The OVAREX study: Establishment of ex vivo ovarian cancer models to validate innovative therapies and to identify predictive biomarkers.

BACKGROUND: Ovarian cancer is the first cause of death from gynecological malignancies mainly due to development of chemoresistance. Despite the emergence of PARP inhibitors, which have revolutionized the therapeutic management of some of these ovarian cancers, the 5-year overall survival rate remains around 45%. Therefore, it is crucial to develop new therapeutic strategies, to identify predictive biomarkers and to predict the response to treatments. In this context, functional assays based on patient-derived tumor models could constitute helpful and relevant tools for identifying efficient therapies or to guide clinical decision making. METHOD: The OVAREX study is a single-center non-interventional study which aims at investigating the feasibility of establishing in vivo and ex vivo models and testing ex vivo models to predict clinical response of ovarian cancer patients. Patient-Derived Xenografts (PDX) will be established from tumor fragments engrafted subcutaneously into immunocompromised mice. Explants will be generated by slicing tumor tissues and Ascites-Derived Spheroids (ADS) will be isolated following filtration of ascites. Patient-derived tumor organoids (PDTO) will be established after dissociation of tumor tissues or ADS, cell embedding into extracellular matrix and culture in specific medium. Molecular and histological characterizations will be performed to compare tumor of origin and paired models. Response of ex vivo tumor-derived models to conventional chemotherapy and PARP inhibitors will be assessed and compared to results of companion diagnostic test and/or to the patient's response to evaluate their predictive value. DISCUSSION: This clinical study aims at generating PDX and ex vivo models (PDTO, ADS, and explants) from tumors or ascites of ovarian cancer patients who will undergo surgical procedure or paracentesis. We aim at demonstrating the predictive value of ex vivo models for their potential use in routine clinical practice as part of precision medicine, as well as establishing a collection of relevant ovarian cancer models that will be useful for the evaluation of future innovative therapies. TRIAL REGISTRATION: The clinical trial has been validated by local research ethic committee on January 25th 2019 and registered at ClinicalTrials.gov with the identifier NCT03831230 on January 28th 2019, last amendment v4 accepted on July 18, 2023.

Quality control of extracorporeal photochemotherapy: Proliferation assay using CFSE validated according to ISO 15189:2007 standards.

BACKGROUND: For the last 40 years, the technique of extracorporeal photopheresis (ECP) has constantly developed. Among irradiation systems, those called "off-line" allow the validation of the quality of the cell therapy product. The inhibition of the proliferation of lymphocytes after ultraviolet irradiation (UVA) is usually verified by the tritiated thymidine assay as in vitro proliferation assay. The document presented here describes the results obtained while performing the setting up of an alternative proliferation assay using flow cytometry according to ISO 15189:2007 Standard. METHODS: Cells samples taken before and after UVA irradiation were labeled with CarboxyFluorescein Succinimidyl Ester (CFSE) and then cultured with phytohemagglutinin-A (PHA). After 3 days, an analysis of the CFSE staining was realized by flow cytometry. In order to validate the shift in the method used according to Standard, the following tests were performed: 1) comparison with the reference method, 2) robustness test, 3) reagents stability. RESULTS: Comparison method demonstrated that the sensitivity of the CFSE test is 100%, the specificity is 89%, and the concordance is almost complete. The CFSE test is robust regarding parameters like cell concentration or PHA concentration. PHA and CFSE are stable for 6 months and one year, respectively. CONCLUSION: Validation of this alternative test, according to the ISO 15189:2007 Standard, has demonstrated good concordance with reference method. The results of the robustness and stability of reagents are appropriate for its routine use. Thus, the benefits of alternative technique make it a wise choice for the quality control of ECP in a cell therapy laboratory.