Poster
Platform
Bon3OID blends bioprinting, mechanics, and imaging
The Bon3OID™ platform is a robust, reproducible framework that captures key aspects of human bone biomechanics and remodeling while enabling scalable preclinical and translational workflows with defined functional endpoints.
Bioprinted bone organoids
Human cell-based, mineralized bone constructs derived from healthy or disease-relevant sources.
Mechanical loading
Controlled cyclic loading to support bone formation, remodeling, and functional maturation.
Functional readouts
Micro-CT, histology, and molecular analyses to generate quantitative structural, cellular, and molecular endpoints.
Impact
Value across the research pipeline
Bon3OID generates functional, human-relevant bone biology endpoints that support confident decisions across preclinical and translational research.
Researchers
Generate early, human-relevant efficacy and mechanism data that supports clear go/no-go decisions in bone-focused drug development.
Translational teams
Align preclinical findings with translational hypotheses by linking functional bone biology to disease-relevant and patient-derived models.
Clinical outlook
Test translational hypotheses by revealing longitudinal functional bone signals early.
Payers
Support downstream value discussions by enabling earlier insight into treatment response in bone-related diseases.
Resources
Latest resources
Recent publications and posters supporting Bon3OID.
Publication
Physiological Cell Bioprinting Density in Human Bone-Derived Cell-Laden Scaffolds Enhances Matrix Mineralization Rate and Stiffness Under Dynamic Loading
Frontiers in Bioengineering and Biotechnology, 2024
Poster