Collection of scientific works Nanosystems, nanomaterials, nanotechnologies Year 2021 Volume 19, Issue 2
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P. M. Skljarov, S. J. Fedorenko, S. V. Naumenko, O. V. Onyshchenko, M. M. Ivanchenko, V. K. Klochkov, S. L. Yefimova, V. G. Prudnikov, Yu. V. Malyukin
«The Use of Nanobiomaterials in Veterinary Reproductology»
0445–0473 (2021)

PACS numbers: 01.30.Rr, 81.07.-b, 87.10.Vg, 87.18.Nq, 87.85.Rs

In recent years, the use of nanotechnology in human and veterinary medicine has made great progress, which could be a major breakthrough in addressing certain problems, including in the field of animal reproduction. Examples of potential applications make it possible to introduce nanotechnological methods of regulating reproductive function into practice more widely to promote livestock development. Studying the action of nanoparticles of dioxide silicon allows to optimize the methods of cryopreservation of sperm, promotes understanding of the mechanisms of functioning of germ cells, ovarian follicles and embryos. Prospective biocidal nanopreparations have been developed, the use of which provides for the increases of animal fertilization, immunobiological resistance, prevention of infertility and obtaining a healthy offspring. Nanoacquahelates have a modifying effect on physiological processes in animals, which is reflected in the activation of biosynthetic and energy processes in the body, stimulation of the cellular level of immunity. Use of them for both the treatment of animals suffering from mastitis and the stimulation of their reproductive function is suggested. In order to increase the therapeutic efficacy of the vitamin and hormone preparations, the addition of cerium-dioxide nanoparticles and rare-earth elements is used. Their application allows optimizing individual indicators of homeostasis and prooxidant-antioxidant system, to normalize the structure and function of the fetoplacental complex of pregnant animals and to increase the potential of newborn development, the effectiveness of therapy of females with mastodystrophy and gonadopathies, and males with andrological pathology. However, the precise mechanisms of the influence of nanoparticles on the body is still unknown; moreover, there are publications on the potential toxicity of nanoparticles that necessitates specific hypotheses and understanding of certain aspects of research. Thus, as nanotechnologies are in the early stages of development, it may take some time to produce meaningful results to perform the necessary research and clinical trials. This tool, which will evolve over the next few decades, will have major implications in veterinary science and reproduction inclusive.

Keywords: veterinary reproductology, nanotechnology, nanobiomaterials, nanoparticles

https://doi.org/10.15407/nnn.19.02.445

References
 1. R. Feynman, Miniaturization (Ed. H. D. Gilbert) (New York: Reinhold: 1961), p. 282.
2. G. K. Binnig and H. Rohrer, Rev. Mod. Phys., 59: 615 (1987); https://doi.org/10.1103/revmodphys.59.615
3. M. C. Roco, J. Nanopart. Res., 3, Nos. 5–6: 353 (2001).
4. V. M. Buren’ and O. V. Buren’, Biologiya i Nanotekhnologiya: Materialy dlya Sovremennoy i Budushchey Bioniki (Rostov-na-Donu: Feniks: 2006) (in Russian).
5. V. Kireev, Nanoindustriya, 2: 2 (2008) (in Russian).
6. V. I. Balabanov, Nanotekhnologii. Nauka Budushchego (Moscow: Eksmo: 2009) (in Russian).
7. M. C. Roco, J. Nanopart. Res., 13: 427 (2011); https://doi.org/10.1007/s11051–010–0192–z
8. Ye. M. Murtazina and O. I. Lefterova, Vestnik Kazanskogo Tekhnologicheskogo Universiteta, 15, No. 10: 45 (2012) (in Russian).
9. T. M. Popova, O. S. Prudkyy, and O. I. Ukolov, Visnyk Chernigivs’kogo Natsional’nogo Pedagogichnogo Universytetu, 127: 171 (2015) (in Ukrainian).
10. Ch. P. Pool, Jr. and F. J. Owens, Nanotekhnologii [Introduction to Nanotechnology] (Moscow: Tekhnosfera: 2005) (Russian translation).
11. F. Salamanca-Buentello, D. L. Persad, E. B. Court, D. K. Martin, A. S. Daar, and P. A. Singer, PLoS Med., 2, No. 5: e97 (2005); https://doi.org/10.1371/journal.pmed.0020097
12. L. B. Piotrovskiy and E. A. Kac, Ehkologiya i Zhizn’, 8: 7 (2010) (in Russian).
13. I. S. Chekman, Suchasni Problemy Toksykologii’, 1/2: 16 (2011) (in Ukrainian).
14. V. V. Vlizlo, R. Ya. Iskra, and R. S. Fedoruk, Biologiya Tvaryn, 17, No. 4: 18 (2015) (in Ukrainian).
15. A. M. Alimov, Vestnik Bryanskoy Gosudarstvennoy Sel’skokhozyaystvennoy Akademii, 2: 42 (2010) (in Russian).
16. N. Taniguchi, Proceedings of the International Conference on Production Engineering (26–29 August 1974, Tokyo) (Tokyo: Japan Society of Precision Engineering: 1974), p. 18.
17. K. E. Drexler, Engines of Creation. The Coming Era of Nanotechnology (New York: Anchor Books Double–day: 1986).
18. V. K. Smirnov, D. S. Kibalov, O. M. Orlov, and V. V. Graboshnikov, Nanotechnology, 14, No. 7: 709 (2003); https://doi.org/10.1088/0957–4484/14/7/304
19. O. Renn and M. Roco, J. Nanopart. Res., 8, No. 2: 1 (2006).
20. V. I. Kuz’min, Ehnergosberezhenie, 8: 70 (2007) (in Russian).
21. N. Kobayasi, Vvedenie v Nanotekhnologiyu [Introduction to Nanotechnology] (Moscow: BINOM: 2005) (Russian translation).
22. V. F. Fedorenko, Nanotekhnologii i Nanomaterialy v Agropromyshlennom Komplekse (Moscow: Rosinformagrotekh: 2008) (in Russian).
