Microfluidic Analysis of Oocyte and Embryo Biomechanical Properties to Improve Outcomes in Assisted Reproductive Technologies

Overview

Journal Mol Hum Reprod

Specialties Molecular Biology
Reproductive Medicine

Date 2016 Dec 10

PMID 27932552

Citations 25

Authors

Livia Z Yanez

David B Camarillo

Affiliations

Soon will be listed here.

Abstract

Measurement of oocyte and embryo biomechanical properties has recently emerged as an exciting new approach to obtain a quantitative, objective estimate of developmental potential. However, many traditional methods for probing cell mechanical properties are time consuming, labor intensive and require expensive equipment. Microfluidic technology is currently making its way into many aspects of assisted reproductive technologies (ART), and is particularly well suited to measure embryo biomechanics due to the potential for robust, automated single-cell analysis at a low cost. This review will highlight microfluidic approaches to measure oocyte and embryo mechanics along with their ability to predict developmental potential and find practical application in the clinic. Although these new devices must be extensively validated before they can be integrated into the existing clinical workflow, they could eventually be used to constantly monitor oocyte and embryo developmental progress and enable more optimal decision making in ART.

Citing Articles

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