Freezing of bovine blastocysts has been proposed as a tool to improve the feasibility of cattle production by using embryo transfer technique. However, the low efficiency of frozen-thawed embryos survival and further development is a crucial problem. Thus, we examined the effect of artificial shrinkage before vitrification of bovine expanded, hatched and SCNT embryos on the survival rate, apoptosis index and further development after thawing. Expanded, hatched and SCNT embryos were vitrified after artificial shrinkage, which was performed by puncturing the blastocoele with a pulled pasteur pipet. Artificial shrinkage of the blastocyst was achieved after pushing a pulled pasteur pipet into the blastocoele cavity until it contracted. The shrunken and not shrunken embryos were exposed to cryoprotectant solution in 7.5% ethylene glycol-7.5% DMSOPBS with 20% FBS for 5 min. They were placed in a small volume of vitrification solution (15% ethylene glycol+15% DMSO+PBS+20% FBS+0.5 M sucrose) and plunged into liquid nitrogen on a cryotop. Then, after thawing, cryoprotectant was diluted in 1.0 M, 0.5 M, 0.25 M, and 0 M sucrose for 1, 3, 5, and 5 min. Under the optimal conditions, overall efficiency of the survival rate of bovine expanded, hatched, SCNT embryos in artificial shrinkage groups was higher compared with non-artificial shrinkage groups (p< 0.05). Especially, the numbers of TUNEL-positive nuclei in artificial shrinkage groups were significantly reduced than those of non-artificial shrinkage groups among frozen-thawed expanded, hatched, and SCNT blastocysts (p< 0.05). Our results showed that survival rates in cryopreserved expanded, hatched, SCNT embryos could be improved by reducing the fluid content. Therefore, we suggest that artificial shrinkage method is a effective pretreatment technique for the cryotop vitrification of expanded, hatched, SCNT bovine blastocysts.