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Updated: Jan 29, 2026

Development of Microfluidic Devices to Study the Elongation Capability of Tip-growing Plant Cells in Extremely Small Spaces
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Grow with the Flow: When Morphogenesis Meets Microfluidics.

Pinak Samal1, Clemens van Blitterswijk1, Roman Truckenmüller1

  • 1Department of Complex Tissue Engineering, MERLN Institute for Technology-Inspired Regenerative Medicine, Maastricht University, 6229 ER, Maastricht, The Netherlands.

Advanced Materials (Deerfield Beach, Fla.)
|February 16, 2019
PubMed
Summary
This summary is machine-generated.

Researchers are using microengineered models with pluripotent stem cells to study embryonic development and tissue formation. These advanced systems offer new insights into organogenesis and hold promise for regenerative medicine.

Keywords:
artificial organogenesiscell-material interactionsmicrofluidicsmorphogenetic microengineeringpluripotent stem cells

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Area of Science:

  • Developmental Biology
  • Regenerative Medicine
  • Biomaterials

Background:

  • Embryonic development and tissue morphogenesis are complex processes with many knowledge gaps.
  • Pluripotent stem cells offer a promising avenue for in vitro modeling of these phenomena.

Purpose of the Study:

  • To summarize in vitro morphogenetic models using pluripotent stem cells.
  • To highlight the role of microengineering and material sciences in studying organogenesis.
  • To discuss the potential of microfluidics in advancing developmental biology and regenerative medicine.

Main Methods:

  • Utilizing microengineered tools to control cellular interfaces with liquid and solid materials.
  • Employing pluripotent stem cells in controlled in vitro morphogenetic models.
  • Reviewing conventional and customized cell-culture systems.

Main Results:

  • Microengineered systems enable precise manipulation of cellular environments for studying pattern formation.
  • These models facilitate deeper insights into stem cell differentiation during organogenesis.
  • Advanced cell-culture systems support significant progress in morphogenesis research.

Conclusions:

  • Microfluidics innovations applied to morphogenesis provide critical insights for developmental biology.
  • The integration of material sciences and microengineering is crucial for future advancements.
  • These approaches hold significant potential for regenerative medicine applications.