How to cite this paper
Hosain, F., Islam, M., Ragib, A., Islam, M & Islam, T. (2021). Effectiveness of zinc oxide nanoparticles against helminthiasis: a preliminary investigation conducted on Pheretima posthuma.Current Chemistry Letters, 10(2), 81-88.
Refrences
1. Li, L. Z., Zhou, D. M., Peijnenburg, W. J., Van Gestel, C. A., Jin, S. Y., Wang, Y. J., and Wang, P. (2011) Toxicity of zinc oxide nanoparticles in the earthworm, Eisenia fetida and subcellular fractionation of Zn. Environ. Int., 37(6), 1098-1104.
2. Stoimenov, P. K., Klinger, R. L., Marchin, G. L., and Klabunde, K. J. (2002) Metal oxide nanoparticles as bactericidal agents. Langmuir, 18(17), 6679-6686.
3. Fu, G., Vary, P. S., and Lin, C. T. (2005) Anatase TiO2 nanocomposites for antimicrobial coatings. J. Phys. Chem. B, 109(18), 8889-8898.
4. Yamamoto, O. (2001) Influence of particle size on the antibacterial activity of zinc oxide. Int. J. Inorg. Mater., 3(7), 643-646.
5. Yamamoto, O., Nakakoshi, K., Sasamoto, T., Nakagawa, H., and Miura, K. (2001) Adsorption and growth inhibition of bacteria on carbon materials containing zinc oxide. Carbon, 39(11), 1643-1651.
6. Yamamoto, O., and Sawai, J. (2001) Preparation and characterization of novel activated carbons with antibacterial function. Bull. Chem. Soc. Jpn., 74(9), 1761-1765.
7. Roselli, M., Finamore, A., Garaguso, I., Britti, M. S., and Mengheri, E. (2003) Zinc oxide protects cultured enterocytes from the damage induced by Escherichia coli. J. nutr., 133(12), 4077-4082.
8. Darezereshki, E., Alizadeh, M., Bakhtiari, F., Schaffie, M., and Ranjbar, M. (2011) A novel thermal decomposition method for the synthesis of ZnO nanoparticles from low concentration ZnSO4 solutions. Appl. Clay Sci., 54(1), 107-111.
9. Tari, O., Aronne, A., Addonizio, M. L., Daliento, S., Fanelli, E., and Pernice, P. (2012) Sol–gel synthesis of ZnO transparent and conductive films: A critical approach. Sol. Energy Mater. Sol. Cells, 105, 179-186.
10. Schmitt, R. F., Allen, J. W., and Wright, R. (2001) Rapid design of SAW oscillator electronics for sensor applications. Sens. Actuators, B: Chem., 76(1-3), 80-85.
11. Kamat, P. V., Huehn, R., and Nicolaescu, R. (2002) A “sense and shoot” approach for photocatalytic degradation of organic contaminants in water. J. Phys. Chem. B, 106(4), 788-794.
12. Sharma, P., Sreenivas, K., and Rao, K. V. (2003) Analysis of ultraviolet photoconductivity in ZnO films prepared by unbalanced magnetron sputtering. J. Appl. Phys., 93(7), 3963-3970.
13. Jun, W., Changsheng, X., Zikui, B., Bailin, Z., Kaijin, H., and Run, W. (2002) Preparation of ZnO-glass varistor from tetrapod ZnO nanopowders. Mater. Sci. Eng., B, 95(2), 157-161.
14. Hames, Y., Alpaslan, Z., Kösemen, A., San, S. E., and Yerli, Y. (2010) Electrochemically grown ZnO nanorods for hybrid solar cell applications. Sol. Energy, 84(3), 426-431.
15. Topoglidis, E., Cass, A. E., O'Regan, B., and Durrant, J. R. (2001) Immobilization and bioelectrochemistry of proteins on nanoporous TiO2 and ZnO films. J. Electroanal. Chem., 517(1-2), 20-27.
16. Cheng, X. L., Zhao, H., Huo, L. H., Gao, S., and Zhao, J. G. (2004) ZnO nanoparticulate thin film: preparation, characterization and gas-sensing property. Sens. Actuators, B: Chem., 102(2), 248-252.