23. B. Paton, V. Moskalenko, I. Chekman, and B. Movchan, Visnyk NAN Ukrainy, 6: 18 (2009) (in Ukrainian).
24. O. V. Sytar, N. V. Novyts’ka, N. Yu. Taran, S. M. Kalens’ka, and V. V. Hanchurin, Physics Living, 18: 113 (2010).
25. V. I. Glazko, Agro XXI, 4–6: 45 (2010) (in Russian).
26. B. Bhushan, Springer Handbook of Nanotechnology (Berlin–Heidelberg: Springer: 2017).
27. Biofunctionalization of Nanomaterials (Ed. S. S. R. Kumar Challa) (Weinheim: Wiley–VCH Verlag: 2005); https://doi.org/10.1016/S1369–7021(05)71289–X
28. J. C. Shen, Acta Academiae Medicinae Sinicae, 28, No. 4: 472 (2006).
29. A. I. Gusev, Nanomaterialy, Nanostruktury, Nanotekhnologii (Moscow: Fizmatlit: 2007) (in Russian).
30. D. W. Grainger and D. G. Castner, Advanced Materials, 20, No. 5: 867 (2008); https://doi.org/10.1002/adma.200701760
31. ISO/TS 11360:2010 Nanotechnologies—Methodology for the Classification and Categorization of Nanomaterials (Ed. 2010–07–15) (ISO: 2010); https://doi.org/10.3403/30216094
32. L. Yang, L. Zhang, and T. J. Webster, Advanced Engineering Materials, 13, No. 6: 197 (2011); https://doi.org/10.1002/adem.201080140
33. P. K. Avti, S. C. Patel, and B. Sitharaman, Nanobiomaterials Handbook (Ed. B. Sitharaman) (CRC Publication: 2011).
34. M. O. Azarenkov, I. M. Neklyudov, V. M. Beresnev, V. M. Voyevodin, and O. D. Pogrebnjak, Nanomaterialy i Nanotekhnologii’ [Nanomaterials and Nanotechnologies] (Kharkiv: KhNU im. V. N. Karazina: 2014) (in Ukrainian).
35. B. Sitharaman, Nanobiomaterials Handbook (CRC Press: 2016).
36. H. A. Khan, M. K. Sakharkar, A. Nayak, U. Kishore, and A. Khan, Nanobiomaterials (2018), p. 357; https://doi.org/10.1016/b978–0–08–100716–7.00014–3
37. B. Singh, NanoBioMaterials: Nanobiomaterials (CRC Press: 2018).
38. M. Razavi, Nanobiomaterials (Woodhead Publishing: 2018); https://doi.org/10.1016/b978–0–08–100716–7.00002–7
39. D. Yi and G. C. Papaefthymiou, Nanobiomaterials: Development and Applications (CRC Press: 2013).
40. I. Roy, T. Y. Ohulchaskiy, H. E. Pudavar, E. Y. Bergey, A. R. Oseroff, J. Morgan, T. J. Dougherty, and P. N. Prasad, J. Am. Chem. Soc., 125: 7860 (2003); https://doi.org/10.1021/ja0343095
41. A. Ito, M. Shinkai, H. Honda, and T. Kobayashi, J. Biosci. Bioeng., 100: 1 (2005); https://doi.org/10.1263/jbb.100.1
42. A. I. Archakov and Yu. D. Ivanov, Aktual’nyye Voprosy Diagnostiki i Lecheniya v Klinike Vnutrennikh Bolezney (Moscow: Obshcherossiyskiy Obshchestvennyy Fond ‘Zdorovie Cheloveka’: 2007) (in Russian).
43. M. Golovenko and V. Larionov, Visnyk Farmakologii ta Farmatsii’, 4: 8 (2008) (in Ukrainian).
44. V. F. Moskalenko, L. G. Rozenfel’d, B. O. Movchan, and I. S. Chekman, 1 Natsional’nyy Kongres ‘Chelovek i Lekarstvo — Ukraina’ (26–28 March, 2008, Kyiv), p. 167 (in Ukrainian).
45. P. Yuan, Q. Ma, R. Meng, C. Wang, W. Dou, G. Wang, and X. Su, Journal of Nanoscience and Nanotechnology, 9, No. 5: 3092 (2009); https://doi.org/10.1166/jnn.2009.009
46. V. Kumanan, S. R. Nugen, A. J. Baeumner, and Y.-F. Chang, Journal of Veterinary Science, 10, No. 2: 35 (2009); https://doi.org/10.4142/jvs.2009.10.1.35
47. Z. Ul’berg, T. Gruzina, and O. Karpov, Visnyk Natsional’noi Akademii Nauk Ukrainy, 8: 28 (2008) (in Ukrainian).
48. I. M. Pertsev, D. I. Dmytrievs’kyy, V. D. Rybachuk, V. M. Khomenko, O. P. Gudzenko, O. M. Kotenko, and Yu. S. Masliy, Dopomizhni Rechovyny v Tekhnologii Likiv: Vplyv na Tekhnologichni, Spozhyvchi, Ekonomichni Kharakterystyky i Terapevtychnu Efektyvnist’ (Kharkiv: Zoloti Storinky: 2010) (in Ukrainian).
49. A. B. Shcherbakov, N. M. Zholobak, V. K. Ivanov, Yu. D. Tret’yakov, and N. Ya. Spivak, Biotekhnologiya, 4, No. 1: 9 (2011) (in Ukrainian).
50. Nanobiomaterialy dlya Zastosuvannya v Sil’s’komu Gospodarstvi ta Kharchovo-Pererobniy Promyslovosti (Eds. L. P. Polozenko and L. Yu. Kucheruk) (Kyiv: NUBiP Ukrainy: 2011) (in Ukrainian).
51. A. K. Mittal and U. C. Banerjee, Nanobiomaterials in Drug Delivery (William Andrew Publishing: 2016), p. 147; https://doi.org/10.1016/b978–0–323–42866–8.00005–8
52. M. Rajabi, M. Srinivasan, and S. A. Mousa, Nanobiomaterials in Drug Delivery (William Andrew Publishing: 2016), p. 1; https://doi.org/10.1016/b978–0–323–42866–8.00001–0
53. A. Garg, Biomedical Engineering: Concepts, Methodologies, Tools, and Applications (IGI Global: 2018), p. 1205; https://doi.org/10.4018/978–1–5225–3158–6.ch051
54. A. Orza and C. Clark, Nanobiomaterials (Apple Academic Press: 2018), p.395; https://doi.org/10.1201/9781315204918–11
55. B. A. Aderibigbe, Nanoconjugate Nanocarriers for Drug Delivery (Apple Academic Press: 2018), p. 29.
56. H.-P. Lin and B.-R. Li, Nanobiomaterials (Woodhead Publishing: 2018), p.319; https://doi.org/10.1016/b978–0–08–100716–7.00013–1
57. R. K. Keservani, A. K. Sharma, and R. K. Kesharwani, Nanobiomaterials (Apple Academic Press: 2018), p. 3; https://doi.org/10.1201/9781315204918–1
58. P. V. Chakravarthi and S. N. Balaji, Veterinary World, 3, No. 10: 477 (2010); https://doi.org/10.5455/vetworld.2010.477–480
59. K.-Í. Song, S.-J. Chung, and Ñ.-K. Shim, J. Cont. Rel., 84: 27 (2002); https://doi.org/10.1016/s0168–3659(02)00238–9.
