Good Thermally Conducting Material Supports Follicle Morphologies of Porcine Ovaries Cryopreserved with Ultrarapid Vitrification

Good Thermally Conducting Material Supports Follicle Morphologies of Porcine Ovaries Cryopreserved with Ultrarapid Vitrification

Effects of supporting materials during vitrification procedure on the morphologies of preantral follicles of pig ovaries were assessed. Ovarian cortical sections of prepubertal pigs were randomly allocated to 5 groups. The sections were vitrified ultrarapidly with 5 different vitrification devices....

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Bibliographic Details
Published in:Journal of Reproduction and Development Vol. 59; no. 5; pp. 496 - 499
Main Authors: HASHIMOTO, Shu, SUZUKI, Nao, AMO, Ami, YAMOCHI, Takayuki, HOSOI, Yoshihiko, MORIMOTO, Yoshiharu
Format: Journal Article
Language:English
Published: Japan THE SOCIETY FOR REPRODUCTION AND DEVELOPMENT 2013
The Society for Reproduction and Development
Subjects:
Abattoirs
Animals
Copper - chemistry
Cryopreservation
Cryopreservation - instrumentation
Dissection
Female
Fertility preservation
Graphite - chemistry
Materials Testing
Microscopy
Oogenesis
Ovarian Follicle - cytology
Ovarian Follicle - growth & development
Ovary
Ovary - cytology
Ovary - growth & development
Sus scrofa
Technology Report
Thermal Conductivity
Ultrarapid vitrification
Vitrification
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Summary:Effects of supporting materials during vitrification procedure on the morphologies of preantral follicles of pig ovaries were assessed. Ovarian cortical sections of prepubertal pigs were randomly allocated to 5 groups. The sections were vitrified ultrarapidly with 5 different vitrification devices. The sections were put on 4 fine needles (Cryosupport), on a thin copper plate, or on a carbon graphite sheet or were sandwiched between copper plates or between carbon graphite sheets before cooling. The cooling and warming rates with the graphite sheets were significantly higher than those with the copper plates (P<0.05). A total of 3,064 follicles were analyzed following HE staining after vitrification with 5 different devices. The morphologies follicles vitrified on the Cryosupport or on the graphite sheet were well preserved compared with those vitrified on the copper plate or between copper plates (P<0.01). The morphologies of follicles vitrified between copper plates were mostly damaged (P<0.05). Taken together, good thermally conducting material supports follicle morphologies of ovaries cryopreserved with ultrarapid vitrification.
ISSN:0916-8818
1348-4400
DOI:10.1262/jrd.2013-012