17. Gao, P. X., Ding, Y., Mai, W., Hughes, W. L., Lao, C., and Wang, Z. L. (2005) Conversion of zinc oxide nanobelts into superlattice-structured nanohelices. Science, 309(5741), 1700-1704.
18. Huang, H. M., Mao, S., Feick, H., Yan, H., Wu, Y., Kind, H., Weber, E., Russo, R., and Yang, P. (2001) Room-temperature ultraviolet nanowire nanolasers. Science, 292 (5523), 1897-1899.
19. Yahya, N., Daud, H., Tajuddin, N. A., Daud, H. M., Shafie, A., and Puspitasari, P. (2010) Application of ZnO nanoparticles EM wave detector prepared by sol-gel and self-combustion techniques. J. Nano Res., 11 (25-34), 1661-9897.
20. Charinpanitkul, T., Faungnawakij, K., and Tanthapanichakoon, W. (2008) Review of recent research on nanoparticle production in Thailand. Adv. Powder Technol., 19(5), 443-457.
21. Yu, W., Li, X., and Gao, X. (2005) Catalytic synthesis and structural characteristics of high-quality tetrapod-like ZnO nanocrystals by a modified vapor transport process. Cryst. Growth Des., 5(1), 151-155.
22. Zak, A. K., Abrishami, M. E., Majid, W. A., Yousefi, R., and Hosseini, S. M. (2011) Effects of annealing temperature on some structural and optical properties of ZnO nanoparticles prepared by a modified sol–gel combustion method. Ceram. Int., 37(1), 393-398.
23. Raoufi, D. (2013) Synthesis and microstructural properties of ZnO nanoparticles prepared by precipitation method. Renew. Energy, 50, 932-937.
24. Lanje, A. S., Sharma, S. J., Ningthoujam, R. S., Ahn, J. S., and Pode, R. B. (2013) Low temperature dielectric studies of zinc oxide (ZnO) nanoparticles prepared by precipitation method. Adv. Powder Technol., 24(1), 331-335.
25. Chen, C., Liu, P., and Lu, C. (2008) Synthesis and characterization of nano-sized ZnO powders by direct precipitation method. Chem. Eng. J., 144(3), 509-513.
26. Hu, X. L., Zhu, Y. J., and Wang, S. W. (2004) Sonochemical and microwave-assisted synthesis of linked single-crystalline ZnO rods. Mater. Chem. phys., 88(2-3), 421-426.
27. Hong, R. Y. (2005) Nanosized ZnO prepared by microwave homogeneous precipitation and its photocatalytic property. Chin. J. Process Eng., 5, 693-697.
28. Sato, T., Tanigaki, T., Suzuki, H., Saito, Y., Kido, O., Kimura, Y., and Kaneko, S. (2003) Structure and optical spectrum of ZnO nanoparticles produced in RF plasma. J. Cryst. Growth, 255(3-4), 313-316.
29. Zhai, H. J., Wu, W. H., Lu, F., Wang, H. S., and Wang, C. (2008) Effects of ammonia and cetyltrimethylammonium bromide (CTAB) on morphologies of ZnO nano-and micromaterials under solvothermal process. Mater. Chem. phys., 112(3), 1024-1028.
30. Suleiman, M. M., Mamman, M., Aliu, Y. O., & Ajanusi, J. O. (2005) Anthelmintic activity of the crude methanol extract of Xylopia aethiopica against Nippostrongylus brasiliensis in rats. Veterinarski arhiv, 75(6), 487.
31. Khan, Y. A., Singh, B. R., Ullah, R., Shoeb, M., Naqvi, A. H., and Abidi, S. M. (2015) Anthelmintic effect of biocompatible zinc oxide nanoparticles (ZnO NPs) on Gigantocotyle explanatum, a neglected parasite of Indian water buffalo. PloS One, 10(7).
