Plate organoid/ Matrigel suspension
Incubate 10 min to allow Matrigel to solidify
Add media
Incubate plates for 48 hours
Exchange media and add compounds
Monitor organoid response to compounds over time
BioAssemblyBot 400 3D bioprinter/dispenser
Automated CO2 incubator
(LiCoNIC Wave STX44)
ImageXpress Confocal HT.ai System
Begin your workflow with standardized, high-quality and reproducible organoids. We can help you develop, scale up, and manufacture these superior biological models.
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Custom Organoid Expansion Service
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Custom Organoid Expansion Service
Flyer
Organoids are thawed and mixed with medium. Then the BAB400 uses its 6-axis robotic arm to create an effective path design for the pipette and pick-and-place tools.
A case study for assay-ready patient derived organoids (PDOs) and high-throughput 3D imaging to advance drug discovery
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A case study for assay-ready patient derived organoids (PDOs) and high-throughput 3D imaging to advance drug discovery
Read Blog
Organoids are seeded into the center of 96-well plates, incubated, and then media is dispensed at the edge of wells.
Automated dispensing, monitoring, and assay development of hydrogel-based cellular models
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Automated dispensing, monitoring, and assay development of hydrogel-based cellular models
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Organoids are incubated over time
How 3D Cell Models Will Shape the Future of Drug Discovery
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How 3D Cell Models Will Shape the Future of Drug Discovery
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Novel patient-derived colorectal cancer organoid platform for automated high-throughput drug discovery applications
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A series of drug dilutions are added to the plates with media exchange and periodically screened to identify phenotypic changes.
Novel patient-derived colorectal cancer organoid platform for automated high-throughput drug discovery applications
Read Application Note
Wells are stained to perform a live/dead assay using high-content imaging combined with AI-powered data analytics to evaluate size and viability of organoids.
AI enabled phenotypic analysis of label-free intestinal organoids
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AI enabled phenotypic analysis of label-free intestinal organoids
Read Application Note
The ImageXpress® Confocal HT.ai High-Content Imaging System utilizes a seven-channel laser light source with eight imaging channels to enable highly multiplexed assays while maintaining high throughput by using shortened exposure times. Water immersion objectives improve image resolution and minimize aberrations so scientists can see deeper into thick samples. The powerful combination of MetaXpress® software and IN Carta® software simplifies workflows for advanced phenotypic classification and 3D image analysis with machine learning capabilities and an intuitive user interface.
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The LiCONiC Wave STX44 automated CO2 incubator is a complete solution for controlled environmental automated storage in laboratory automation designed with proprietary technology that delivers a robust system for frequent access and optimum environmental control using a variety of labware.
Innovative Solutions for Drug Discovery and Life Sciences Research
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BioAssemblyBot® 400 (BAB400) by Advanced Solutions is an intelligent robot used by life scientists to build 3D model systems with increased throughput and precision, alleviating common concerns associated with manual workflows. As part of an optimized automation workflow, the BAB’s 6-axis robotic arm utilizes a wide range of interchangeable fabrication tools to reliability reproduce 3D tissues and organoids.
See it in action
BioAssemblyBot 400: more than a bioprinter
View Brochure
BioAssemblyBot 400: more than a bioprinter
View Brochure
Innovative Solutions for Drug Discovery and Life Sciences Research
View Brochure
See it in action
ImageXpress Confocal HT.ai
View Brochure
ImageXpress Confocal HT.ai
View Brochure
BioAssemblyBot® 400 (BAB400) by Advanced Solutions is an intelligent robot used by life scientists to build 3D model systems with increased throughput and precision, alleviating common concerns associated with manual workflows. As part of an optimized automation workflow, the BAB’s 6-axis robotic arm utilizes a wide range of interchangeable fabrication tools to reliability reproduce 3D tissues and organoids.
BioAssemblyBot 400: more than a bioprinter
View Brochure
BioAssemblyBot 400: more than a bioprinter
View Brochure
BioAssemblyBot® 400 (BAB400) by Advanced Solutions is an intelligent robot used by life scientists to build 3D model systems with increased throughput and precision, alleviating common concerns associated with manual workflows. As part of an optimized automation workflow, the BAB’s 6-axis robotic arm utilizes a wide range of interchangeable fabrication tools to reliability reproduce 3D tissues and organoids.
BioAssemblyBot 400: more than a bioprinter
View Brochure
BioAssemblyBot 400: more than a bioprinter
View Brochure
The LiCONiC Wave STX44 automated CO2 incubator is a complete solution for controlled environmental automated storage in laboratory automation designed with proprietary technology that delivers a robust system for frequent access and optimum environmental control using a variety of labware.
Innovative Solutions for Drug Discovery and Life Sciences Research
View Brochure
Innovative Solutions for Drug Discovery and Life Sciences Research
View Brochure
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See it in action
See it in action
See it in action
