ACUTE TOXICITY WATER EXTRACT OF Meretrix meretrix Linnaeus IN VIVO ON SPRAGUE DAWLEY RATS

Authors

  • Azwin Apriandi Fisheries Product Technology Study Program, Raja Ali Haji Maritim University, Politeknik Street Author
  • Kustiariyah Tarman Aquatic Product Technology of Department, Bogor Agricultural University, Lingkar Akademik Street Bogor Author
  • Purwantiningsi Sugita Chemistry of Department, Bogor Agricultural University, Lingkar Akademik Street, Bogor Author

DOI:

https://doi.org/10.31258/

Keywords:

Histopatology, Kidney, Liver, Meretrix meretrix, Water extract

Abstract

Meretrix meretrix empirically has been widely believed by the public to a wide variety of health benefits. It is necessary to do an analysis of the level of toxicity of Meretrix meretrix extract. The experiment was carried out extraction sample with water (1;4) (w/v), analysis of acute toxicity Meretrix meretrix extract with the OECD method 403:2009. Based on the results of water extract of Meretrix meretrix no effect on physical observations of test animals with LD50> 15 g/kg BW. Histopathological observation on the liver and kidneys, there is necrosis of the liver cells and some cell degeneration in the kidneys, but on the whole network under normal conditions appropriate control group.

Downloads

Download data is not yet available.

References

1. Apriandi A, Tarman K, Purwantiningsih S. (2016). Toksisitas subkronis ekstrak air kerang lamis secara in vivo pada tikus Sprague Dawley. Jurnal Pengolahan Hasil Perikanan Indonesia 19(2):177-183.

2. Xu XL, Li TM, Zhang CR. (1999). Study on anti hyperglycemia and anti hyperlipidemia action of hydrolysate of Meretrix meretrix Linnaeus. Chinese Journal of Biochemical Pharmaceutics, 20(6):298-299

3. Wei N, Lin XK, Niu RL, Li HY. (2007). Overview on anticancer agent from Meretrix meretrix. Food and Drug, 9(11):63-68.

4. Zhao GD, Su B. (1997). The preliminary studies on the lectin from sea clam Meretrix meretrix. Natural science, 31(3):66-74.

5. Huang ZH, Chen YX, Zhao Y, Zuo ZH, Chen M. (2005). Antioxidant responses in Meretrix meretrix exposed to environmentally relevant doses of tributyltin. Environmental Toxicology and Pharmacology, 20(1): 107-117.

6. Yu ZL, Dou CG, Jiang WJ. (1991). Effect of hydrolisate of Meretrix meretrix flesh on immunologic function in mince. Chinese Journal of Marine Drug, 40(4):15-22

7. He YJ, Wu Q, Zhu RF. (1995). Immunomodulating effect of the extract from clam Meretrix meretrix on delayed hypersensitivity in mice. Chinese Journal of Marine Drugs, 55(3):20-21

8. Zhang LX, Fan X, Han LJ. (2005). Antitumor and immune regulation activities of the extractof same Chinese marine invertebrates. Chinese Journal of Oceanology and Limnology, 23(1):110-117

9. Zheng GX, Fan CC, Kang JH, Leng B. (2008). Inhibition effect of polypeptide from Meretrix meretrix on liver cancer cells SMMC-7721 and its physiological studies on mice. Journal of Xiamen University, 47(2):138-1

10. Xie W, Chen C, Liu X, Wang C, Sun Y, Yan M, Zhang X. (2012). Meretrix meretrix: active components and their bioactivities. Life Science Journal, 9(3):756-762

11. Zhang XJ, Xing YP. (1990). Studies on anti cancer activity of Meretrix meretrix nucleic acid. Chinese Journal of Oceanology and Limnology, 21(1):88-91.

12. Yuan Q, Yuan H. (2007). Effect of Meretrix meretrix Polysacarides on blood sugar regulation and stress response in the experimental diabetic rats. Chinese Journal of Modern Applied Pharmacy, 4(2):113-117.

13. Siregar CJP, Sri, Sanggariwati, Sukirno, Yuharni, Srikandi D. (1991). Prosedur Operasional Baku Uji Toksisitas. Pusat pemeriksaan Obat dan Makanan. WHO Collaborating Centre for Quality Assurance of Essential Drugs. Dirjen POM, DepKes RI.

14. Lu FC. (1995). Basic Toxicology: Fundamental, Target Organs and Risk Assasement. 2nd Ed. New York: Hemisphere Publ. Co.

15. Balls M, James, Jacqualine. (1991). Animals and Alternative in Toxicology. Great Britain at the University Press, Cambridge

16. Levine S, Saltzman A. (1999). Effect of coprophagy on serum urea and the weight of the gastrointestinal tract of fed or fasted rats. J. Laboratory Animals, 33:265-268

17. Lu FC. 2006. Toksikologi Dasar. Jakarta: UI Press

18. Cheville NF. (2006). Introduction to Veterinary Pathology 2nd ed. Lowa State University Press-AMES

19. Sudiono J, Kurniadhi B, Hendarawan A, Djimantoro B. (2003). Ilmu Patologi. Jakarta: EGC

20. Harborne JB. (1984). Phytochemical Methods Ed-2. New York: Champan and Hall.

21. Robinson T. (1995). Kandungan Organik Tumbuhan Tinggi. Edisi ke 6. Padmawinata K, Penerjemah. Bandung: ITB. Terjemahan dari: The organic constituent of higher plants.

22. Hoffmann JJ, Mujoo K, Haridas V, Wachler. (2001). Triterpenoid saponins from Acacia victoriae decrease tumor cell proliferation and induce apoptosis. J Cancer Research, 61:5486-5490.

23. Kang L, Chen X, Sebastian BM, et al. (2007) Chronic ethanol and triglyceride turnover in white adipose tissue in rats: Inhibition of the anti-lipolytic action of insulin after chronic ethanol contributes to increased triglyceride degradation. Journal of Biological Chemistry 282

24. Casarett dan Doull’s. (1986). Toxicology: The Basic Science of Poisons 3 Ed. New York: Maximillian Publishing Company.

25. Spector WG dan Spector TD. (1993). Pengantar Patologi Umum Ed 3. Soetjipto, Harsoyo, Hana A, Astuti P, Penerjemah. Longman Group Limited UK. Terjemahan dari: An Introduction to General Pathology.

Downloads

Published

2021-12-21

Issue

Vol. 4 No. 3 (2021): December

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.