Our cell culture system offers consistent workflow automation and utilizes AI-powered imaging guidance to ensure timely cell culture feeding and passaging. Event alerts keep users informed of their cell culture status. Our cell culture systems support 2D and 3D workflows and are ideally tailored to meet your research requirements, as this innovative solution can provide your cell culture laboratory with increased confidence in experimental results. This allows quicker decision-making, accelerated milestone achievements, and earlier progression to clinical stages, while reducing attrition rates.

Overview

Our automated cell culture system prioritizes the biologist's perspective, offering an intuitive protocol wizard to simplify workflow creation without the need for complex scripting, ensuring an easy-to-follow interface aligning with the logical flow of cell culture processes. While 2D and 3D cell culture systems differ primarily in spatial arrangement, in both, researchers meticulously control the culture conditions and environment to optimize the growth and behavior of the cultured cells, recognizing that the culture itself is a dynamic process influenced by various factors such as media composition, substrate properties, and physical cues.

The cell culture systems with 3D capability provide a more physiologically relevant environment. The advantages of opting for this system include improved mimicry of in vivo conditions, enhanced cell-cell interactions, and better representation of tissue architecture, resulting in more precise physiological responses and drug testing outcomes.

Our system, designed to support diverse model system workflows in 2D and 3D, accommodates matrix or matrix-free environments, while leveraging automated lab solutions for integrated lab automation. This ensures precise control over cell culture workflows from media exchange and passaging to imaging and analysis.

Our system provides event logs to verify timely feedings and task execution, supported by comprehensive digital microscopy records for each experiment. In both cell culture systems, researchers can investigate the detoxification capabilities of various cell types, develop model systems, and monitor cell growth and viability to study diverse biological processes, diseases, and therapeutic interventions.

Setting up and using our AI-driven cell culture systems is user-friendly and straightforward due to intuitive interfaces and detailed instructions, ensuring a seamless experience for researchers at all levels of expertise. We offer comprehensive technical support and assistance for troubleshooting and optimizing cell culture experiments.

Features

Essential Features

• Actionable imaging and turnkey protocols enable reliable media exchange, monitoring, and passaging in complex cell culture workflows.
• Automated cell culture and image analysis workflows operate continuously, even during lab closures, ensuring consistent progress.
• A unified software environment facilitates tracking of the complete cell journey over time, ensuring traceability and reproducibility tailored to specific assay endpoints.
• Early identification of outliers at the well, plate, or experiment level allows for prompt detection of variability sources, optimizing resources and streamlining the drug discovery process.
• Standardized protocol elements and real-time feedback enhance automation, expediting development and alerting users to milestones or events.
• Image-based, machine-learning decision-making reduces human error, improves productivity, helps maintain sterility, and boosts confidence in successful outcomes in cell handling processes.
• In these cell culture systems, precise control over culture conditions facilitates the study of cell differentiation and proliferation dynamics, providing insights into developmental processes and disease mechanisms.

Applications

Applications of cell culture systems (2D and 3D)

• Utilize 2D and 3D mammalian cell culture systems to streamline high-throughput drug screening processes by incorporating AI-driven analysis of patient-derived organoids, enhancing the reliability and efficiency of drug development pipelines.
• Employ 3D organoid culture automation to create accurate disease models, facilitating the study of disease progression and therapeutic interventions, thereby advancing precision medicine applications.
• Automate your cell culture processes using cell culture techniques to gain precise control over feeding and passaging schedules, reducing hands-on time in the laboratory.
• Enhance your screening workflows with continuous operation, maximizing productivity for organoid development and growing and scaling various cell lines, such as human and cancer cell lines or spheroids.
• Ensure the development of reliable and reproducible assays through a machine learning-assisted approach that standardizes the process, yielding consistent and biologically relevant results at scale.
• Harness the power of 3D organoid culture automation to develop patient-specific organoids for regenerative medicine applications, enabling personalized treatment strategies and enhancing the success rates of tissue engineering and transplantation therapies.

Utilize our human cell culture systems for continuous monitoring and maintenance of stem cell cultures over extended periods, ensuring consistent growth conditions for long-term studies on differentiation, proliferation, and cellular behavior.

FAQs