60. Ì. A. Schubert and C. C. Muller-Goymann, Eur. J. Pharm. Biopharm., 55:125 (2003); https://doi.org/10.1016/s0939–6411(02)00130–3
61. A. D. Devrishov, Veterinarnaya Meditsina, 4: 3 (2007) (in Russian).
62. A. A. Komissarenko and T. V. Novosadyuk, Veterinariya, 7: 50 (2008) (in Russian).
63. A. Komissarenko and T. Novosadyuk, Tvarynnytstvo Ukrainy, 8: 31 (2008) (in Russian).
64. E. B. Ivanova, T. N. Gryazneva, and V. A. Vodolazhskiy, Veterinariya i Kormlenie, 5: 19 (2008) (in Russian).
65. E. Ivanova, T. Gryazneva, and V. Vololazhskiy, Veterinariya Sel’skokhozyaystvennykh Zhivotnykh, 10: 55 (2008) (in Russian).
66. M. D. Kucheruk, D. A. Zasiekin, V. V. Postoy, V. V. Solomon, K. G. Lopat’ko, and Ye. G. Aftandilyants, Materialy Internet-Konferentsii ‘Nauchnyye Issledovaniya i Ikh Prakticheskoye Primenenie. Sovremennoye Sostoyanie i Puti Razvitiya’ (1–15 October 2008, Odesa), vol. 17, p. 3 (in Ukrainian).
67. M. Mozafari, C. Johnson, S. Hatziantoniou, and C. Demetzos, Journal of Liposome Research, 18: 309 (2008); https://doi.org/10.1080/08982100802465941
68. N. O. Voloshyna, Naukovyy Visnyk Natsional’nogo Agrarnogo Universytetu, 127: 72 (2008) (in Ukrainian).
69. N. Voloshyna, O. Petrenko, V. Kaplunenko, and M. Kosinov, Veterynarna Medytsyna Ukrainy, 9: 32 (2008) (in Ukrainian).
70. A. A. Ivanov and E. Yu. Tarasova, Veterinarnyy Vrach, 3: 36 (2009) (in Russian).
71. D. A. Zasiekin, M. D. Kucheruk, and V. V. Solomon, Naukovo-Praktychni Rekomendatii po Sumisnomu Zastosuvannyu 1% Rozchynu Nanorozmirnogo Sribla ta Prebiotyku «Bio–Mos» [Scientific and Practical Recommendations for the Joint Application of 1% Nanoscale Silver Solution and Prebiotic ‘Bio–Moss’] (Kyiv: Anva-print: 2009) (in Ukrainian).
72. D. A. Zasiekin, V. V. Solomon, M. D. Kucheruk, K. G. Lopat’ko, and E. G. Aftandilyants, Zdorov’ya Tvaryn i Liky, 1: 15 (2009) (in Ukrainian).
73. L. R. Zakirova, I. N. Yakovleva, and N. A. Musienko, Veterinariya i Kormlenie, 1: 12 (2009) (in Russian).
74. M. V. Supotnits’kiy, S. A. Panygina, D. L. Poklonskiy, and M. Yu. Volkov, Veterinarnaya Meditsina, 3: 12 (2009) (in Russian).
75. M. S. Frolova, G. M. Spirov, and E. A. Zuymach, Vysokointensivnyye Fizicheskie Faktory v Biologii, Meditsine, Sel’skom Khozyaystve i Ehkologii (2009), p. 162 (in Russian).
76. S. Ye. Gel’pirina and V. I. Shvets, Biotekhnologiya, 3: 8 (2009) (in Russian).
77. S. S. Patil, K. B. Kore, and P. Kumar, Veterinary World, 2, No. 12: 475 (2009); https://doi.org/10.5455/vetworld.2009.475–477
78. Nanotekhnologiya u Veterynarniy Medytsyni (Eds. V. B. Borysevych and V. G. Kaplunenko) (Kyiv: Nanomaterialy i Nanotekhnologii: 2009) (in Ukrainian).
79. V. B. Borysevych, B. V. Borysevych, and V. G. Kaplunenko, Suchasne Ptakhivnytstvo, 1: 4 (2009) (in Ukrainian).
80. A. M. Alimov, Sbornik Materialov Mezhdunarnoy Nauchno-Prakticheskoy Konferentsii (16–18 November 2010, Kazan’), ð. 304 (in Russian).
81. A. P. Kaplun, D. A. Bezrukov, and V. I. Shvets, Biotekhnologiya, 6: 9 (2010) (in Russian).
82. A. P. Ponomarev, E. V. Belik, R. R. Shilyaev, and E. V. Garas’ko, Trudy Federal’nogo Tsentra Okhrany Zdorov’ya Zhivotnykh (Vladimir: 2010), vol.8, p. 214 (in Russian).
83. E. A. Sopova, V. I. Baranov, O. A. Gankovskaya, V. F. Lavrov, and V. V. Zverev, Gigiena i Sanitariya, 4: 89 (2010) (in Russian).
84. M. D. Kucheruk, D. A. Zasiekin, and V. V. Solomon, Sbornik Nauchnykh Trudov po Materialam Mezhdunarodnoy Nauchno-Prakticheskoy Konferentsii ‘Sovremenyye Napravleniya Teoreticheskikh i Prikladnykh Issledovaniy’2010’ (15–26 March 2010, Odesa), vol. 32, p. 52 (in Ukrainian).
85. M. E. Roman’ko, S. N. Dybkova, T. G. Gruzina, L. S. Reznichenko, Z. R. Ul’berg, V. A. Ushkalov, and A. N. Golovko, Agrarnaya Nauka, 1: 28 (2010) (in Russian).
86. M. Shustrova, Zhivotnovodstvo Rossii, 9: 23 (2010) (in Russian).
87. N. Zenova, A. Nazarova, and S. Polishchuk, Molochnoye i Myasnoye Skotovodstvo, 1: 30 (2010) (in Russian).
88. O. O. Kudina, O. G. Budishevs’ka, and A. S. Voronov, Reports of the National Academy of Sciences of Ukraine, 7: 119 (2010) (in Ukrainian).
