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1.
Annals of Occupational and Environmental Medicine ; : 44-2017.
Article in English | WPRIM | ID: wpr-126534

ABSTRACT

BACKGROUND: The aim of this review was to estimate the lethal and exposure doses of a representative symptom (blindness) of methanol exposure in humans by reviewing data from previous articles. METHODS: Available articles published from 1970 to 2016 that investigated the dose-response relationship for methanol exposure (i.e., the exposure concentration and the biological markers/clinical symptoms) were evaluated; the MEDLINE and RISS (Korean search engine) databases were searched. The available data from these articles were carefully selected to estimate the range and median of a lethal human dose. The regression equation and correlation coefficient (between the exposure level and urinary methanol concentration as a biological exposure marker) were assumed from the previous data. RESULTS: The lethal human dose of pure methanol was estimated at 15.8–474 g/person as a range and as 56.2 g/person as the median. The dose-response relationship between methanol vapor in ambient air and urinary methanol concentrations was thought to be correlated. An oral intake of 3.16–11.85 g/person of pure methanol could cause blindness. The lethal dose from respiratory intake was reported to be 4000–13,000 mg/l. The initial concentration of optic neuritis and blindness were shown to be 228.5 and 1103 mg/l, respectively, for a 12-h exposure. CONCLUSION: The concentration of biological exposure indices and clinical symptoms for methanol exposure might have a dose-response relationship according to previous articles. Even a low dose of pure methanol through oral or respiratory exposure might be lethal or result in blindness as a clinical symptom.


Subject(s)
Humans , Blindness , Methanol , Optic Neuritis
2.
Korean Journal of Preventive Medicine ; : 666-679, 1998.
Article in Korean | WPRIM | ID: wpr-204615

ABSTRACT

This study aims at providing the fundamental data on the field of cosmetics by comparing heavy metal concentration in terms of domestic / foreign products, items, companies and colors. This study has determined the concentration of chromium, lead, mangagnese, nickel, copper and vanadium in cosmetics such as moisturizer, concealer, foundation (Ivory-yellow), compact powder (Ivory-yellow), lip color (Red, brown), eye shadow (Red, brwon and dark green) and eye liner (Black) manufactured by five domestic cosmetic companies and five foreign cosmetic companies on the market. The samples have been collected in cosmetic stores in Pusan from Dec. lst 1996 to Jan. 3lst 1997. The results are as follows : 1. The heavy metal concentration in cosmetics was 2.42ng/g for chromium, 0.82ng/g for lead, 4.49ng/g for manganese, 1.69ng/g for nickel, 0.53ng/g for copper, and 0.51ng/g for vanadium, respectively. 2. Lead and vanadium concentration were significantly higher in domestic cosmetics than foreign cosmetics(p<0.05). 3. The mean(GM) concentrations of heavy metal were different significantly (p<0.01) when classified with cosmetic items. The highest means shown at eye shadow in Cr (14.96ng/g), Cu (1.32ng/g), V (1.28ng/g), and Ni (8.30ng/g), compact powder in Pb(2.50ng/g), eye liner in Mn(90.62ng/g). 4. The mean(GM) concentrations of heavy metal were different significantly (p<0.01) among colored cosmetics. The highest mean concentration of Cr, Ni, Cu and V were dark green- colored cosmetics, that of Mn was black-colored cosmetics, and that of Pb was ivory yellow-colored cosmetics.


Subject(s)
Chromium , Copper , Lip , Manganese , Nickel , Vanadium
3.
Korean Journal of Occupational and Environmental Medicine ; : 165-176, 1991.
Article in Korean | WPRIM | ID: wpr-113567

ABSTRACT

No abstract available.


Subject(s)
Toluene , Xylenes
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