Litcius/Paper detail

How great thou ART: biomechanical properties of oocytes and embryos as indicators of quality in assisted reproductive technologies

Monika Fluks, Rebecca Collier, Agnieszka Walewska, Alexander W. Bruce, Anna Ajduk

2024Frontiers in Cell and Developmental Biology11 citationsDOIOpen Access PDF

Abstract

Assisted Reproductive Technologies (ART) have revolutionized infertility treatment and animal breeding, but their success largely depends on selecting high-quality oocytes for fertilization and embryos for transfer. During preimplantation development, embryos undergo complex morphogenetic processes, such as compaction and cavitation, driven by cellular forces dependent on cytoskeletal dynamics and cell-cell interactions. These processes are pivotal in dictating an embryo's capacity to implant and progress to full-term development. Hence, a comprehensive grasp of the biomechanical attributes characterizing healthy oocytes and embryos is essential for selecting those with higher developmental potential. Various noninvasive techniques have emerged as valuable tools for assessing biomechanical properties without disturbing the oocyte or embryo physiological state, including morphokinetics, analysis of cytoplasmic movement velocity, or quantification of cortical tension and elasticity using microaspiration. By shedding light on the cytoskeletal processes involved in chromosome segregation, cytokinesis, cellular trafficking, and cell adhesion, underlying oogenesis, and embryonic development, this review explores the significance of embryo biomechanics in ART and its potential implications for improving clinical IVF outcomes, offering valuable insights and research directions to enhance oocyte and embryo selection procedures.

Topics & Concepts

BiologyEmbryoCell biologyOocyteEmbryo qualityMechanotransductionBlastocystReproductive technologyEmbryogenesisReproductive Biology and FertilitySperm and Testicular FunctionAssisted Reproductive Technology and Twin Pregnancy