89. V. B. Borysevych and V. G. Kaplunenko, Osnovy Nanoveterynarii (Kyiv: Avicena: 2010) (in Ukrainian).
90. V. B. Borysevych, B. V. Borysevych, M. A. Kulida, and V. B. Borysevych, Veterynarna Medytsyna Ukrainy, 7: 42 (2010) (in Ukrainian).
91. V. O. Ushkalov, M. Ye. Roman’ko, T. G. Gruzina, S. M. Dybkova, and L. S. Ryeznichenko, Veterynarna Medytsyna Ukrainy, 6: 30 (2010) (in Ukrainian).
92. V. V. Turov, V. M. Gun’ko, and V. N. Barvinchenko, Reports of the National Academy of Sciences of Ukraine, 7: 180 (2010) (in Russian).
93. A. M. Golovko, V. O. Ushkalov, L. S. Ryeznichenko, M. Ye. Roman’ko, T. G. Gruzina, S. M. Dybkova, and Z. R. Ul’berg, Visnyk Agrarnoyi Nauky, 5: 24 (2011) (in Ukrainian).
94. A. M. Smirnov, V. V. Svetlichkin, A. B. Kononenko, S. V. Britova, A. V. Artemov, and V. N. Golubev, Veterinariya i Kormlenie, 3: 18 (2011) (in Russian).
95. B. T. Velichkovskiy, Gigiena i Sanitariya, 2: 75 (2011) (in Russian).
96. J. M. Irache, I. Esparza, C. Gamazo, M. Agueros, and S. Espuelas, Veterinary Parasitology, 180: 47 (2011); https://doi.org/10.1016/j.vetpar.2011.05.028
97. Yu. V. Kalashnikova and I. V. Kononenko, Veterynarna Medytsyna Ukrainy, 11: 17 (2011) (in Ukrainian).
98. R. Rajera, N. Kalpana, K. S. Shailendra, and N. M. Dina, Biol. Pharm. Bull., 34, No. 7: 945 (2011).
99. S. Ganguly and S. K. Mukhopadhayay, International Journal of NanoScience and Nanotechnology, 2, No. 1: 79 (2011).
100. V. A. Nazarov, Kharakteristika Deystviya Khimicheskikh Ehlementov v Ionnoy i Nanoforme na Prokarioticheskie i Ehukarioticheskie Organizmy (Saratov: FGOU VPO ‘Saratovskiy GAU’: 2011) (in Russian).
101. V. B. Borysevych, V. G. Kaplunenko, and M. V. Kosinov, Veterynarna Praktyka, 10: 30 (2011) (in Ukrainian).
102. V. I. Fisinin, I. A. Egorov, E. N. Andrianova, E. A. Morina, N. B. Fel’dman, E. V. Lutsenko, and S. V. Lutsenko, Sel’skokhozyaystvennaya Biologiya, 4:30 (2011) (in Russian).
103. V. P. Martsenyuk and I. B. Melenchuk, Medychna Informatyka ta Inzheneriya, 3: 43 (2012) (in Ukrainian); https://doi.org/10.11603/mie.1996–1960.2012.3.196
104. S. Ya. Fedorenko, P. M. Skljarov, and O. V. Hirna, Naukovo-Tekhnichnyy Byuleten’ NDC Biobezpeky ta Ehkologichnogo Kontrolyu Resursiv APK, 5, No. 2: 27 (2017) (in Ukrainian).
105. V. Borysevych, B. Borysevych, and V. Kaplunenko, Tvarynnytstvo Ukrainy,6: 31 (2009) (in Ukrainian).
106. V. B. Borysevych, B. V. Borysevych, V. G. Kaplunenko, M. V. Kosinov, and N. M. Homyn, Veterynarna Medytsyna Ukrainy, 10: 38 (2009) (in Ukrainian).
107. E. E. Vasil’eva, Svinovodstvo, 2: 38 (2010) (in Russian).
108. D. A. Zasiekin, M. D. Kucheruk, V. V. Solomon, K. G. Lopat’ko, and Ye. G. Aftandilyants, Suchasne Ptakhivnytstvo, 11/12, No. 72: 7 (2008) (in Ukrainian).
109. D. A. Zasiekin, V. V. Solomon, M. D. Kucheruk, K. G. Lopat’ko, and Ye. G. Aftandilyants, Zdorov’ya Tvaryn i Liky, 12: 22 (2008) (in Ukrainian).
110. A. K. Zielinska, E. Sawosz, M. Grodzik, A. Chwalibog, and M. Kamaszewski, Annals of Warsaw Agr. Univ. Animal Science, 46: 249 (2009).
111. A. Studnicka, E. Sawosz, M. Grodzik, A. Chwalibog, and M. Balcerak, Annals of Warsaw Agr. Univ. Animal Science, 46: 237 (2009).
112. D. A. Zasiekin, M. D. Kucheruk, K. G. Lopat’ko, and V. V. Solomon, Nau-kovo-Praktychni Rekomendatsii’ po Koryguvannyu Mikrobiotsenozu Travnogo Kanalu Kurchat-Broyleriv Koloyidnym Rozchynom Sribla (Kyiv: Anva-print:2009) (in Ukrainian).
113. N. V. Mukhin, Veterinariya i Kormlenie, 5: 14 (2009) (in Russian).
114. V. I. Fisinin, I. A. Egorov, and E. N. Andrianova, Sel’skokhozyaystvennaya Biologiya, 4: 26 (2009) (in Russian).
115. R. Gupta and V. Sharma, Journal of Immunology and Immunopathology, 18, No. 1: 13 (2016); https://doi.org/10.5958/0973–9149.2016.00002.2
116. I. A. Rogov, T. N. Danil’chuk, V. A. Shepelev, and G. G. Abdrashitova, Syrodelie i Maslodelie, 5: 46 (2010) (in Russian).
117. Yu. A. Sytnik and M. F. Starodub, Naukovyy Visnyk Natsional’nogo Universytetu Bioresursiv i Pryrodokorystuvannya Ukrainy, 160, No. 1: 277 (2011) (in Ukrainian).
118. V. B. Borysevych, B. V. Borysevych, V. G. Kaplunenko, M. V. Kosinov, and V. B. Borysevych, Suchasne Ptakhivnytstvo, 6/7: 40 (2009) (in Ukrainian).
119. V. B. Borisevich, B. V. Borisevich, V. G. Kaplunenko, N. V. Kosinov, and V. B. Borisevich, Veterinariya, 9: 13 (2010) (in Russian).
120. V. B. Borysevych, B. V. Borysevych, and V. G. Kaplunenko, Veterynarna Medytsyna Ukrainy, 2: 12 (2010) (in Ukrainian).
