Tumor stroma proportion to predict platinum chemoresistance in primary ovarian carcinomas: A prospective study

• Published in: Journal of clinical oncology Vol. 37; no. 15_suppl; p. 5581
• Main Authors: Lou, Emil, Vogel, Rachel Isaksson, Hoostal, Spencer, Grad, Aaron, Monu, Minnu, Lukaszewski, Tomasz, Deshpande, Jaai, Linden, Michael, Klein, Molly, Teoh, Deanna Gek Koon, Geller, Melissa Ann
• Format: Journal Article
• Language: English
• Published: 20.05.2019
• ISSN: 0732-183X; 1527-7755
• DOI: 10.1200/JCO.2019.37.15_suppl.5581

Abstract only 5581 Background: Platinum chemotherapy resistance occurs in approximately 25% of patients with ovarian carcinoma and represents a major barrier to effective care of this patient population. To date there are no effective nor validate predictive biomarkers of chemoresistance of ovarian carcinomas. We performed a prospective trial designed to enroll patients with ovarian masses suspicious for ovarian cancer, with the goal of identifying tumor-based predictive biomarkers of platinum resistance. Methods: 60 women were enrolled on the study. Tumor specimens were collected from 49 of these women with newly diagnosed pelvic masses, of which 29 were found to have histopathologically proven primary ovarian carcinoma. Of these primary malignant cases, 24 had specimens accessible for assessment of tumor-stroma proportion and data available regarding chemosensitive vs chemoresistance status via review of the medical record using a UMN IRB-approved protocol. Tumor slices were stained with H&E and also for antibodies against two microRNAs (29b and 199a) differentially expressed in ovarian cancer cell lines. Tumor-stroma proportions were assessed by two experienced pathologists blinded to chemoresistance status, with <50% stroma scored as low proportion, >50% scored as high proportion. Results: The average age of assessed patients with malignant tumors was 62. 87.5% had high-grade epithelial carcinomas. Baseline median CA-125 was 416 (range 32-2782). 80% of ovarian cancer patients with chemoresistance had tumor stroma proportions >50%; 73.7% of cancer patients with chemosensitive tumors had proportions <50% (p-value: 0.047). Expression of miR29b or 199a did not significantly correlate with chemoresistance. Conclusions: Tumor-stroma proportion is a useful predictive biomarker of platinum chemoresistance. If validated in larger datasets, it would be a relatively inexpensive and helpful tool for tailoring treatment strategies and clinical decision-making in women with ovarian cancer.