Abstract
The field of oncology increasingly focuses on strategies to predict effectiveness of a given therapy on a patient-by-patient basis. Such precision or personalized oncology has the potential of significantly extending patient survival time. Patient-derived organoids are seen as the main source of patient tumor tissue that may be used for therapy testing in personalized oncology. The gold standard approach for culturing cancer organoids is in standard multi-well plates coated with Matrigel. Despite their effectiveness, these standard organoid cultures have drawbacks, namely, requirement of a large starting cell population and polydispersity of cancer organoid sizes. The latter drawback makes it challenging to monitor and quantify changes in organoid size in response to therapy. Microfluidic devices with integrated arrays of microwells may be used to both decrease the amount of starting cellular material required to form organoids and to standardize organoid size to make therapy assessment easier. Herein, we describe methodology for making microfluidic device as well as for seeding patient-derived cancer cells, culturing organoids, and testing therapies using these devices.
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