121. M. D. Kucheruk, D. A. Zasiekin, Ye. G. Aftandilyants, and V. V. Solomon, Materialy Internet-Konferentsii ‘Nauchnyye Issledovaniya i Ikh Prakticheskoe Primenenie. Sovremennoye Sostoyanie i Puti Razvitiya’ (4–15 October 2008, Odesa), vol. 16, p. 32 (in Ukrainian).
122. M. D. Kucheruk, V. V. Solomon, K. G. Lopat’ko, and D. A. Zasiekin, Naukovyy Visnyk Natsional’nogo Agrarnogo Universytetu, 127: 152 (2008) (in Ukrainian).
123. A. G. Grushkin, A. A. Brylev, and N. S. Shevelev, Materialy Regional’noy Nauchno-Prakticheskoy Konferentsii ‘Nauchnoye Obespechenie Ispol’zovaniya Sovremennykh Tekhnologiy v Sel’skokhozyaystvennom Proizvodstve Regiona’ [Materials of the Regional Scientific–Practical Conference ‘Scientific Support for the Use of Modern Technologies in the Agricultural Production of the Region’] (Kaluga: 2009), p. 79 (in Russian).
124. M. D. Kucheruk, Sbornik Materialov Respublikanskoy NauchnoPrakticheskoy Molodezhnoy Konferentsii ‘Nauchnyye Stremleniya–2010’ (1–3 November 2010, Minsk) [The Collection of Materials of the Republican Scientific and Practical Youth Conference ‘Scientific Aspirations–2010’], p.420 (in Russian).
125. N. N. Glushchenko, T. A. Baytukalov, O. A. Bogoslovskaya, and I. P. Ol’khovskaya, Nanotekhnologii i Nanomaterialy dlya Biologii i Meditsiny, 2: 76 (2007) (in Russian).
126. S. P. Gynku, Lechenie Ran u Zhivotnykh s Primeneniem Rastvorov, Obrabotannykh Ehnergiey Ehlektromagnitnykh Poley Millimetrovogo Diapazona Nanourovnevoy Intensivnosti (Ehksperimental’no-Klinicheskie Issledovaniya) (Thesis of Disser. for Cand. Vet. Sci.) (Kazan’: Kazan State Academy of Veterinary Medicine Named After N. E. Bauman: 2007) (in Russian).
127. V. B. Borysevych, B. V. Borysevych, O. F. Petrenko, K. G. Lopatko, N. O. Symonenko, and A. O. Zhuk, Veterynarna Medytsyna, 91: 62 (2008) (in Ukrainian).
128. V. B. Borysevych, B. V. Borysevych, and O. F. Petrenko, Zdorov’ya Ttvaryni Liky, 3: 64 (2008) (in Ukrainian).
129. V. B. Borysevych, O. F. Petrenko, B. V. Borysevych, and A. O. Zhuk, Visnyk Derzhavnogo Agroekologichnogo Universytetu, 1: 186 (2008) (in Ukrainian).
130. N. M. Homyn, V. B. Borysevych, O. F. Petrenko, V. G. Kaplunenko, and M. V. Kosinov, Sil’s’kyy Gospodar, 9/10: 10 (2009) (in Ukrainian).
131. B. V. Borysevych and S. M. Kulinych, Veterynarna Praktyka, 2: 26 (2009) (in Ukrainian).
132. V. B. Borisevich, B. V. Borisevich, V. G. Kaplunenko, and P. K. Solonin, Veterinarnaya Meditsina, 3: 41 (2009) (in Russian).
133. V. B. Borisevich, B. V. Borisevich, V. G. Kaplunenko, and N. V. Kosinov, Veterinariya, 8: 60 (2010) (in Russian).
134. V. Borysevych, B. Borysevych, and V. Kaplunenko, Tvarynnytstvo Ukrainy,2: 30 (2010) (in Ukrainian).
135. N. I. Kolesnyk, V. G. Skrypnyk, and N. A. Parkhomenko, Veterynarna Medytsyna Ukrainy, 2: 30 (2010) (in Ukrainian).
136. V. F. Chekhun, Reports of the National Academy of Sciences of Ukraine, 2:170 (2010) (in Ukrainian).
137. G. S. Terentyuk, Immunologicheskaya Reaktivnost’ pri Ehksperimental’nom Vozdeystvii Lazernoy Gipertermii s Nanochastitsami na Opukholevyye Tkani (Thesis of Disser. for Dr. Biol. Sci.) (Ul’yanovsk: Ulyanovsk State University: 2009) (in Russian).
138. N. Mukhina and Z. Cherkay, Molochnoye i Myasnoye Skotovodstvo, 5: 29 (2011) (in Russian).
139. V. Fisinin, I. Egorov, N. Mukhina, and Z. Cherkay, Ptitsevodstvo, 8: 11 (2011) (in Russian).
140. R. M. Urdzik, Ehfektyvne Tvarynnytstvo, 3: 33 (2008) (in Russian).
141. S. G. Mukherjee, N. O’Claonadh, A. Casey, and G. Chambers, Toxicology in Vitro, 26, No. 2: 238 (2011); https://doi.org/10.1016/j.tiv.2011.12.004
142. M. Bellantone, H. D. Williams, and L. L. Hench, J. Antimicrobal Agent and Chemotherapie, 46, No. 6: 1940 (2002); https://doi.org/10.1128/aac.46.6.1940–1945.2002
143. V. F. Shatorna, V. I. Garets’, V. V. Krutenko, I. I. Kolosova, and Yu. O. Byel’s’ka, Visnyk Problem Biologii i Medytsyny, 3, No. 95: 29 (2012) (in Ukrainian).
144. O. F. Petrenko, V. B. Borysevych, and O. O. Petrenko, Rekomendatsii Shchodo Zastosuvannya Nanochastok Ag, Cu, Zn dlya Likuvannya Ran u Sobak ta dlya Profilaktyky Gel’mintoziv Tvaryn (Kyiv: NUBiP Ukrainy: 2009) (in Ukrainian).
