Cytomorphologic visualization of circulating tumor cells in urinary bladder cancer patients using ScreenCell™ technology: Potential as a simple cytology test

Circulating tumor cells (CTC) are a recent technique which is a potentially important prognostic factor in many solid tumors. There are many techniques of detecting CTCs, but they usually implement costly techniques like EpCAM targeted detection, fluorescence-based diagnosis, or magnetic bead based positive or negative selection. The diagnostic utility of simple cytomorphological diagnosis after routine staining of CTCs have been rarely studied. We aimed to detect CTCs in 24 patients clinically suspected to have Urinary Bladder Cancer using a simple but efficient patented filtration technology (ScreenCell™), followed by optical microscopic visualization after routine May-Grunwald-Giemsa (MGG) staining. The detected CTCs were then tested for association with the histologic type, lamina propria invasion, deep muscle invasion and the T-stage. Out of the 24 patients tested, one was found to have papilloma, nine had low grade urothelial carcinoma, 13 had high grade urothelial carcinoma and one had poorly differentiated adenocarcinoma. Of these, two LGUC, eight HGUC and one adenocarcinoma had detectable CTC. Presence of CTCs had a statistically significant association with Lamina propria invasion (P = .006) and T-stage (P = .02), and a trend toward significance for differentiating LGUC from HGUC (P = .10). These results suggest that cytomorphological detection of CTC is likely to be clinically useful in diagnosis and prognostication of urinary blader cancers. These findings need to be confirmed on studies with larger sample sizes.
The Prognostic Value of the Circulating Tumor Cell-Based Four mRNA Scoring System: A New Non-Invasive Setting for the Management of Bladder Cancer

Simple Summary: Bladder cancer with similar diagnosis based on traditional classification exhibits different behaviors and therapeutic outcomes. Thus, circulating tumor cells (CTCs) represent a more accurate approach to investigate bladder cancer features. Our results demonstrate that risk score based on EGFR, TRPM4, TWIST1, and ZEB1 four-gene signature in CTCs is markedly and undoubtedly associated with recurrence, suggesting an innovative and non-invasive strategy to manage both non muscle invasive and muscle invasive bladder cancer progression without the
necessity of repetitive and onerous cystoscopies.
Abstract: Bladder cancer (BC) is one of the most expensive lifetime cancers to treat because of the high recurrence rate, repeated surgeries, and long-term cystoscopy monitoring and treatment. The lack of an accurate classification system predicting the risk of recurrence or progression leads to the search for new biomarkers and strategies. Our pilot study aimed to identify a prognostic gene signature in circulating tumor cells (CTCs) isolated by ScreenCell devices from muscle invasive and non-muscle invasive BC patients. Through the PubMed database and Cancer Genome Atlas dataset, a panel
of 15 genes modulated in BC with respect to normal tissues was selected. Their expression was evaluated in CTCs and thanks to the univariate and multivariate Cox regression analysis, EGFR, TRPM4, TWIST1, and ZEB1 were recognized as prognostic biomarkers. Thereafter, by using the risk score model, we demonstrated that this 4-gene signature significantly grouped patients into high- and low-risk in terms of recurrence free survival (HR = 2.704, 95% CI = 1.010–7.313, Log-rank p < 0.050). Overall, we identified a new prognostic signature that directly impacted the prediction of recurrence, improving the choice of the best treatment for BC patients.