Biomimetic Embryo Maturation System

Microfluidic dynamic culture replacing static methods with continuous media exchange, physiological flow, and real-time monitoring.

Explore Partnership
EMMA microfluidic pump unit connected to culture chambers

At a Glance

Clinical Origin

Initiated by practicing IVF embryologist

Working Prototype

Hardware, software, and real-time monitoring

3 Structures

License, co-develop, or acquire

Why Dynamic Culture

Current Practice

Outcomes
Variable results across labs and operators
Media Changes
Manual intervention introduces inconsistency
Standardization
No reproducibility between facilities
Data
No real-time monitoring or audit trail

EMMA's Approach

Media Exchange
Continuous automated flow
Environment
Physiological stimulation mimicking natural conditions
Reproducibility
Standardized results across operators
Monitoring
Real-time data logging and audit trail

EMMA is in prototype stage. Performance claims reflect design objectives validated in bench testing.

What You Get

Working Prototype

  • Microfluidic pump system with culture channels
  • Temperature control and parameter management
  • Real-time monitoring with data logging

Design Package

  • Microfluidic culture system design documentation
  • Software: control algorithms, monitoring interface
  • Hardware: pump, channels, thermal management

Clinical Origin

  • Product concept initiated by IVF embryologist
  • Designed for real clinical workflow constraints
  • Developed with research physics expertise

Flexible Terms

  • Exclusive or non-exclusive licensing
  • Co-development with shared milestones
  • Full acquisition available

Where EMMA Applies

A dynamic culture platform being developed for clinical and research environments where reproducibility matters.

IVF Clinics

Designed to replace manual static culture with automated, monitored maturation. Designed to reduce operator variability across embryologists.

Reproductive Research

Controlled microfluidic environment for embryo development studies. Built-in data logging for publishable, auditable results.

Training & Standardization

Standardized culture protocols across embryologists and facilities. Reproducible environment for training new operators.

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Common Questions

What is in vitro maturation (IVM)?

In vitro maturation is the process of maturing oocytes (eggs) outside the body before fertilization. Conventional IVM uses static droplet culture with manual media changes. EMMA replaces this with continuous microfluidic media exchange in a controlled environment.

What species does EMMA support?

EMMA is designed for mammalian oocyte maturation. The prototype has been developed in the context of bovine IVF and OPU-IVEP workflows. Adaptation to other species or human IVF applications is possible through the licensing or co-development process.

How does EMMA improve blastocyst rates?

EMMA provides continuous media exchange at physiological flow rates, controlled temperature and gas environment, and real-time monitoring — replacing the variability of manual static culture. Standardized conditions are designed to improve oocyte developmental competence and downstream blastocyst formation.

Is EMMA compatible with OPU-IVEP workflows?

Yes. EMMA is designed to integrate into existing ovum pick-up and in vitro embryo production pipelines. The maturation step replaces the conventional static culture dish with a microfluidic chamber while maintaining compatibility with standard IVF downstream steps.

Connected to IVF research or reproductive technology? We welcome introductions.

EMMA — Biomimetic Embryo Maturation System