145. I. S. Chekman, Visnyk Natsional’noi Akademii Nauk Ukrainy, 7: 21 (2012) (in Ukrainian).
146. A. Hoshino, K. Fujioka, T. Oku, M. Suga, Y. F. Sasaki, T. Ohta, M. Yasuhara, K. Suzuki, and K. Yamamoto, Nanoletters, 4, No. 11: 2163 (2004); https://doi.org/10.1021/nl048715d
147. H. F. Liu, Z. L. Liu, C. S. Xie, J. Yu, and C. H. Zhu, Contraception, 75: 157 (2007); https://doi.org/10.1016/j.contraception.2006.09.012
148. M. V. Artysyuk, Ukrains’kyy Naukovo-Medychnyy Molodizhnyy Zhurnal, Special Issue: 20 (2010) (in Ukrainian).
149. L. S. Ryeznichenko, T. G. Gruzina, V. V. Vember, and Z. R. Ul’berg, Ukrains’kyy Biokhimichnyy Zhurnal, 80, No. 1: 96 (2008) (in Ukrainian).
150. A. M. Serdyuk, Zhurnal Akademii Medychnykh nauk Ukrainy, 16, No. 3:467 (2010) (in Ukrainian).
151. V. G. Kaplunenko, I. K. Avdos’eva, and A. G. Pashchenko, NaukovoTekhnichnyy Byuleten’ Instytutu Biologii Tvaryn i Derzhavnogo Naukovo Doslidnogo Kontrol’nogo Instytutu Vetpreparativ ta Kormovykh Dobavok, 15, No. 4: 252 (2014) (in Ukrainian).
152. Nanomaterialy i Nanotekhnologii v Veterinarnoy Praktike (Ed. V. B. Borisevich) [Nanomaterials and Nanotechnologies in Veterinary Practice] (Kyiv: Dia: 2009) (in Ukrainian).
153. M. Ya. Golovenko, Zhurnal AMN Ukrainy, 13, No. 4: 1 (2007) (in Ukrainian).
154. L. V. Nagornaya, Materialy Mezhdunarodnoy Nauchno-Prakticheskoy Konferentsii ‘Nauchnoye Obespechenie Agropromyshlennogo Proizvodstva’ [Materials of the International Scientific–Practical Conference ‘Scientific Support of Agricultural Production’] (29–31 January 2014, Kursk), p. 294 (in Russian).
155. N. A. Kochueva, E. N. Olenchuk, and A. S. Stepanova, Vestnik Veterinarii, 4: 133 (2011) (in Russian).
156. E. N. Boytseva, N. V. Bychkova, and T. I. Kuz’mina, Tsitologiya, 5: 375 (2017) (in Russian).
157. T. I. Kuz’mina, T. I. Stanislavovich, and A. V. Molchanov, Agrarnyy Nauchnyy Zhurnal, 3: 29 (2019) (in Russian).
158. I. V. Chistyakova, T. I. Kuz’mina, T. I. Stanislavovich, and T. G. Khonina, Voprosy Normativno-Pravovogo Regulirovaniya v Veterinarii, 3: 105 (2018) (in Russian).
159. V. G. Semenov, D. A. Nikitin, N. I. Gerasimova, and V. A. Vasil’ev, Vestnik Chuvashskoy Gosudarstvennoy Sel’skokhozyaystvennoy Akademii, 1: 37 (2017) (in Russian).
160. M. A. Beloborodenko, T. A. Beloborodenko, A. M. Beloborodenko, A. V. Demkina, and O. Yu. Pilyavskikh, Sbornik Materialov Regional’noy Nauchno-Prakticheskoy Konferentsii Molodykh Uchyonykh ‘Perspektivy Razvitiya APK v Rabotakh Molodykh Uchyonykh’ [Collection of Materials of the Regional Scientific–Practical Conference of Young Scientists ‘Prospects for the Development of the Agricultural Sector in the Works of Young Scientists’] (5 February 2014, Tyumen’), p. 15 (in Russian).
161. A. V. Zagumennov and A. K. Sibgatullova, Materialy IV Vserossiyskoy Studencheskoy Nauchnoy Konferentsii ‘V Mire Nauchnykh Otkrytiy’ (20–21 May 2015, Ul’yanovsk) [Materials of the IV All–Russian Student Scientific Conference ‘In the World of Scientific Discoveries’], vol. 4, No. 1, p. 112 (in Russian).
162. V. B. Borysevych, B. V. Borysevych, V. G. Kaplunenko, M. V. Kosinov, S. M. Tkachenko, V. O. Doroshhuk, P. K. Solonin, and D. Yu. Lytvynenko, Veterynarna Medytsyna Ukrainy, 7: 20 (2009) (in Ukrainian).
163. O. V. Bakovetskaya, A. A. Eryomin, and R. M. Pilipenko, Veterinariya i Kormlenie, 6: 14 (2009) (in Russian).
164. O. V. Shcherbak and L. M. Goncharenko, Materialy VII Vseukr. Nauk.-Prakt. Konf. Molodykh Vchenykh i Spetsialistiv ‘Agropromyslove Vyrobnytstvo Ukrainy — Stan ta Perspektyvy Rozvytku’ (24 March 2011, Kirovohrad), p.145 (in Ukrainian).
165. S. Kovtun, Yu. Kunovs’kyy, and N. Galagan, Tvarynnytstvo Ukrainy, 2: 72(2007) (in Ukrainian).
166. S. Ya. Fedorenko, P. M. Skljarov, and V. P. Koshevoy, Materialy Vseukrayins’koyi’ Naukovo-Praktychnoyi’ Internet-Konferentsii’ ‘Suchasni Aspekty Likuvannya i Profilaktyky Khvorob Tvaryn’ [Proceedings of the All–Ukrainian Scientific–Practical Internet Conference ‘Modern Aspects of Treatment and Prevention of Animal Diseases’] (24–25 November 2016, Poltava) (Poltava: OP “ShvydkoDRUK”: 2016), p. 69 (in Ukrainian).
167. R. Ya. Iskra, V. V. Vlizlo, R. S. Fedoruk, and H. L. Antonyak, Hrom v Rats³on³ Tvaryn (Kyiv: Agrarna Nauka: 2014) (in Ukrainian).
168. N. L. Yemchenko, O. O. Kharchenko, O. V. Yashchenko, V. P. Yermolenko, M. P. Hulich, A. M. Serdyuk, V. F. Babiy, L. A. Tomashevska, and I. Ye. Moiseyenko, Spos³b Ots³nki Bezpeky Produkt³v Nanotekhnolog³¿ [Way Evaluation of the Safety of Nanotechnology Products] (Patent 67535 UA ÌPÊ (2012.01) G01N 33/02 (2006.01) G01N 33/48 (2006.01) G01N 21/00 G01N 31/16 (2006.01) (u201109379, Bul. 4, 27.02.2012) (in Ukrainian).
169. V. I. Karpovs’kyy, R. V. Postoy, D. I. Kryvoruchko, and V. M. Shaposhnik, Naukovi Pratsi Poltavs’koyi Derzhavnoyi Agrarnoyi Akademii, 5: 27 (in Ukrainian).
