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Vitrification of mouse embryos with super-cooled air

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1 Vitrification of mouse embryos with super-cooled air
Mark G. Larman, Ph.D., David K. Gardner, Ph.D.  Fertility and Sterility  Volume 95, Issue 4, Pages (March 2011) DOI: /j.fertnstert Copyright © 2011 American Society for Reproductive Medicine Terms and Conditions

2 Figure 1 (A) The Rapid-i, a noncontact vitrification device composed of a weighted storage straw that is sealed at one end and a plastic rod, which holds the embryos (circled). (B–D) The Rapid-i is loaded with the embryos and vitrification medium by pipetting the embryos (or in this case 100-μm beads) into the 50-nL hole. The fact that the embryos sit in a hole, which is flanked by the flange, means that the embryos are very well protected. The submicroliter volume and high viscosity of the vitrification solution also mean that the embryos remain steadfast on the device. (E, F) Cooling rates of both methods (pre- and postsealing, respectively) are sufficient to vitrify the vitrification solution; the Rapid-i was removed from the straw under liquid nitrogen in a large Petri dish so that images could then be taken while the Rapid-i remained submerged in liquid nitrogen. (G) Filling the hole with the holding solution (no cryoprotectant) results in it freezing, becoming opaque. Fertility and Sterility  , DOI: ( /j.fertnstert ) Copyright © 2011 American Society for Reproductive Medicine Terms and Conditions

3 Figure 2 F1 hybrid mouse pronuclear oocytes were cultured in a simple medium lacking amino acids and EDTA to increase their sensitivity to the vitrification procedure. On day 3 the eight-cell embryos were then divided into three treatments: [1] control (nonvitrified); [2] presealing, whereby the Rapid-i was inserted inside a straw, sealed, and then plunged into liquid nitrogen; and [3] postsealing, whereby the Rapid-i was inserted into a straw (sealed at the bottom) that was suspended in liquid nitrogen so that the air inside the straw was super-cooled. After warming, the embryos were cultured until day 5 (a total of 96 hours of in vitro culture). (A) Blastocyst development was scored on the afternoon of day 4 (i.e., at a minimum the formation of the blastocele cavity) and the morning of day 5 (i.e., fully expanded blastocele cavity). No significant difference in blastocyst development on day 4 or day 5 was observed, and both vitrification methods were comparable to the control. (B) After the day-5 score, embryos were fixed and stained to enable the number of cells in each expanded blastocyst to be determined. The presealing method resulted in blastocysts with significantly lower cell numbers compared with the postsealing vitrification method and the control (P<.01). Two embryos were placed on each Rapid-i, and 60 embryos composed each treatment over seven replicates. Fertility and Sterility  , DOI: ( /j.fertnstert ) Copyright © 2011 American Society for Reproductive Medicine Terms and Conditions

4 Figure 3 (A) F1 pronuclear oocytes were vitrified and immediately warmed. Embryos were then cultured until day 4 alongside nonvitrified controls. Four to five blastocysts were transferred on day 4 from the two groups into separate uterine horns of pseudopregnant recipients. On day 15 of the pregnancy, fetus and placenta weight, and crown–rump length were determined. Fetal development parameters, including ear, eye, and limb, were not different between control and vitrified groups. These data represent embryos transferred to 10 mice over eight replicates. (B) F1 pronuclear oocytes were vitrified with the Rapid-i and stored for 12 months. After warming, the embryos were cultured until day 5 (a total of 96 hours of in vitro culture) alongside nonvitrified controls. Blastocyst development was monitored on the afternoon of day 4 and the morning of day 5. Embryo development was not affected by long-term storage. After the day 5 score, embryos were fixed and stained to enable the number of cells in each blastocyst to be determined. Cell number was not affected by long-term storage. (C) Image of day-5 blastocysts after long-term cryostorage on the Rapid-i and a representative nuclei staining image, from which total cell numbers were determined. Thirty embryos were used per treatment over three replicates. Fertility and Sterility  , DOI: ( /j.fertnstert ) Copyright © 2011 American Society for Reproductive Medicine Terms and Conditions

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