135 IN VITRO DEVELOPMENT OF IN VIVO PRODUCED EMBRYOS FROZEN AT MORULA OR BLASTOCYST STAGES
R. Sartori, G. M. Machado, M. M. Guardieiro, M. R. Bastos, L. Leme, E. Siqueira Filho, R. Rumpf and M. A. N. Dode
Reproduction, Fertility and Development
20(1) 148 - 148
Published: 12 December 2007
Abstract
This study was designed to compare cryotolerance between morulae and blastocysts collected from superovulated heifers. Twenty pubertal beef heifers (10 Nelore and 10 crossbred Nelore × Simmental) were superovulated with 100 mg of FSHp (Folltropin-V, Bioniche, Ontario, Canada), and embryos were collected and evaluated 7 days after estrus. Grades 1 and 2 embryos (IETS) were divided into four groups: morulae cryopreserved (MC) in liquid nitrogen (n = 24); blastocysts cryopreserved (BC; n = 19); morulae fresh (MF; n = 23); and blastocysts fresh (BF; n = 18). For freezing, embryos were immersed in ethylene glycol (Ethylene Glycol Freeze Plus with 0.1 m sucrose, Bioniche, Pullman, WA, USA), and a standard protocol (cooling rate of –0.5°C/min) was used. Prior to in vitro culture, embryos were removed from nitrogen, kept at room temperature for 5 s, and put in a water bath at 30°C for 20 s. Within 5 h after recovery, thawed and fresh embryos were washed five times in holding solution (Holding Plus, Bioniche), transferred to synthetic oviduct fluid medium (SOF, Nutricell, Campinas, SP, Brazil), and cultured for 72 h. Embryos were evaluated at 48 and 72 h of culture. After the last evaluation, degenerate and non-hatched embryos were removed from culture, and the remaining embryos were measured by a graduated ocular coupled to the Motic Images Plus 2.0 program. Hatched blastocysts were kept in culture for an additional 48 h for post-hatching development assessment. For post-hatching culture PHD medium (Brandão DO et al. 2005 Biol. Reprod. 71, 2048–2055) was added into each well, to have a final composition of 50% SOF and 50% SOF PHD. At 120 h of culture (48 h of PHD culture) only morphologically normal blastocysts were measured. Comparison among groups was performed by ANOVA or chi-square test. Data are presented as mean ± SEM. After 48 h of culture, hatching rate (%) was significantly lower in cryopreserved (MC = 8.3 and BC = 21.5) than in fresh (MF = 56.5 and BF = 77.8) embryos (P < 0.05). However at 72 h, hatching rate was similar among BC (75.9), MF (78.3), and BF (88.9), being MC (41.7) still lower (P < 0.05). The diameter (µm) of hatched embryos after 72 h of culture was 272.8 ± 27.1a (n = 8), 320.6 ± 18.6ab (n = 14), 385.3 ± 14.2c (n = 17), and 378.0 ± 22.0bc (n = 16) for MC, BC, MF, and BF, respectively (a–cP < 0.05). After 120 h of culture, the diameter of MC (379.0 ± 39.9; n = 8), although similar to BC (495.4 ± 59.6; n = 10), was smaller than MF (509.1 ± 36.5; n = 11) and BF (511.8 ± 41.2; n = 14). The results of this study with zebu cattle suggest that morulae are less resistant to cryopreservation in liquid nitrogen than blastocysts. Moreover, frozen/thawed embryos, when put in culture, present a slower development compared with fresh embryos.Financial support from CNPq and FAPESP from Brazil.
https://doi.org/10.1071/RDv20n1Ab135
© CSIRO 2007