Microfluidic automation improves oocyte recovery from follicular fluid of patients undergoing in vitro fertilization
Summary
Infertility is a global health challenge affecting millions worldwide, and in vitro fertilization (IVF) remains the main treatment option. The increasing demand for IVF necessitates innovations that improve access, efficiency and outcomes. To address this need, we developed a microfluidic device (FIND-Chip) that automates the isolation and denudation of oocytes from follicular fluid (FF), a critical step in IVF workflow. In a clinical study involving 582 patients from four IVF centers, FIN
Content
# Microfluidic automation improves oocyte recovery from follicular fluid of patients undergoing in vitro fertilization
*Published: 2026 Mar*
Infertility is a global health challenge affecting millions worldwide, and in
vitro fertilization (IVF) remains the main treatment option. The increasing
demand for IVF necessitates innovations that improve access, efficiency and
outcomes. To address this need, we developed a microfluidic device (FIND-Chip)
that automates the isolation and denudation of oocytes from follicular fluid
(FF), a critical step in IVF workflow. In a clinical study involving 582
patients from four IVF centers, FIND-Chip was utilized to perform automated
oocyte recovery from FF and revealed that in more than 50% of the cases
functional and mature oocytes are inadvertently discarded under current clinical
practice. These undetected oocytes successfully developed into high-quality
blastocysts, thereby substantially expanding the embryo pool available for
patients' treatment. Notably, an oocyte that was retrieved by FIND-Chip from a
clinically screened and discarded FF sample led to a live birth, highlighting
the potential of microfluidic automation to enhance IVF success rates.
DOI: 10.1038/s41591-026-04207-x