Trials / Not Yet Recruiting

Not Yet RecruitingNCT07516626

Patient-Derived Organoids to Functionally Characterize Chemotherapy Resistance in Breast Cancer

Functional Characterization of Neoadjuvant Chemotherapy Resistance in Breast Cancer Using Patient-Derived Organoid Models and Development of Drug Repurposing Strategies With Next-Generation Small Molecules

Summary

This prospective observational study aims to functionally characterize chemotherapy resistance in patients with locally advanced breast cancer undergoing neoadjuvant chemotherapy. Despite standard molecular classification, significant heterogeneity in treatment response exists, and the biological mechanisms underlying chemoresistance remain incompletely understood. In this study, patient-derived organoid (PDO) models will be established from tumor tissues obtained during routine clinical care. These three-dimensional models preserve the biological characteristics of individual tumors and enable ex vivo functional assessment of drug response. Chemotherapy sensitivity and resistance will be evaluated using quantitative parameters including Half-Maximal Inhibitory Concentration (IC50) values, cell viability, and apoptotic response. Functional data obtained from PDO models will be correlated with clinical and pathological treatment outcomes, particularly pathological complete response (pCR), to assess the predictive value of PDO-based assays. In addition, apoptotic biomarkers such as Caspase-3/7 will be measured in serum samples collected during routine clinical evaluation and analyzed in relation to treatment response. Furthermore, selected Food and Drug Administration (FDA) and European Medicines Agency (EMA) approved small molecules will be tested in PDO models to evaluate their potential to reverse chemotherapy resistance, supporting drug repurposing strategies. This study aims to establish a functional, patient-specific platform for assessing chemoresistance and to contribute to the development of personalized therapeutic approaches in breast cancer.

Detailed description

Breast cancer is one of the most common malignancies worldwide, and neoadjuvant chemotherapy (NACT) is a standard treatment approach in patients with locally advanced disease. Achieving pathological complete response (pCR) after NACT is strongly associated with improved long-term outcomes. However, significant inter-patient variability in treatment response is observed, even among patients with similar molecular subtypes, highlighting the need for functional approaches to better understand and predict chemotherapy resistance. Current predictive models based on molecular and genomic profiling are limited in their ability to capture the dynamic and functional behavior of tumors. Patient-derived organoid (PDO) models have emerged as a promising platform that preserves tumor architecture, heterogeneity, and biological characteristics, enabling patient-specific functional drug testing in a controlled ex vivo environment. In this prospective observational study, 40 adult female patients diagnosed with locally advanced breast cancer and scheduled to receive neoadjuvant chemotherapy will be enrolled. Tumor tissues obtained during routine diagnostic or therapeutic procedures will be used to establish PDO cultures. No additional invasive procedures will be performed for research purposes. PDO models will be subjected to standardized drug response assays to evaluate chemotherapy sensitivity and resistance. Quantitative endpoints will include dose-response curves (Half-Maximal Inhibitory Concentration (IC50) values), cell viability assays, and apoptotic activity measurements, particularly Caspase-3/7 activation. These functional parameters will be integrated to define resistance phenotypes at the individual patient level. Clinical and pathological response data, including pCR status, will be collected and correlated with PDO-derived functional results to assess the predictive performance of the PDO platform. In parallel, serum samples obtained during routine clinical care will be analyzed for apoptotic biomarkers, and their association with treatment response will be evaluated. In addition, selected Food and Drug Administration (FDA) and European Medicines Agency (EMA) approved small molecules, particularly those not currently used in breast cancer treatment, will be tested on PDO models to investigate their potential to overcome chemotherapy resistance. This approach aims to identify candidate agents for drug repurposing and to generate a functional drug sensitivity profile for each patient. The ultimate goal of this study is to develop a reproducible and clinically relevant functional assay system that integrates ex vivo drug response data with clinical outcomes. This platform may contribute to improved prediction of treatment response, identification of resistance mechanisms, and development of personalized therapeutic strategies in breast cancer.

Conditions

• Breast Cancer
• Locally Advanced Breast Cancer (LABC)

Timeline

Start date

2026-06-01

Primary completion

2027-06-01

Completion

2029-06-01

First posted

2026-04-08

Last updated

2026-04-13

Locations

1 site across 1 country: Turkey (Türkiye)

Source: ClinicalTrials.gov record NCT07516626. Inclusion in this directory is not an endorsement.