Study of the Antitoxic Effect of Unithiol on Cystamine in Dogs

DTIC Science & Technology

2008-08-01

Ionizing Radiation with the Aid of Unithiol. Radiazionnaya biologia . Radioecologia, 34(3): 424-429, 1994. 15a. Grachev S.A., Sverdlov A.G., Nikianorova N.G...and Timoshenko S.I., Influence of Unithiol on Toxic Effects of Cvstamine in Dogs. Radiazionnaya biologia . Radioecologia, 1998. (in press when final...Protection Against Fission Neutrons Using Unithiol. Radiazionnaya biologia . Radioecologia, 1998. (in press when final document submitted to DSWA). 16

[The activity of blood cholinesterase in rats exposed to dimethypo after drug intervention].

PubMed

Wan, Weiguo; Xu, Mailing; Zou, Hejian; Lu, Ailing; Shen, Xinyu; Chen, Yuming

2002-12-01

To investigate the activity of ChE in rats poisoned by dimehypo and then treated with pralidoxime methylchloride or unithiol. Rats were divided into control group (dimehypo); intervention groups [dimehypo plus pralidoxime methylchloride or dimehypo plus unithiol (sodium dimercaptopropanesulphonate)]. Rats were dosed with 4 different doses of dimehypo: 1/16, 1/8, 1/4 and 1/2 of LD50 respectively(the LD50 of dimehypo is 342 mg/kg). After being poisoned with dimehypo orally, rats were immediately injected intramuscularly with pralidoxime methylchloride or unithiol. The activity of ChE in blood was detected before and 1/2, 1, 2, 4 and 24 h after poisoning in dimehypo and intervention groups. The ChE activity of four dose subgroups at 1 h after poisoning were (1.04 +/- 0.21), (0.84 +/- 0.12), (0.71 +/- 0.12), (0.66 +/- 0.07) U/ml respectively; the ChE activity of pralidoxime methylchloride intervention groups were (1.01 +/- 0.18), (1.17 +/- 0.11), (1.01 +/- 0.04), (1.03 +/- 0.12) U/ml respectively; and the ChE activity of unithiol intervention groups were (1.15 +/- 0.15), (1.26 +/- 0.27), (1.08 +/- 0.08), (1.04 +/- 0.12) U/ml respectively. The inhibited ChE in blood was recovered by either treatment with pyraldoxime methylchloride or unithiol. These two drugs had similar effects of recovering the activity of ChE(P > 0.05), but at higher doses(1/4 and 1/2 of LD50) the effects of both were not so good. Pralidoxime methylchloride and unithiol could partly recover the activity of ChE inhibited by dimehypo.

DOE Office of Scientific and Technical Information (OSTI.GOV)

Grachev, S.A.; Chakchir, B.A.; Ryabykh, L.D.

The feasibility of radiation sterilization was studied on ephedrine hydrochloride, atropine sulfate, scopolamine hydrobromide, strychnine nitrate, morphine hydrochloride, codeine phosphate, proserine, cysteamine hydrochloride, and unithiol in form of injectable solutions and as powders. It was shown that the sterilizing dose of radioactivity results in a breakdown of the solutions as shown by changes in the pH, color, and loss of biological activity. Alkaloid powders exhibited no changes after radiation sterilization. Deaerated solutions were also stable to the radiation but such solutions could not be prepared easily under industrial conditions. Temperature had no effect on the stability of test samples exceptmore » for very low temperatures. (JPRS)« less

Inorganic mercury poisoning associated with skin-lightening cosmetic products.

PubMed

Chan, Thomas Y K

2011-12-01

Mercury and mercury salts, including mercurous chloride and mercurous oxide, are prohibited for use in cosmetic products as skin-lightening agents because of their high toxicity. Yet, the public continue to have access to these products. Reports of skin-lightening cosmetic products containing mercury and cases of mercury poisoning following the use of such products were identified using Medline (1950 - 28 March 2011) with mercury, mercury compounds, mercury poisoning, cosmetics and skin absorption as the subject headings. These searches identified 118 citations of which 31 were relevant. The rate of dermal absorption increases with the concentration of mercury and prior hydration of the skin. The degree of dermal absorption varies with the skin integrity and lipid solubility of the vehicle in the cosmetic products. Ingestion may occur after topical application around the mouth and hand-to-mouth contact. After absorption, inorganic mercury is distributed widely and elimination occurs primarily through the urine and feces. With long-term exposure, urinary excretion is the major route of elimination. The half-life is approximately 1-2 months. The kidneys are the major site of inorganic mercury deposition; renal damage includes reversible proteinuria, acute tubular necrosis and nephrotic syndrome. Gastrointestinal symptoms include a metallic taste, gingivostomatitis, nausea and hypersalivation. Although penetration of the blood-brain barrier by inorganic mercury is poor, prolonged exposure can result in central nervous system (CNS) accumulation and neurotoxicity. Inorganic mercury poisoning following the use of skin-lightening creams has been reported from Africa, Europe, USA, Mexico, Australia and Hong Kong. Nephrotic syndrome (mainly due to minimal change or membranous nephropathy) and neurotoxicity were the most common presenting features. As mercury-containing cosmetic products can contaminate the home, some close household contacts were also reported to have elevated urine mercury concentrations. Prevention from further exposure is the first step. Cream users and their close contacts should be evaluated for evidence of mercury exposure, the presence of target organ damage and the need for chelation treatment. Laboratory evaluation of affected subjects should include a complete blood count, serum electrolytes, liver and renal function tests, urinalysis, urine and blood mercury concentrations. Since blood mercury concentrations tend to return to normal within days of exposure, blood samples are useful primarily in short-term, higher-level exposures. Estimation of the urine mercury concentration is the best marker of exposure to inorganic mercury and indicator of body burden. A 24-hour urine for measurement of mercury excretion is preferred; a spot urine mercury concentration should be corrected for creatinine output. Chelation therapy is indicated in patients with features of mercury poisoning and elevated blood and/or urine mercury concentrations. Unithiol (2,3-dimercapto-1-propanesulfonic acid, DMPS) is the preferred antidote though succimer (dimercaptosuccinic acid, DMSA) has also been employed. The use of mercury in cosmetic products should be strictly prohibited. The public should be warned not to use such products as their use can result in systemic absorption and accumulation of mercury causing renal, gastrointestinal and CNS toxicity.