32. Gusatti, M., Rosário, J. A., Barroso, G. S., Campos, C. E., Riella, H. G., and Kunhen, N. C. (2014) Synthesis of ZnO nanostructures in low reaction temperature. Chem. Eng. Transactions, Italy, 17, 1017-1022.
33. Lanje, A. S., Sharma, S. J., Ningthoujam, R. S., Ahn, J. S., and Pode, R. B. (2013) Low temperature dielectric studies of zinc oxide (ZnO) nanoparticles prepared by precipitation method. Adv. Powder Technol., 24(1), 331-335.
34. Ajaiyeoba, E. O., Onocha, P. A., and Olarenwaju, O. T. (2001) In vitro anthelmintic properties of Buchholzia coriaceae and Gynandropsis gynandra extracts. Pharm. biol., 39(3), 217-220.
35. Kumar, A., Lakshman, K., Jayaveera, K. N., Nandeesh, R., Manoj, B., and Ranganayakulu, D. (2010) Comparative in vitro anthelmintic activity of three plants from the Amaranthaceae family. Arch. Biol. Sci., 62(1), 185-189.
36. Kokate, C. K. (1999) Practical Pharmacognosy, 4th Ed., Vallabha Prakashan, New Delhi.
37. Deore, S.L., Khadabadi, S. S., Kamdi, K. S., Ingle, V. P., Kawalkar, N.G., Sawarkar, P.S., Patil, U.A., and Vyas, A.J. (2009) In vitro anthelmintic activity of Cassia tora. Int. J. ChemTech Res., 1(2), 177-179.
38. Vidyarthi, R. D. (1977) A Text Book of Zoology, 14th Ed., S. Chand and Co, New Delhi.
39. Jung, R. C. (1982) Update I—Harrison's Principles of Internal Medicine with CME Examination. Am. J. Trop. Med. Hyg., 31(1), 172-173.
40. Vigar, Z. (1984) Atlas of Medical Parasitology, 2nd Ed., PG Publishing House, Singapore.
41. Shivkar, Y. M., and Kumar, V. L. (2003) Anthelmintic activity of latex of Calotropis procera. Pharm. biol., 41(4), 263-265.
42. Islam, M. S., Moghal, M. M., Ahamed, S. K., Ahmed, J., & Islam, M. A. (2013) A study on cytotoxic and anthelmintic activities of crude extract of leaves of Clerodendrum viscosum. Int. Res. J. Pharm., 4(1), 99-102.
2. Stoimenov, P. K., Klinger, R. L., Marchin, G. L., and Klabunde, K. J. (2002) Metal oxide nanoparticles as bactericidal agents. Langmuir, 18(17), 6679-6686.
3. Fu, G., Vary, P. S., and Lin, C. T. (2005) Anatase TiO2 nanocomposites for antimicrobial coatings. J. Phys. Chem. B, 109(18), 8889-8898.
4. Yamamoto, O. (2001) Influence of particle size on the antibacterial activity of zinc oxide. Int. J. Inorg. Mater., 3(7), 643-646.
5. Yamamoto, O., Nakakoshi, K., Sasamoto, T., Nakagawa, H., and Miura, K. (2001) Adsorption and growth inhibition of bacteria on carbon materials containing zinc oxide. Carbon, 39(11), 1643-1651.
6. Yamamoto, O., and Sawai, J. (2001) Preparation and characterization of novel activated carbons with antibacterial function. Bull. Chem. Soc. Jpn., 74(9), 1761-1765.
7. Roselli, M., Finamore, A., Garaguso, I., Britti, M. S., and Mengheri, E. (2003) Zinc oxide protects cultured enterocytes from the damage induced by Escherichia coli. J. nutr., 133(12), 4077-4082.
8. Darezereshki, E., Alizadeh, M., Bakhtiari, F., Schaffie, M., and Ranjbar, M. (2011) A novel thermal decomposition method for the synthesis of ZnO nanoparticles from low concentration ZnSO4 solutions. Appl. Clay Sci., 54(1), 107-111.
