Buradasınız

Anasayfa » Content

Testis Dokusunda Kurşun Toksisitesi ve Eser Element İlişkisi Üzerine Selenyum ve Kateşinin Rolü

The role of selenium and catechin on relation between lead toxicity and trace elements in testis tissue

Journal Name:

  • Cerrahpaşa Tıp Dergisi

Publication Year:

  • 2007

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
Lead is one of the toxic and carcinogenic heavy metal for organism. Being exposed to the metal especially is realized via environmental pollution and their wide range usage in industrial field. The present study was planned to determine the possible effects of lead on of trace elements concentrations in testis tissue and. protective roles of selenium and +(-) catechin against the toxic effects of lead. The study has been performed in Wistar Albino type rats which divided into four groups as control, lead, lead+selenium and lead+catechin received groups. The experimental groups have received lead acetate, sodium selenite and +(-) catechin via their drinking water for thirty days. Besides lead as heavy metal and trace element concentrations and were performed in testis tissue of rats. In the plasma lipid peroxidation measurements were also performed. The accumulation of the lead was observed in testis tissue during experimental period. In the testis tissue of lead and lead+catechin applied groups, an increased lipid peroxidation was observed. In all other group testis tissue weights found to be lightened compare to control group. Selenium applied group trace element concentrations were found to be about showed no change when compared to controls but in catechin applied group no such a result has been detected. As a result of present study it may be concluded that; in determination of lead toxicity, malondialdehyde measurements have to be evaluated besides measurements of tissue element concentration. And administration of selenium may be helpful against the toxic effect of lead in tissue.
Bookmark/Search this post with
FULL TEXT (PDF): 
PDF icon arastirmax-testis-dokusunda-kursun-toksisitesi-eser-element-iliskisi-uzerine-selenyum-katesinin-rolu.pdf
  • 3
95 - 98
  • Turkish

REFERENCES

References: 

1. Brzoska MM, Jakoniuk JM, Jurczuk M, et.al. The effect
of zinc supply on cadmium-induced changes in the
tibia of rats. Food and Chemical Toxicology 2001; 39:
729-737.
2. Skerfving S, Gerhardsson L, Schütz A, Strömberg U.
Lead- biological monitoring of exposure and effects.
The Journal of Trace Elements in Experimental Medicine
1998; 11: 289-301.
3. Cross CE, Halliwell B, Borish ET, et al. Oxygen radicals
and human disease. Ann Intern Med 1987; 107: 526-
545.
4. Gürer H, Ercal N. Can antioxidants be beneficial in
the treatment of lead poisoning? Free Radical Biology
& Medicine 2000; 29: 927-945.
5. Kurt H, Başaran A, Musmul A. Sıçanlarda karbon tetraklorit
(CCl4)’in oluflturduğu oksidatif stresin kateşin
ile önlenmesi. Medical Journal of Kocatepe 2004; 5:
29-34.
6. Altug T, Apaydın BB, Çerçel A, ve ark. (+)– Catechin‘in
s›çanlarda oluflturulan meme karsinomu üzerine koruyucu
etkisi. Meme Hastalıkları Dergisi 2001; 8: 5-10.
7. Jamba L, Nehru B, Bansal MP. Effect of selenium supple
mentation on the influence of cadmium on glutathio-
98
ne and glutathione peroxidase system in mouse liver.
The Journal of Trace Elements in Experimental Medicine
2000; 13: 299-304.
8. Amara S, Abdelmelek H, Garrel C, et al. Preventive
effect of zinc against cadmium-induced oxidative stres
in the rat testis. Journal of Reproduction and Development
2007; 4: 1-23.
9. Özçelik D, Toplan S, Darıyerli N. Dietle al›nan kurşunun
eritrosit osmotik direnç ve kan viskozitesine etkilerinin
araştırılması. Cerrahpaşa Tıp Derg 2000; 31:
125-186.
10. Jane V. Higdon, Balz Frei. Tea catechins and polyphenols:
Health effects, metabolism, and antioxidant
functions. Critical Reviews in Food Science and Nutrition
2003; 43: 89-143.
11. Brown A and Taylor A. Applications of aslotted quartz
tube and flame atomic absorption spectrophotometry
to the analysis of biological samples. Analyst 1985;
110: 579-582.
12. Buege JA, Aust ST. Microsomal lipid peroxidation.
Methods Enzymol 1985; 5: 302-310.
13. Adonaylo VN, Oteiza PI. Lead intoxication: antioxidant
defenses and oxidative damage in rat brain. Toxicology
1999; 135: 77-85.
14. Adler AJ, Barth RH, Berlyne GM. Effect of lead on
oxygen free radical metabolism. Trace Elements in
Medicine 1993; 10: 93-96.
15. Azza I.Othman and Mohammed A.El Missiry. Role
of selenium against lead toxicity in male rats. J Biochem
Molecular Toxicology 1998; 12: 345-349.
16. Tandon SK, Singh S. Role of vitamins in treatment of
lead intoxication. The Journal of Trace Elements in
Experimental Medicine 2000; 13: 305-315.
17. Batra N, Nehru B, Bansal MP. The effect of zinc supplementation
on the effects of lead on the rat testis.
Reproductive Toxicology 1998; 12: 535-540.
18. Seymen HO, Mengi M, Özçelik D. Effect of iron overloading
on the plasma copper and the zinc levels.
Cerrahpafla Tıp Derg 1999; 30: 155-158.
19. Evans GW, Hahn CJ. Copper-and zinc- binding components
in rat intestine. Adv Exp Med Biol 1974; 48:
285-297.
20. Komatsu M, Hiramatsu M. Teh efficacy of an antioxidant
cocktail on lipid peroxide level and superoxide
dismutase activity in aged rat brain and DNA damage
in iron-induced epileptogenetic foci. Toxicol 2000;
48: 143-148.
21. Karaman B, Belce A, Altu¤ T. Kanserde kateflinlerin
rolü. Türk Onkoloji Dergisi, 2000; 15: 123-136.
22. Choi JH, Chang HW, Rhee SJ. Effect of green tea catechin
on arachidonic acid cascade in chronic cadmium-
poisoned rats. Asia Pacific J Clin Nutr 2002; 1:
292-297.

Thank you for copying data from http://www.arastirmax.com