Pioneering 3D Cell Culture and Disease Modeling for Predictive Compound Screening
At Bioprinting Laboratories Inc., we are at the forefront of innovation in 3D cell culture and organoid-based disease modeling. Utilizing our cutting-edge proprietary pillar/perfusion plate platform and advanced microarray 3D bioprinting technology, we deliver robust solutions for dynamic 3D cell culture applications. Our revolutionary microarray 3D bioprinting technology facilitates precise robotic deposition of human cells in hydrogels on our unique pillar plates. These plates, when integrated with our perfusion plates, enable superior cell growth by enhancing molecular diffusion and assay reproducibility. This platform stands out by offering high throughput, user-friendly operation, and reliable results. Human mini-tissues (or organoids) generated from pluripotent stem cells on our pillar plates provide a predictive and scalable platform for screening drug candidates and chemicals. These organoids support various applications in pharmaceutical, cosmetic, and chemical industries. By addressing the limitations of traditional organoid culture such as low throughput and lack of reproducibility, our innovative approach bridges a critical gap in preclinical evaluations. By offering seamless integration of robust organoid culture, in situ imaging, and predictive compound screening, our technology is transforming in vitro disease models to better reflect human biology. This ultimately accelerates the development of safer and more effective therapeutic solutions, setting new standards in research and industry practices.
Pillar Plate Technology

Perfusion Plate Technology

Microarray 3D Bioprinting Technology

Applications






Why Choose Our Technology?
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10-100x assay miniaturization → Significant cost reduction in drug screening
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Enhanced organoid maturity by dynamic cell culture → More physiologically relevant data
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Compatible with standard laboratory equipment such as microtiter well plate readers and fluorescence microscopes → Seamless laboratory integration for high-throughput applications
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User-friendly design → Pump-free, dynamic cell culture without expensive equipment necessary
Supporting Evidence
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Peer-reviewed articles featuring our technology.
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