9. Tari, O., Aronne, A., Addonizio, M. L., Daliento, S., Fanelli, E., and Pernice, P. (2012) Sol–gel synthesis of ZnO transparent and conductive films: A critical approach. Sol. Energy Mater. Sol. Cells, 105, 179-186.
10. Schmitt, R. F., Allen, J. W., and Wright, R. (2001) Rapid design of SAW oscillator electronics for sensor applications. Sens. Actuators, B: Chem., 76(1-3), 80-85.
11. Kamat, P. V., Huehn, R., and Nicolaescu, R. (2002) A “sense and shoot” approach for photocatalytic degradation of organic contaminants in water. J. Phys. Chem. B, 106(4), 788-794.
12. Sharma, P., Sreenivas, K., and Rao, K. V. (2003) Analysis of ultraviolet photoconductivity in ZnO films prepared by unbalanced magnetron sputtering. J. Appl. Phys., 93(7), 3963-3970.
13. Jun, W., Changsheng, X., Zikui, B., Bailin, Z., Kaijin, H., and Run, W. (2002) Preparation of ZnO-glass varistor from tetrapod ZnO nanopowders. Mater. Sci. Eng., B, 95(2), 157-161.
14. Hames, Y., Alpaslan, Z., Kösemen, A., San, S. E., and Yerli, Y. (2010) Electrochemically grown ZnO nanorods for hybrid solar cell applications. Sol. Energy, 84(3), 426-431.
15. Topoglidis, E., Cass, A. E., O'Regan, B., and Durrant, J. R. (2001) Immobilization and bioelectrochemistry of proteins on nanoporous TiO2 and ZnO films. J. Electroanal. Chem., 517(1-2), 20-27.
16. Cheng, X. L., Zhao, H., Huo, L. H., Gao, S., and Zhao, J. G. (2004) ZnO nanoparticulate thin film: preparation, characterization and gas-sensing property. Sens. Actuators, B: Chem., 102(2), 248-252.
17. Gao, P. X., Ding, Y., Mai, W., Hughes, W. L., Lao, C., and Wang, Z. L. (2005) Conversion of zinc oxide nanobelts into superlattice-structured nanohelices. Science, 309(5741), 1700-1704.
18. Huang, H. M., Mao, S., Feick, H., Yan, H., Wu, Y., Kind, H., Weber, E., Russo, R., and Yang, P. (2001) Room-temperature ultraviolet nanowire nanolasers. Science, 292 (5523), 1897-1899.
19. Yahya, N., Daud, H., Tajuddin, N. A., Daud, H. M., Shafie, A., and Puspitasari, P. (2010) Application of ZnO nanoparticles EM wave detector prepared by sol-gel and self-combustion techniques. J. Nano Res., 11 (25-34), 1661-9897.
20. Charinpanitkul, T., Faungnawakij, K., and Tanthapanichakoon, W. (2008) Review of recent research on nanoparticle production in Thailand. Adv. Powder Technol., 19(5), 443-457.
21. Yu, W., Li, X., and Gao, X. (2005) Catalytic synthesis and structural characteristics of high-quality tetrapod-like ZnO nanocrystals by a modified vapor transport process. Cryst. Growth Des., 5(1), 151-155.
22. Zak, A. K., Abrishami, M. E., Majid, W. A., Yousefi, R., and Hosseini, S. M. (2011) Effects of annealing temperature on some structural and optical properties of ZnO nanoparticles prepared by a modified sol–gel combustion method. Ceram. Int., 37(1), 393-398.
23. Raoufi, D. (2013) Synthesis and microstructural properties of ZnO nanoparticles prepared by precipitation method. Renew. Energy, 50, 932-937.
24. Lanje, A. S., Sharma, S. J., Ningthoujam, R. S., Ahn, J. S., and Pode, R. B. (2013) Low temperature dielectric studies of zinc oxide (ZnO) nanoparticles prepared by precipitation method. Adv. Powder Technol., 24(1), 331-335.
25. Chen, C., Liu, P., and Lu, C. (2008) Synthesis and characterization of nano-sized ZnO powders by direct precipitation method. Chem. Eng. J., 144(3), 509-513.
