Oxygen Equilibration Dynamics in Assisted Reproductive Technology Embryo Culture Media
Sanjana Kulkarni, Bailey K Morris, Sacha A Krieg, Thomas O’Leary, Adam Krieg

TL;DR
This study examines how oxygen levels change in embryo culture media during common lab practices in assisted reproductive technology.
Contribution
The study quantifies oxygen equilibration dynamics and shows how oil viscosity affects these changes.
Findings
Media equilibrated from atmospheric to hypoxic conditions within 12 hours.
Light oil overlays allow faster equilibration and reoxygenation compared to heavy oil.
Reoxygenation occurs rapidly, with light oil droplets doubling oxygen saturation in 50 minutes.
Abstract
Optimal oxygen tension is essential for successful in vitro embryo culture in assisted reproductive technology (ART). Reduced oxygen levels (3–8%) improve embryo development by minimizing oxidative stress, however, limited knowledge exists about transient oxygen fluctuations during handling outside hypoxic incubators. This study aimed to quantify the kinetics of oxygen equilibration in embryo culture media under conditions designed to mimic common ART laboratory practices. Embryo culture media droplets were prepared in room air and overlayed with light or heavy mineral oil. Dishes were equilibrated in a hypoxia chamber (5% O2, 5% CO2, 37°C), then transferred to an atmospheric incubator (18–19% O2, 5% CO2) for equilibration, and then this was repeated once more. Oxygen saturation was measured every 30 seconds using a fiber optic microprobe (PreSens, GmbH). Each experiment was replicated…
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Taxonomy
TopicsReproductive Biology and Fertility · 3D Printing in Biomedical Research · Ovarian function and disorders
