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Advanced 3D Tissue Models

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Mimic human tissues by capturing more of the native biology.

Gain insight into human diseases to develop treatments for illnesses without animal studies. BioAssemblyBot (#WeCallHerBAB) offers a way to readily manufacture, replicate, and scale in size advanced 3D tissue models. With BAB, design, simulate, fabricate and collaborate on advanced 3D tissue models.

Identify how human diseases occur.

When we understand the causes and effects of human disease new therapeutics and treatments can be realized.  

Model diseases.

Biofabricate multi-cellular systems with the ability to compartmentalize and establish tissue architecture to accurately predict what will happen in the body.

Bioprinted tissue with developing vascular networks supporting blood flow and nutrient delivery.
Graphical genomic map showing genetic variations and markers.

Identify new molecular targets.

With scaled model complexity, gain proportional new insight into molecules causing a disease. Uncover new molecular dynamics and begin to discover novel druggable targets.

Discover new drugs.

Increased throughput with comprehensive disease models to identify new drug candidates using both predictive and prescriptive assays.

Microscopic image of lymphoid tissue showing immune cell clusters and structural organization.
ASLS 3D bioprinted liver construct exposed to drug treatment for toxicity testing.

Develop drugs.

Today's advanced 3D human tissue models developed on the BAB platform offer alternatives to traditional animal study testing. Scale your validation and toxicity studies, reduce your costs, and produce results specific to human diseases. 

BioAssemblyBot 200 compact bioprinter robot operating inside biosafety cabinet for sterile tissue fabrication.          Ask C
BioAssemblyBot 400 mid-sized bioprinter fabricating tissue in enclosed lab workspace.
BioAssemblyBot 500 advanced bioprinter robot with multi-tool capability performing complex tissue fabrication.
BioAssemblyBot 200 compact bioprinter operating in biosafety cabinet for sterile biomanufacturing.
BioAssemblyBot 400 mid-size bioprinter robot performing automated tissue fabrication.
BioAssemblyBot 500 advanced bioprinter robot with multi-tool capability performing complex tissue fabrication. png

Applications

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Academic (College)


Research & Development


Pharma


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Academic (College)


Research & Development


Pharma


_

Academic (College)


Research & Development


Pharma


Clinical

Features

Build simple to moderately complex disease models


3D Additive Models



Great

Identify new molecular targets


Good

Develop new drugs


3D Print in Well Plates


4-axis Robot


Biosafety Cabinet Compatible (without enclosure)


HEPA Filtration Optional

Build simple to highly complex disease models


3D Additive & Contour Models


Great

Identify new molecular targets


Great

Develop new drugs


3D Print in Well Plates


6-axis Robot


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HEPA Filtration Optional

Build simple to highly complex disease models


3D Additive & Contour Models


Great

Identify new molecular targets


Great

Develop new drugs


3D Print in Well Plates


6-axis Robot


Integrated Class II, Type A Biosafety Cabinet


Integrated HEPA Filtration

Certifications

TSIM Certified


BioApps Certified


UL cGMP Certified


UL/CE Certification in progress

TSIM Certified


BioApps Certified


UL cGMP Certified


UL/CE Certified

TSIM Certified


BioApps Certified


UL cGMP Certified


UL/CE Certification in progress

Integrations

Up to 5 BioAssemblyBot Hands in a single run


Good

Agile integration with other lab equipment

Up to 8 BioAssemblyBot Hands in a single run


Great*

Agile integration with other lab equipment

Up to 10 BioAssemblyBot Hands in a single run


Great*

Agile integration with other lab equipment

*Requires BioBot Link

BioAssemblyBot 200 compact bioprinter operating inside a biosafety cabinet for sterile tissue fabrication.
BioAssemblyBot 400 mid-sized bioprinter robot performing automated 3D tissue fabrication in a controlled environment
BioAssemblyBot 500 large-scale bioprinter robot with multi-tool capabilities fabricating complex tissue constructs.

Explore more solutions:

3D bioprinter depositing bioinks layer-by-layer to create living tissue constructs.

3D Bioprinting

Bioprint in ways you never thought possible.
Microscopic image of a spherical organoid formed from stem cells, modeling tissue structure.

Organoids/
Spheroids

One platform, better outcomes.
Bioprinted tissue with developing vascular networks supporting blood flow and nutrient delivery.

Vascularization

Bring your tissue to life.
printed construct red and greeen.jpg

Ready to get started?

Connect with an Advanced 3D Tissue Model expert:

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3ATM Quote
UL certified label indicating safety and compliance for laboratory biomanufacturing equipment.

The BioAssemblyBot 400 is certified by UL in accordance with applicable safety requirements. The BioAssemblyBot 400 is certified by UL in accordance with applicable energy efficiency requirements.

The Advanced Solutions Louisville, KY facility has been audited by UL Registrar LLC and meets GMP requirements listed in RCP, NBCP, or Pharmaceutical Certification Schemes which is uniquely accredited by the American National Standard Institute (ANSI) developed in accordance with applicable sections of the FDA’s code of federal regulations.

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