed by measuring the rate of the formation of gamma-glutamylhydroxamate using hydroxylamine as a substrate. In the presence of manganese ions, the relative activity of human brain GS was much lower than that of the sheep brain enzyme. The suppression of activity by increasing the ADP concentration, however, was less marked in the human enzyme than that in the sheep enzyme. Antibodies were raised in rabbits against the purified enzyme. The double-immunodiffusion technique disclosed cross-reactivities among GSs isolated from human, sheep, and rat brains, but the enzymes were not immunologically identical. Immunohistochemically, GS was localized in the cytoplasm of astrocytes in the human and rat brains and in pericentral hepatocytes of the liver.

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Method for the Simultaneous Determination ofAconitumAlkaloids and their Hydrolysis Products by Gas Chromatography-Mass Spectrometry in Human Serum

Ito¹,

Ohyama²,

Konishi³

et al. 1997

Planta Med

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This paper describes a newly developed method using gas chromatography-selected ion monitoring (GC-SIM) for the simultaneous determination of diester-diterpene type Aconitum alkaloids and their hydrolysis products in human serum. When the alkaloids were converted into their TMS derivatives, they produced a well defined peak on selected ion recording (SIR). Good linear response over the range of 100 pg to 7.5 ng was demonstrated for each alkaloid. When the alkaloids were spiked into human serum, good quantitative recovery was observed.

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Determination ofAconitumAlkaloids in the Tubers ofAconitum japonicumusing Gas Chromatography/Selected Ion Monitoring

Ito¹,

Ohyama²,

Hishinuma³

et al. 1996

Planta Med

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A rapid, specific and precise method using GC/SIM was applied to separate and quantify Aconitum alkaloids in Aconitum tubers. The TMS derivatives of each alkaloid produced a well defined peak on selected ion recording (SIR). Good linear response over the range of 100 pg - 7.5 ng was demonstrated for each alkaloid. Furthermore, we investigated the changes in the contents of Aconitum alkaloids, i.e., hypaconitine, mesaconitine, aconitine, and jesaconitine, in Aconitum tubers paying special attention to the harvesting season. Mesaconitine had the highest value in all seasons. Mesaconitine and aconitine showed the highest value in the samples harvested in May 1991 while hypaconitine had the highest value among those harvested in December 1990. As to the total amount of the alkaloids, the highest value, 4190 microg/g, and the lowest value, 1881 microg/g, were observed in the samples harvested in May and September, respectively. GC/SIM was very useful for the determination of Aconitum alkaloids in the tubers.

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Kitae Ito

Quantitative Analysis of Aconitum Alkaloids in the Urine and Serum of a Male Attempting Suicide by Oral Intake of Aconite Extract

Distribution of Aconitum Alkaloids in Body Fluids and Tissues in a Suicidal Case of Aconite Ingestion

Glutamine Synthetase of the Human Brain: Purification and Characterization

Method for the Simultaneous Determination ofAconitumAlkaloids and their Hydrolysis Products by Gas Chromatography-Mass Spectrometry in Human Serum

Determination ofAconitumAlkaloids in the Tubers ofAconitum japonicumusing Gas Chromatography/Selected Ion Monitoring

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