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  • Effects of prenatal exposure to extremely low electro-magnetic field on in vivo derived blastocysts of mice.

Effects of prenatal exposure to extremely low electro-magnetic field on in vivo derived blastocysts of mice.

Iranian journal of reproductive medicine (2012-11-01)
Parvin-Dokht Bayat, Mohmmad Reza Darabi, Ali Ghanbari, Sara Amiri, Pardis Sohouli
초록

Indisputable population exposure to widespread electromagnetic fields, has grown concerns over the probable health effects of these fields. The present study was aimed to examine the possible effects of 50 Hz extremely low frequency electromagnetic field (ELF-EMF) exposure on the number and quality of mice blastocysts. In present study, 66 NMRI pregnant females divided into two treated and non-treated groups. The treated group exposed to ELF-EMF (50 Hz and 6×10(-3) T). Subsequently, embryos were collected by flushing the uterine horn and Fallopian tubes on the day 3 of gestation. Number of trophoectoderm (TE) and Inner Cell Mass (ICM) cells in blastocysts were determined after differential nuclei staining using a modified method. Furthermore, number of all flushed blastocysts calculated in each group. There was no significant difference in mean number of blastocysts in treated (6.64±1.34) and none treated (8.22±1.59) groups. In treated group, there were significant decreased in total cell number of blastocysts (p=0.000), number of ICM cells (p=0.000), and number of TE cells (p=0.001) whereas the ratio of ICM/TE cells increased (p=0.002). The data indicate that ELF-EMF is able to affect cellular composition of blastocysts, but it can't omit total volume of blastocysts.

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Sigma-Aldrich
Complement, Guinea Pig Serum, Complement, Guinea Pig Serum, is suitable for evaluating functional activity of human complement components and for other research requiring a high level of hemolytic activity.