26. Hu, X. L., Zhu, Y. J., and Wang, S. W. (2004) Sonochemical and microwave-assisted synthesis of linked single-crystalline ZnO rods. Mater. Chem. phys., 88(2-3), 421-426.
27. Hong, R. Y. (2005) Nanosized ZnO prepared by microwave homogeneous precipitation and its photocatalytic property. Chin. J. Process Eng., 5, 693-697.
28. Sato, T., Tanigaki, T., Suzuki, H., Saito, Y., Kido, O., Kimura, Y., and Kaneko, S. (2003) Structure and optical spectrum of ZnO nanoparticles produced in RF plasma. J. Cryst. Growth, 255(3-4), 313-316.
29. Zhai, H. J., Wu, W. H., Lu, F., Wang, H. S., and Wang, C. (2008) Effects of ammonia and cetyltrimethylammonium bromide (CTAB) on morphologies of ZnO nano-and micromaterials under solvothermal process. Mater. Chem. phys., 112(3), 1024-1028.
30. Suleiman, M. M., Mamman, M., Aliu, Y. O., & Ajanusi, J. O. (2005) Anthelmintic activity of the crude methanol extract of Xylopia aethiopica against Nippostrongylus brasiliensis in rats. Veterinarski arhiv, 75(6), 487.
31. Khan, Y. A., Singh, B. R., Ullah, R., Shoeb, M., Naqvi, A. H., and Abidi, S. M. (2015) Anthelmintic effect of biocompatible zinc oxide nanoparticles (ZnO NPs) on Gigantocotyle explanatum, a neglected parasite of Indian water buffalo. PloS One, 10(7).
32. Gusatti, M., Rosário, J. A., Barroso, G. S., Campos, C. E., Riella, H. G., and Kunhen, N. C. (2014) Synthesis of ZnO nanostructures in low reaction temperature. Chem. Eng. Transactions, Italy, 17, 1017-1022.
33. Lanje, A. S., Sharma, S. J., Ningthoujam, R. S., Ahn, J. S., and Pode, R. B. (2013) Low temperature dielectric studies of zinc oxide (ZnO) nanoparticles prepared by precipitation method. Adv. Powder Technol., 24(1), 331-335.
34. Ajaiyeoba, E. O., Onocha, P. A., and Olarenwaju, O. T. (2001) In vitro anthelmintic properties of Buchholzia coriaceae and Gynandropsis gynandra extracts. Pharm. biol., 39(3), 217-220.
35. Kumar, A., Lakshman, K., Jayaveera, K. N., Nandeesh, R., Manoj, B., and Ranganayakulu, D. (2010) Comparative in vitro anthelmintic activity of three plants from the Amaranthaceae family. Arch. Biol. Sci., 62(1), 185-189.
36. Kokate, C. K. (1999) Practical Pharmacognosy, 4th Ed., Vallabha Prakashan, New Delhi.
37. Deore, S.L., Khadabadi, S. S., Kamdi, K. S., Ingle, V. P., Kawalkar, N.G., Sawarkar, P.S., Patil, U.A., and Vyas, A.J. (2009) In vitro anthelmintic activity of Cassia tora. Int. J. ChemTech Res., 1(2), 177-179.
38. Vidyarthi, R. D. (1977) A Text Book of Zoology, 14th Ed., S. Chand and Co, New Delhi.
39. Jung, R. C. (1982) Update I—Harrison's Principles of Internal Medicine with CME Examination. Am. J. Trop. Med. Hyg., 31(1), 172-173.
40. Vigar, Z. (1984) Atlas of Medical Parasitology, 2nd Ed., PG Publishing House, Singapore.
41. Shivkar, Y. M., and Kumar, V. L. (2003) Anthelmintic activity of latex of Calotropis procera. Pharm. biol., 41(4), 263-265.
42. Islam, M. S., Moghal, M. M., Ahamed, S. K., Ahmed, J., & Islam, M. A. (2013) A study on cytotoxic and anthelmintic activities of crude extract of leaves of Clerodendrum viscosum. Int. Res. J. Pharm., 4(1), 99-102.