Effects Aerosol of Industrial Bleach and Detergent Mixture on Mucosa Layer and Lamina Mucosa Conjunctiva in Mice
محورهای موضوعی :Gh. Vaezi 1 , M. Pourkazem 2 , F. Toosi 3 , F. Aliabadi 4
1 - Associate professor, Damghan Branch, Islamic Azad University, Damghan , Iran
2 - Department of Biology, Faculty of Science, Damghan Branch, Islamic Azad University, Damghan , Iran
3 - Department of Biology, Faculty of Science, Damghan Branch, Islamic Azad University, Damghan , Iran
4 - Department of Biology, Faculty of Science, Damghan Branch, Islamic Azad University, Damghan , Iran
کلید واژه: Mice, chlorine, Bleach, detergents, Mucosa layer, Lamina mucosa aerosol,
چکیده مقاله :
Today bleach and detergents are being frequently used and some people use their mixture for more cleaning. Because of chemical interaction of bleach and detergent, chlorine gas was released and thereby it could be dangerous for human health. This study examined the effects of exposed toxic mixture of bleach and detergent on the Mucosa layer and Lamina mucosa conjunctiva in the mice. In this study, 42 adult male mice NMRI race weighing 35-40 gr and from age 8 to 10 weeks were divided into 6 experimental groups and one control group. Experimental groups 1-2-3 with the use of chamber, the exposed 20 minutes were exposed to spray the amount 1 cc of mixture of bleach and detergent by nebulizer. Experimental groups 4-5-6 were for 35 minutes to inhale the same amount of material. Mice killed at 24-48-72 hours after exposed and the Mucosa Layer and Lamina mucosa conjunctiva tissue was studied pathology. In the study of microscopic sections prepared of mouse mucosa layer and Lamina mucosa conjunctiva tissue experimental group comparison with the control group, significant decrease was observed in mucosa layer the have (p ≤ 0.001) and significant decrease was observed in the Lamina mucosa have(p ≤ 0. 01, p ≤ 0.001). As a result, increasing the exposed time of mixing bleach and detergent, as time passed, increasing the tissue damage and changes.
- Haghighatpajoh H., Jamshidi R. Identifying and
- detergent technology, first printing, Publishing
- Mobtakeran, 2006. 15-9.
- Rojhan M. Color Atlas of Histology and
- practical, first printing, Soroush, 1992. 291-309.
- Blanc P.D., Galbo M., Hiatt P., Olson K.R.
- Morbidity following acute irritant inhalation in a
- population based study. JAMA, 1991. 266, 664-9.
- Barrow C.S., Alarie Y., Warrick J.C., Stock
- M.F. Comparison of the sensory irritation response
- in mice to chlorine and hydrogen chloride. Arch
- Environ Health. Mar-Apr, 1977. 32(2), 68-76.
- Bagchi K., Puri S. Free radicals and anti
- oxidants inhalation and disease, Eastern
- Mediterranean Health Journal, 1998.(45) 350-360.
- Dence C.W., Douglas W., Pulp Bleaching,
- Textile Association of Pulp and Paper
- Industry,1996. 65-69.
- Das R., Blanc P.D. Chlorine gas exposure and
- the lung: a review. Toxicol. Ind. Health, 1993.
- (3),439-55.
- Florian M., The nature and mechanism of
- superoxide production by the electron transport
- chain, Journal of Association of Physicians of
- India, 2003. 4, 227âââ253.
- Grime k., Class A. Laundry Bleaches and
- Activators, Chemistry and Industry,1990. 647- 49.
- Gapany-Gapanavicius M., Yellin A., Almog
- S., Tirosh M., Pneumomediastinum. A
- complication of chlorine exposure from mixing
- household cleaning agents. JAMA, Jul 16, 1982.
- (3), 349-50.
- Gilchrist H.L., Matz PB., The residual effects
- of warfare gases: the use of chlorine gas, with
- report of cases. Med. Bull. Vet. Adminis., 1933.
- b,9 , 229-270.
- Hedges J.R., Morrissey W.L., Acute chlorine
- gas exposure. JACEP, Feb, 1979. 8(2), 59-63.
- Hayaishi O., Enzymatic hydroxylation. Am
- Rev. Biochem, 1969. 38, 21-44.
- Harman D., Role of free radicals in aging and
- disease. Annals of New York Academy of
- Sciences, 1992. 673,126-141.
- Han D., Williams E., Cadenas E.,
- Mitochondrial respiratory chain-dependent
- generation of superoxide anion and its release into
- the intermembrane space. Biochem. J, 2001. 353,
- âââ6.
- gnaiJ K., Buckley L., Morgan k., Pathology of
- Toxic Responses to the RD50Concentration of
- Chlorine Gas in the Nasal Passages of Rats and
- Mice, Toxicol Appl Pharmacol (71),225-236.
- Jones R.N., Hughes J.M., Glindmeyer H.,
- Weill H., Lung function after acute chlorine
- exposure. Am. Rev. Resp. Dis., Dec, 1986. 134(6),
- -5.
- Klonne D., Ulrich C., Riley M., Hamm T.,
- Morgan K., Barrow C., One-year inhalation
- toxicology study of chlorine in rhesus monkeys,
- Fundam. Appl. Toxical., 9. 557-572.
- Malcolm B.H., Poisoning Due to Chlorine Gas,
- CARPIN; 81,42-45.
- Martinez T.T., Long C., Explosion risk from
- swimming pool chlorinators and review of
- chlorine toxicity. J. Toxicol. Clin. Toxicol., 1995.
- (4), 349-54.
- Patel R.P., The biochemistry of nitric oxide
- and peroxynitrite implications for mitochondrial
- function. In Packer L, Cadenas E Understanding
- the process of aging: the roles of mitochondria,
- free radicals, and antioxidants. New York, NY
- Marcel Dekker 2003. 45,39âââ56.
- Schwartz D.A., Acute inhalational injury.
- Occup. Med., Apr-Jun, 1987. 2(2),297-318.
- Trotman E.R., Textile scouring and bleaching
- Saudi Public, Textile Scouring and Bleaching,
- 89-94.