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Updated: Jan 16, 2026

A Gradient-generating Microfluidic Device for Cell Biology
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EnGRAM: Engineering Open-Space Microfluidic Gradient Modulators.

Sofia Arshavsky-Graham1, Alisa Da Silva1,2, Jake Pringle1

  • 1School of Biomedical Engineering, University of British Columbia, Vancouver, BC Canada, V6T 2B9.

Analytical Chemistry
|October 1, 2025
PubMed
Summary
This summary is machine-generated.

Researchers developed EnGRAM, a 3D-printable device for creating dynamic microscale chemical gradients on labware surfaces. This technology offers real-time control over gradient formation for adaptable biological studies.

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Area of Science:

  • Microfluidics
  • Surface Science
  • Biomaterials

Background:

  • Traditional methods for creating chemical gradients are often static and lack real-time control.
  • Dynamic gradient generation is crucial for studying dynamic biological processes and adapting experiments in real-time.

Purpose of the Study:

  • To develop a novel approach for dynamically generating and reconfiguring microscale gradients on labware surfaces.
  • To create a toolbox of devices (EnGRAM) for user-directed, real-time modulation of chemical gradients.

Main Methods:

  • Merging fluid mixing in microchannels with microfluidic scanning probe technology.
  • Utilizing a 3D printing-based rapid prototyping workflow for device fabrication.
  • Developing an analytical model for predicting concentration profiles.

Main Results:

  • Demonstrated real-time temporal, spatial, and spatiotemporal control over gradient formation.
  • Achieved diverse concentration profiles (linear, exponential, Gaussian, stepwise) with feature dimensions as small as 75 μm.
  • Functional prototypes fabricated within approximately 20 minutes.

Conclusions:

  • EnGRAM devices offer a versatile platform for generating user-directed, real-time biomimetic gradients.
  • This technology opens new avenues for adaptive studies in chemical and biological systems.
  • The rapid prototyping and analytical model facilitate accessible gradient generation.