Patient-derived Organoids in Bladder Cancer: Opportunities and Challenges.

Abstract

Background and objective: Bladder cancer (BLCa) remains a prevalent malignancy with high recurrence rates and limited treatment options. In recent years, patient-derived organoids (PDOs) have emerged as a promising platform for studying cancer biology and therapeutic responses in a personalized manner. Using drug screening, PDOs facilitate the identification of novel therapeutic agents and translational treatment strategies. Moreover, their ability to model patient-specific responses to treatments holds promise for predicting clinical outcomes and guiding treatment decisions. This exploratory review aims to investigate the potential of PDOs in advancing BLCa research and treatment, with an emphasis on translational clinical approaches. Furthermore, we analyze the feasibility of deriving PDOs from minimally invasive blood and urine samples.

Methods: In addition to exploring hypothetical applications of PDOs for predicting patient outcomes and their ability to model different stages of BLCa, we conducted a comprehensive PubMed search on already published data as well as comprehensive screening of currently ongoing trials implementing PDOs in precision medicine in cancer patients irrespective of the tumor entity.

Key findings and limitations: While the research on BLCa PDOs is advancing rapidly, data on both BLCa PDO research and their clinical application are scarce. Owing to this fact, a narrative review format was chosen for this publication.

Conclusions and clinical implications: BLCa PDOs have the potential to influence the domain of precision medicine and enhance personalized cancer treatment strategies. However, standardized protocols for PDO generation, their ideal clinical application, as well as their impact on outcomes remain to be determined.

Patient summary: In this review, we discuss the current state and future needs for the use of patient-derived organoids, small three-dimensional avatars of tumor cells, in bladder cancer. Patient-derived bladder cancer organoids offer a more personalized approach to studying and treating bladder cancer, providing a model that closely resembles the patient's own tumor. These organoids can help researchers identify new treatment options and predict how individual patients may respond to standard therapies. By using minimally invasive samples such as blood and urine, patients can participate in research studies more easily, potentially leading to improved outcomes in bladder cancer treatment.