3D cell cultures are promising alternatives to 2D as they show cell-cell interactions lacking in 2D. However, moving from 2D to 3D is a step up in complexity. Currently, 3D assays are too expensive to be used in early-stage drug development. Further, 3D assays are not yet reproducible enough for standard use. This is in part due to a lack of enabling technologies and standardized workflows needed to culture, handle, and analyse these new models.
Lucero aims to provide the pharmaceutical industry with the first standardized workflow for using miniature spheroids for chemistry optimization and metabolic profiling. To this end, we have:
1. AI qualification of miniature hepatocyte spheroids
Lucero has successfully developed an AI algorithm that can classify spheroids based on size and shape in real-time. This feature allows users to qualify spheroids before dispensing them into wells, which will help standardize assays using hepatocyte spheroids by ensuring that each data point they generate is relevant.
Lucero is working towards the goal of qualifying spheroids based on their viability, label-free. Further research must be done to understand and establish an industry-wide consensus on which morphological traits indicate viability and to understand how reliable and accurate the AI algorithm can be for this task.
By achieving this goal, Lucero’s value offering would extend far beyond the current state of the art. It would have a significant impact on the standardization of 3D assays across the industry while simultaneously preserving the vital biological function of the models by avoiding the use of labels.
3. Sorting and dispensing of single, miniature hepatocyte spheroids for chemistry optimization and metabolic profiling
Lucero has successfully demonstrated the ability to dispense single, miniature spheroids using our novel cell-handling platform. Further work must be done to increase the robustness, reproducibility, and automation of our system.
Further, in preparation for an on-site pilot project with our partners, our prototype must be packaged to ensure user safety and to reduce the instruments footprint in the lab.