📋 Summary

This study by Boutin, M. E. & Hoffman-Kim, D was published in Tissue Engineering Part C: Methods 21, 292–302, 2014. It utilized Microtissues 3D Petri Dish® micro-molds for 3D cell culture, contributing to advances in neuroscience research.

🧠 Neuroscience

Application and Assessment of Optical Clearing Methods for Imaging of Tissue-Eng

Tissue Engineering Part C: Methods 21, 292–302, 2014 — Boutin, M. E. & Hoffman-Kim, D
Citation:
Boutin, M. E. & Hoffman-Kim, D. Application and Assessment of Optical Clearing Methods for Imaging of Tissue-Engineered Neural Stem Cell Spheres. Tissue Engineering Part C: Methods 21, 292–302 (2014)

Research Overview

This publication by Boutin, M. E. & Hoffman-Kim, D represents important research in the field of neuroscience. Published in Tissue Engineering Part C: Methods 21, 292–302, 2014, this work employed 3D Petri Dish® micro-mold technology from Microtissues to create uniform, reproducible 3D microtissues for their experimental studies.

🔬 3D Culture Approach

  • Utilized Microtissues 3D Petri Dish® micro-molds for reproducible 3D spheroid formation
  • Enabled physiologically relevant cell-cell interactions in a controlled 3D environment
  • Supported the study of complex biological processes that cannot be replicated in traditional 2D culture

How 3D Petri Dish® Enabled This Research

🟢 3D Petri Dish® Application

The researchers chose Microtissues 3D Petri Dish® micro-molds to generate uniform 3D microtissues, enabling more physiologically relevant experimental conditions compared to traditional 2D cultures.

  • Non-adhesive hydrogel micro-molds promoted self-assembly of cells into 3D spheroids
  • Uniform microtissue size ensured experimental reproducibility
  • Compatible with standard cell culture workflows and imaging techniques

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FAQs

What are 3D Petri Dish® micro-molds?

3D Petri Dish® micro-molds are non-adhesive hydrogel molds that allow cells to self-assemble into uniform, reproducible 3D microtissues (spheroids). They are compatible with standard cell culture protocols and support a wide range of cell types and applications.

Why use 3D cell culture for neuroscience research?

3D cell culture provides a more physiologically relevant environment compared to traditional 2D culture. Cells in 3D form natural cell-cell interactions, develop gradients of nutrients and oxygen, and better mimic in vivo tissue architecture — all critical for neuroscience studies.