Bioprinting News and Research

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Bioprinting involves the use of 3D printing technology to build tissues and organs. Bioprinting precisely places cells, proteins, DNA, drug particles, growth factors and biologically active particles spatially to guide tissue generation and formation. It has been used extensively in the field of regenerative medicine.
Mucus-Based Bioink Shows Promise for 3D-Printed Lung Tissue

Mucus-Based Bioink Shows Promise for 3D-Printed Lung Tissue

Transition to Laser-Based 3D Bioprinting: Stride Towards Addressing Organ Shortage

Transition to Laser-Based 3D Bioprinting: Stride Towards Addressing Organ Shortage

Could Bio-Printing Be the Future of Affordable and Personalized Healthcare?

Could Bio-Printing Be the Future of Affordable and Personalized Healthcare?

Combating the Illegal Organ Trade with Bio-Printing

Combating the Illegal Organ Trade with Bio-Printing

FluidForm Bio 3D Bioprints Human Cardiac Tissue for Drug Development Breakthrough

FluidForm Bio 3D Bioprints Human Cardiac Tissue for Drug Development Breakthrough

A Glimpse into Future: Bioprinted Organs May Become Reality in Two Decades

A Glimpse into Future: Bioprinted Organs May Become Reality in Two Decades

Biofabrication of Engineering Living Systems With Single-Cell Resolution

Biofabrication of Engineering Living Systems With Single-Cell Resolution

Unlocking the Potential of Lab-Made Hydrogel for Tissue Growth and Medical Applications

Unlocking the Potential of Lab-Made Hydrogel for Tissue Growth and Medical Applications

A Biocompatible Method for Making Complex Cell-Based Soft 3D Architectures

A Biocompatible Method for Making Complex Cell-Based Soft 3D Architectures

Bioprinted Neural Networks Mimic Brain Circuitsdani

Bioprinted Neural Networks Mimic Brain Circuitsdani

Next Step in Sartorius Partnership Finalized: Several Subsales and Distribution Agreements as Well as R&D Project Agreements Have Been Signed

Next Step in Sartorius Partnership Finalized: Several Subsales and Distribution Agreements as Well as R&D Project Agreements Have Been Signed

Achieving 3D Printing Inside 'Mini-Organs' Growing in Hydrogels

Achieving 3D Printing Inside 'Mini-Organs' Growing in Hydrogels

Novel Technique Overcomes Challenges of Bioprinting

Novel Technique Overcomes Challenges of Bioprinting

Researchers Publish a Detailed Protocol for Making Three Cell Types From iPSCs

Researchers Publish a Detailed Protocol for Making Three Cell Types From iPSCs

Novel 3D Bioink Induces Organ Regeneration

Novel 3D Bioink Induces Organ Regeneration

Innovative method to quickly identify bacteria in fluids

Innovative method to quickly identify bacteria in fluids

Inventia Life Science collaborates with MSD to develop 3D advanced cell models for neurodegenerative disease drug discovery

Inventia Life Science collaborates with MSD to develop 3D advanced cell models for neurodegenerative disease drug discovery

New platform to study the feeding behavior of mosquitoes

New platform to study the feeding behavior of mosquitoes

New technique provides an unlimited supply of patient-derived tissues to study AMD

New technique provides an unlimited supply of patient-derived tissues to study AMD

New bioprinting platform to replicate tumors in 3D spheroids

New bioprinting platform to replicate tumors in 3D spheroids

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