170. I. S. Chekman, Z. R. Ul’berg, V. O. Malanchuk, N. O. Gorchakova, and I. A. Zupanets’, Nanonauka, Nanobiologiya, Nanofarmatsiya (Kyiv: Poligraf Plyus: 2012) (in Ukrainian).
171. J. B. Adekalu and F. W. Featon, Proc. Nutr. Soc., 51: 61 (1992).
172. K. D. Fine, C. A. Santa Ana, and J. I. Porter, J. Ñli. Invest., 88: 396 (1991); https://doi.org/10.1172/jci115317
173. G. V. Pavlov, Veterinarnaya Meditsina, 2–3: 6 (in Russian).
174. O. A. Bogoslovskaya, E. A. Sizova, V. S. Polyakova, S. A. Miroshnikov, I. O. Leypunskiy, I. P. Ol’khovskaya, and N. N. Glushchenko, Vestnik Orenburgskogo Gosudarstvennogo Universiteta, 2: 124 (2009) (in Russian).
175. G. Borkow and J. Gabbay, Curr. Med. Chem., 12, No. 18: 2163 (2005); https://doi.org/10.2174/0929867054637617
176. B. R. Stern, M. Solioz, D. Krewski, P. Aggett, T.-C. Aw, S. Baker, K. Crump, M. Dourson, L. Haber, R. Hertzberg, C. Keen, B. Meek, L. Rudenko, R. Schoeny, W. Slob, and T. Starr, J. Toxicol. Environ. Health B. Crit. Rev., 10, No. 3: 157 (2007); https://doi.org/10.1080/10937400600755911
177. S. Krupanidhi, A. Sreekumar, and C. B. Sanjeevi, Indian J. Med. Res., 128, No. 4: 448 (2008).
178. Ye. Sh. Savadyan, V. M. Mel’nikova, and G. P. Belikova, Antibiotiki i Khimioterapiya, 11: 874 (1989) (in Russian).
179. V. Alt, T. Bechert, P. Steinrucke, M. Wagener, P. Seidel, E. Dingeldein, E. Domann, and R. Schnettler, Biomaterials, 25, No. 18: 4383 (2004); https://doi.org/10.1016/j.biomaterials.2003.10.078
180. K. Woraz, Toxicol., 12: 89 (2001).
181. J. W. Alexander, Surgical Infections, 10, No. 3: 289 (2009); https://doi.org/10.1089/sur.2008.9941
182. S. V. Volkov, S. P. Koval’chuk, V. M. Ogenko, and O. V. Reshetnyak, Nanokhimiya. Nanosystemy. Nanomaterialy [Nanochemistry. Nanosystems. Nanomaterials] (Kyiv: Naukova Dumka: 2008) (in Ukrainian).
183. X. Chen and H.J. Schluesener, Toxicol. Lett., 176: 1 (2008); https://doi.org/10.1016/j.toxlet.2007.10.004
184. A. Akimochkin and L. Demidchik, Veterinariya Sel’skokhozyaystvennykh Zhivotnykh, 8: 42 (2008) (in Russian).
185. T. A. Kyrychuk, Naukovo-Tekhnichnyy Byuleten’ Derzhavnogo Naukovo-Doslidnogo Kontrol’nogo Instytutu Veterynarnykh Preparativ ta Kormovykh Dobavok i Instytutu Biologii Tvaryn, 16, No. 2: 439 (2015) (in Ukrainian).
186. A. S. Donchenko, N. N. Shkil’, and V. A. Burmistrov, Sibirskiy Vestnik Sel’skokhozyaystvennoy Nauki, 49, No. 1: 59 (2019) (in Russian).
187. R. G. Kuz’mich, E. S. Makarova, G. N. Borisenko, N. D. Kolomiets, and O. V. Tonko, Uchenyye Zapiski Uchrezhdeniya Obrazovaniya «Vitebskaya Ordena «Znak Pochyota» Gosudarstvennaya Akademiya Veterinarnoy Meditsiny», 53, No. 1: 81 (2017) (in Russian).
188. Nanomaterialy i Nanotekhnologii v Veterinarnoy Praktike (Eds. V. B. Borisevich and V. G. Kaplunenko) (Kyiv: Avicena: 2012) (in Russian).
189. I. V. Zhikharev and V. I. Lyashenko, Ehkonomichnyy Visnyk Donbasu, 1:117 (2007) (in Russian).
190. Ya. S. Stravs’kyy, V. Yu. Stefanyk, O. V. Nyzhnyk, L. S. Reznichenko, and M. N.Dzhulanov, Naukovyy Visnyk L’vivs’kogo Natsional’nogo Universytetu Veterynarnoi Medytsyny ta Biotekhnologiy imeni S. Z. Gzhyts’kogo, 18, No.1: 230 (2016) (in Ukrainian).
191. A. M. Kovalenko, D. A. Evglevskiy, and An. A. Evglevskiy, Vestnik Kurskoy Gosudarstvennoy Sel’skokhozyaystvennoy Akademii, 5, No. 5: 75 (2010) (in Russian).
192. V. P. Koshevoy, S. Ya. Fedorenko, S. V. Naumenko, M. M. Ivanchenko, O. V. Onyshchenko, K. S. Besedovs’ka, A. M. Pasternak, I. O. Gladtsinova, V. I. Koshevoy, P. M. Skljarov, Yu. V. Malyukin, S. L. Yefimova, and V. K. Klochkov, Kompleksni Preparaty, Stvoreni na Osnovi Nano-Biomaterialiv ta Yikh Vykorystannya u Veterynarniy Reproduktologii’ (Kharkiv–Dnipropetrovs’k: 2015) (in Ukrainian).
193. P. M. Skljarov and V. P. Koshevoy, Naukovyy Visnyk L’vivs’kogo Natsional’nogo Universytetu Veterynarnoi Medytsyny ta Biotekhnologiy imeni S. Z. Gzhyts’kogo, 18, No. 66: 162 (2016) (in Ukrainian); https://doi.org/10.15421/nvlvet6633
194. S. Ya. Fedorenko, V. P. Koshevoy, and P. N. Skljarov, Materialy XIX Mezhdunarodnoy Nauchno-Prakticheskoy Konferentsii ‘Aktual’nyye Problemy Intensivnogo Razvitiya Zhivotnovodstva’ [Materials of the XIX International Scientific–Practical Conference ‘Actual Problems of the Intensive Development Of Animal Husbandry’] (2–3 June 2016, Gorki), vol. 19, ð. 7 (in Russian).
