Application notes
Written by scientists for scientists, these papers cover a wide range of applications and highlight novel ways to optimize one’s research with our devices, technologies and consumables.
All categories
BIO X
Regenerative Medicine | Tissue Engineering | BIO X | BIO X6
Printing resorbable bone implants suitable for in vitro studies and in vivo bone repair
Bioprinting | Tissue Engineering | BIO X | BIO X6
3D bioprinted reproducible tissue models for translational research using the medical grade bioink CELLINK Vivoink
Bioprinting | BIO X | BIO X6
Bioprinting of nano- and microliter droplets using the Electromagnetic Droplet Printhead
Bioprinting | BIO X
FRESH Bioprinting of Soft Biomaterials
Biodispensing | BIO X
High-throughput Spheroid Formation and Migration with TeloCol-10 for Improved Stability
Bioprinting | BIO X
High-resolution Confocal Imaging of 3D Bioprinted Liver Constructs with RCM2 System
Bioprinting | Tissue Engineering | BIO X
3D Bioprinting of Self-standing Collagen Constructs for Soft Tissue Engineering
Cancer research | BIO X
Automated Spheroid Invasion Assay Using Collagen from Advanced BioMatrix
Bioprinting | Regenerative Medicine | Tissue Engineering | BIO X | LUMEN X™
Biofabrication of Vascularized Skin Tissue Models with DLP and Extrusion Bioprinters
Bioprinting | BIO X | BIO X6 | LUMEN X™
Biofabrication of Bioreactors with DLP and Extrusion Bioprinters
Bioprinting | Cancer research | BIO X
A 3D Bioprinted Model of Multicellular Lung Cancer Assembloids
Tissue Engineering | BIO X
Biofabricating Airway Epithelial Models for COVID-19 Research
Bioprinting | Regenerative Medicine | BIO X | BIO X6
A 3D Bioprinted Model to Study Osteogenic Differentiation of Primary Mesenchymal Stem Cells
Bioprinting | Cancer research | BIO X | BIO X6
Ex Vivo Natural Killer Cell Assay Using 3D Bioprinted Cervical Cancer Tumor Models
Bioprinting | Regenerative Medicine | Tissue Engineering | BIO X | BIO X6
Printing Alginate Beads: A Technical Note
Bioprinting | Cancer research | BIO X | BIO X6
In Vitro 3D Lung Cancer Model Presents a More Relevant Expression of Junctional Proteins than 2D Cultures
Bioprinting | Regenerative Medicine | Tissue Engineering | BIO X | BIO X6
Advanced In Vitro 3D Models to Investigate iPSC Pluripotency and Capillary Network Formation of HUVECs
Bioprinting | Tissue Engineering | BIO X | BIO X6
3D Bioprinting Skin Tissue Models Using Primary Cells
Drug Discovery | BIO X | BIO X6
Evaluating Liver Toxicity in Bioprinted Mini Livers
Cancer research | BIO X