Effect of using slush nitrogen (SN2) on development of microsurgically manipulated vitrified/warmed mouse embryos

doi:10.1093/humrep/dem206

Hum. Reprod. Advance Access originally published online on July 3, 2007
Human Reproduction 2007 22(9):2509-2514; doi:10.1093/humrep/dem206

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© The Author 2007. Published by Oxford University Press on behalf of the European Society of Human Reproduction and Embryology. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org

Effect of using slush nitrogen (SN₂) on development of microsurgically manipulated vitrified/warmed mouse embryos

Dong Ryul Lee¹^,3, Yun Hee Yang¹, Jin Hee Eum¹, Jin Seong Seo¹, Jung Jae Ko¹, Hyung Min Chung¹^,2 and Tae Ki Yoon¹

¹ Fertility Center of CHA General Hospital, CHA Research Institute, Pochon CHA University, 606-5 Yeoksam-dong, Gangnam-gu, Seoul 135-081, Republic of Korea ² Chabiotech Co. Ltd, Seoul 135-081, Republic of Korea

³ Correspondence address. Tel: +82-2-3468-3422; Fax: +82-2-501-8704; E-mail: drleedr{at}cha.ac.kr

BACKGROUND: This study evaluated the effect of vitrification using slushnitrogen (SN₂) on cryopreservation of micromanipulated mouseembryos.

METHODS: The zona pellucida of 4-cell embryos was either left intactor dissected or dissected with biopsy of an intact blastomere.In a second study, a blastomere was destroyed and either removed(removed group) or not removed (remained group) prior to vitrification/freezing.The micromanipulated embryos were equilibrated and loaded intoan open pulled straw (OPS), and plunged into liquid nitrogen(LN₂) or SN₂.

RESULTS: When using LN₂ vitrification, recovery and blastocyst formationrates of embryos were lower for zona pellucida-opened and/orblastomere-biopsied embryos compared with zona pellucida-intactembryos. Using SN₂ for vitrification resulted in increased survivaland development of vitrified/warmed embryos in both the zonapellucida-opened and blastomere-biopsy groups. Similar resultswere observed when using embryos with a destroyed blastomereeither removed or left remaining before vitrification. However,the number of total and apoptotic cells were similar for bothLN₂ and SN₂. In addition, using SN₂ increased the rate of intactrecovery and blastocyst formation in warmed hemi-8-cell embryosderived from the same embryo.

CONCLUSIONS: These results suggest that vitrification using SN₂ is usefulin cryopreservation of micromanipulated embryos obtained froma variety of programs, including assisted hatching, preimplantationgenetic diagnosis and nuclear transfer.

Key words: vitrification/slush nitrogen (SN₂)/micromanipulated embryos/mouse embryo/embryonic development

Submitted on April 2, 2007; resubmitted on June 3, 2007; accepted on June 13, 2007.

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