195. P. M. Skljarov and V. P. Koshevoy, Naukovyy Visnyk Natsional’nogo Universytetu Bioresursiv i Pryrodokorystuvannya Ukrainy, 237: 292 (2016) (in Ukrainian).
196. S. Ya. Fedorenko, P. M. Skljarov, and V. P. Koshevoy, Naukovyy Visnyk L’vivs’kogo Natsional’nogo Universytetu Veterynarnoi Medytsyny ta Biotekhnologiy imeni S. Z. Gzhyts’kogo, 19, No. 82: 192 (2017) (in Ukrainian).
197. S. Ya. Fedorenko, V. P. Koshevoy, and P.N. Skljarov, Zhivotnovodstvo i Veterinarnaya Meditsina, 4, No. 19: 56 (2016) (in Russian).
198. M. Ema, N. Kobayashi, M. Naya, S. Hanai, and J. Nakanishi, Reprod. Toxicol., 30: 343 (2010); https://doi.org/10.1016/j.reprotox.2010.06.002
199. G. Oberdorster, E. Oberdorster, and J. Oberdorster, Environ. Health Perspect., 113: 823 (2005); https://doi.org/10.1289/ehp.118–2944104
200. C. S. Yah, G. S. Simate, and S. E. Iyuke, Pak. J. Pharm. Sci., 25: 477 (2012).
201. A. Ayd?n, H. Sipahi, and M. Charehsaz, Recent Advances in Novel Drug Carrier Systems (Ali Demir Sezer: Imtech Open: 2012); https://doi.org/10.5772/51230
202. M. P. Warren and N. E. Perlroth, J. Endocrinol., 170: 3 (2001); https://doi.org/10.1677/joe.0.1700003
203. A. E. Armenti, A. M. Zama, L. Passantino, and M. Uzumcu, Toxicol. Appl. Pharmacol., 233: 286 (2008); https://doi.org/10.1016/j.taap.2008.09.010
204. M. D. Anway, A. S. Cupp, M. Uzumcu, and M. K. Skinner, Science, 308:1466 (2005); https://doi.org/10.1016/s0084–4071(08)70385–3
205. T. Tsuchiya, I. Oguri, Y. N. Yamakoshi, and N. Miyata, FEBS Lett., 393:139 (1996); https://doi.org/10.1016/0014–5793(96)00812–5
206. J. Wang, X. Zhu, X. Zhang, Z. Zhao, H. Liu, R. George, J. Wilson-Rawls, Y. Chang, and Y. Chen, Chemosphere, 83: 461 (2011); https://doi.org/10.1016/j.chemosphere.2010.12.069
207. A. M. Derfus, W. C. Chan, and S. N. Bhatia, Nano Lett., 4: 11 (2004); https://doi.org/10.1021/nl0347334
208. C. C. Chou, H. Y. Hsiao, Q. S. Hong, C. H. Chen, Y. W. Peng, H. W. Chen, and P. C. Yang, Nano Lett., 8: 437 (2008); https://doi.org/10.1021/nl0723634
209. P. Lin, J. W. Chen, L. W. Chang, J. P. Wu, L. Redding, H. Chang, and T. K. Yeh, Environ. Sci. Technol., 42: 6264 (2008); https://doi.org/10.1021/es800254a
210. M. L. Schipper, N. Nakayama-Ratchford, C. R. Davis, N. W. S. Kam, P. Chu, Z. Liu, X. Sun, H. Dai, and S. S. Gambhir, Nat. Nanotechnol., 3:216 (2008); https://doi.org/10.1038/nnano.2008.68
211. J. Wu, C. Wang, J. Sun, and Y. Xue, ACS Nano, 5: 4476 (2011); https://doi.org/10.1021/nn103530b
212. M. Bartneck, T. Ritz, H. A. Keul, M. Wambach, J. Bornemann, U. Gbureck, J. Ehling, T. Lammers, F. Heymann, N. Gassler, T. Ludde, C. Trautwein, J. Groll, and F. Tacke, ACS Nano, 6: 8767 (2012); https://doi.org/10.1021/nn302502u
213. M. E. Vance, T. Kuiken, E. P. Vejerano, S. P. McGinnis, M. F. Hochella Jr., and D. Rejeski, Beilstein J. Nanotechnol., 6: 1769 (2015); https://doi.org/10.1515/nano.bjneah.6.181
214. J. Chen, H. Wang, W. Long, X. Shen, D. Wu, S. S. Song, Y. Sun, P. Liu, S. Fan, F. Fan, and X. Zhang, Int. J. Nanomedicine, 8: 2409 (2013); https://doi.org/10.2147/ijn.s46376
215. R. Tassinari, F. Cubadda, G. Moracci, F. Aureli, M. D’Amato, M. Valeri, B. De Berardis, A. Raggi, A. Mantovani, D. Passeri, M. Rossi, and F. Maranghi, Nanotoxicology, 8: 654 (2014); https://doi.org/10.3109/17435390.2013.822114
216. J. Wang, G. Zhou, C. Chen, H. Yu, T. Wang, Y. Ma, G. Jia, Y.Gao, B. Li, J. Sun, Y. Li, F. Jiao, Y. Zhao, and Z. Chai, Toxicol. Lett., 168: 176 (2007); https://doi.org/10.1016/j.toxlet.2006.12.001
217. L. I. Chun-Mei, L. I. Xuezheng, A. K. Suzuki, Y. Zhang, Y. Fujitani, K. Nagaoka, G. Watanabe, and K. Taya, J. Reprod. Dev., 59: 145 (2013); https://doi.org/10.1262/jrd.2012–145
218. M. Semmler-Behnke, J. Lipka, A. Wenk, S. Hirn, M. Schaffler, F. Tian, G. Schmid, G. Oberdorster, and W. G. Kreyling, Part. Fibre Toxicol., 11: 33 (2014); https://doi.org/10.1186/s12989–014–0033–9
219. K. Rattanapinyopituk, A. Shimada, T. Morita, M. Sakurai, A. Asano, T. Hasegawa, K. Inoue, and H. Takano, J. Vet. Med. Sci., 76: 377 (2014); https://doi.org/10.1292/jvms.13–0512
220. G. Gao, Y. Ze, X. Zhao, X. Sang, L. Zheng, X. Ze, S. Gui, L. Sheng, Q. Sun, J. Hong, X. Yu, L. Wang, F. Hong, and X. Zhang, J. Hazard. Mater., 258:133 (2013); https://doi.org/10.1016/j.jhazmat.2013.04.046
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