Skip to Content
Merck
  • Following the course of pre-implantation embryo patterning by non-linear microscopy.

Following the course of pre-implantation embryo patterning by non-linear microscopy.

Journal of structural biology (2011-10-04)
Christiana Kyvelidou, George J Tserevelakis, George Filippidis, Anthi Ranella, Anastasia Kleovoulou, Costas Fotakis, Irene Athanassakis
ABSTRACT

Embryo patterning is subject to intense investigation. So far only large, microscopically obvious structures like polar body, cleavage furrow, pro-nucleus shape can be evaluated in the intact embryo. Using non-linear microscopic techniques, the present work describes new methodologies to evaluate pre-implantation mouse embryo patterning. Third Harmonic Generation (THG) imaging, by detecting mitochondrial/lipid body structures, could provide valuable and complementary information as to the energetic status of pre-implantation embryos, time evolution of different developmental stages, embryo polarization prior to mitotic division and blastomere equivalence. Quantification of THG imaging detected highest signalling in the 2-cell stage embryos, while evaluating a 12-18% difference between blastomeres at the 8-cell stage embryos. Such a methodology provides novel, non-intrusive imaging assays to follow up intracellular structural patterning associated with the energetic status of a developing embryo, which could be successfully used for embryo selection during the in vitro fertilization process.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
EmbryoMax® KSOM Mouse Embryo Media, (1X), Liquid, with 1/2 Amino Acids & Phenol Red