Summary
This study by Kurzmann, C. et al was published in 2017. It utilized Microtissues 3D Petri Dish® micro-molds for 3D cell culture, contributing to advances in other research.
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Evaluation of Resins for Stereolithographic 3D-Printed Surgical Guides: The Resp
2017 2017 Kurzmann, C. et al
Cite as: Citation:Kurzmann, C. et al. Evaluation of Resins for Stereolithographic 3D-Printed Surgical Guides: The Response of L929 Cells and Human Gingival Fibroblasts. BioMed Research International 2017, 1–11 (2017) doi.org/10.1155/2017/4057612
Research Overview
This publication by Kurzmann, C. et al represents important research in the field of other. Published in 2017, this work employed 3D Petri Dish® micro-mold technology from Microtissues to create uniform, reproducible 3D microtissues for their experimental studies.
Key Discoveries
- 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
3D Petri Dish® Application
3D Petri Dish® Application
- 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: