Mathematical Prognostic Biomarker Models for Treatment Response and Survival in Epithelial Ovarian Cancer

Overview

Journal Cancer Inform

Publisher Sage Publications

Specialty Biomedical Engineering

Date 2011 Nov 16

PMID 22084564

Citations 16

Authors

Jason B Nikas

Kristin L M Boylan

Amy P N Skubitz

Walter C Low

Affiliations

Soon will be listed here.

Abstract

Following initial standard chemotherapy (platinum/taxol), more than 75% of those patients with advanced stage epithelial ovarian cancer (EOC) experience a recurrence. There are currently no accurate prognostic tests that, at the time of the diagnosis/surgery, can identify those patients with advanced stage EOC who will respond to chemotherapy. Using a novel mathematical theory, we have developed three prognostic biomarker models (complex mathematical functions) that-based on a global gene expression analysis of tumor tissue collected during surgery and prior to the commencement of chemotherapy-can identify with a high accuracy those patients with advanced stage EOC who will respond to the standard chemotherapy [long-term survivors (>7 yrs)] and those who will not do so [short-term survivors (<3 yrs)]. Our three prognostic biomarker models were developed with 34 subjects and validated with 20 unknown (new and different) subjects. Both the overall biomarker model sensitivity and specificity ranged from 95.83% to 100.00%. The 12 most significant genes identified, which are also the input variables to the three mathematical functions, constitute three distinct gene networks with the following functions: 1) production of cytoskeletal components, 2) cell proliferation, and 3) cell energy production. The first gene network is directly associated with the mechanism of action of anti-tubulin chemotherapeutic agents, such as taxanes and epothilones. This could have a significant impact in the discovery of new, more effective pharmacological treatments that may significantly extend the survival of patients with advanced stage EOC.

Citing Articles

Stromal DDR2 Promotes Ovarian Cancer Metastasis through Regulation of Metabolism and Secretion of Extracellular Matrix Proteins.

Schab A, Greenwade M, Stock E, Lomonosova E, Cho K, Grither W Mol Cancer Res. 2023; 21(11):1234-1248.

PMID: 37527178 PMC: 10832402. DOI: 10.1158/1541-7786.MCR-23-0347.

Molecular Analysis of Short- versus Long-Term Survivors of High-Grade Serous Ovarian Carcinoma.

Stur E, Bayraktar E, Molin G, Wu S, Mangala L, Yao H Cancers (Basel). 2022; 14(17).

PMID: 36077735 PMC: 9454595. DOI: 10.3390/cancers14174198.

The Role of Microtubules in Pancreatic Cancer: Therapeutic Progress.

Albahde M, Abdrakhimov B, Li G, Zhou X, Zhou D, Xu H Front Oncol. 2021; 11:640863.

PMID: 34094924 PMC: 8176010. DOI: 10.3389/fonc.2021.640863.

Whole Exome and Transcriptome RNA-Sequencing Model for the Diagnosis of Prostate Cancer.

Nikas J, Mitanis N, Nikas E ACS Omega. 2020; 5(1):481-486.

PMID: 31956794 PMC: 6964263. DOI: 10.1021/acsomega.9b02995.

Genome-Wide DNA Methylation Model for the Diagnosis of Prostate Cancer.

Nikas J, Nikas E ACS Omega. 2019; 4(12):14895-14901.

PMID: 31552329 PMC: 6751714. DOI: 10.1021/acsomega.9b01613.

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