Cancer Clinical Trial
Official title:
Evaluation of Non-Invasive Assays for the Detection of Urothelial Cancer of the Bladder and Kidney
The purpose of this study is to determine if analysis of DNA and protein material found in urine will be useful in the detection of urothelial cancer of the bladder and kidney. This analysis may be helpful to determine if how a particular cancer will act regarding remission and recurrence
Bladder cancer is one of the most common malignancies worldwide. The rate of occurrence of these tumors is highest in the developed countries, ranking as the sixth most frequent neoplasm. Approximately 90% of malignant tumors arising in the bladder are of epithelial origin, the majority being transitional cell carcinomas. Early stage bladder tumors have been classified into two groups with distinct behaviors and different molecular profiles: Low-grade tumors (always papillary and usually superficial), and high-grade tumors (either papillary or non-papillary and often invasive). Clinically, superficial bladder tumors (stages Ta, Tis and T1) account for 75-80% of bladder neoplasms, while the remaining 15-20% are invasive (T2, T3, T4) or metastatic lesions at the time of presentation. Over 70% of patients affected with superficial tumors will have one or more recurrences after initial treatment, and about one-third of those patients will progress and eventually succumb to their disease. Previous publications from this Urology Department have introduced the idea of a non-invasive, molecular-based assay for the detection and monitoring of bladder cancer (Levesque et al. 1993; Fitzgerald et al. 1995). At the time of publication there was limited knowledge of molecular changes underlying the different clinical pathways outlined above and our assay was based on one gene (c-H-ras-1). In the last few years, it has become clear that activation events associated with FGFR-3 can be found associated with 40%-60% of low-grade, low-stage bladder tumors whilst p53 mutations are linked to a more aggressive phenotype progressing via the CIS pathway. Mutations found in the c-H-ras-1 gene can straddle both of these groups. We propose to assess the use of a multiple mutation-based assay, using DNA from exfoliated cells in the urine of patients, to establish the sensitivity and specificity in tumor detection compared to cystoscopy and cytology. In addition, we propose to isolate free-DNA for use in molecular assays. The remaining urine will be stored to evaluate biomarkers for the detection of tumor presence or progression using protein-based analyses. Cancer Patient Group: All patients harboring tumors and scheduled to have a cystectomy, cystoscopy,or nephroureterectomy will be eligible for this study. This will include patients at first presentation and those who are in follow-up. Urine samples collected at the time of a procedure will be obtained from catheterized urine in the operating room. Urine obtained in the clinic setting will be obtained via voiding, as with standard urine sample collection. We propose to collect urine from study participants who have a cystoscopy on each occasion that they visit the Urology Department regarding the treatment and follow-up of their disease. The urine will be collected at intervals over a two-year period. Control Patient Group: The cancer assays to be tested use DNA analysis and antibodies to specific proteins as well as functional assays for proteins to attempt to identify bladder tumor presence. It is important to know whether other changes, including kidney stones, cystitis etc. cause the release of the same DNA or proteins into the urine as was found in cancer patients. The frequency of false positive results will determine the utility of the assay in the cancer detection arena. A patient group of age-matched controls will be recruited from the aforementioned patient populations requiring a single urine donation at the time of their scheduled clinic visit. The primary objective of this study is to evaluate the utility of emerging technologies in the detection of bladder tumor cells using non-invasive approaches utilizing voided urine samples. This will include methodologies than can establish the sensitivity of detection of specific mutations associated with bladder cancer progression and the utility of this approach in complementing cystoscopy and cytology. The mutation status of amplified DNA fragments will be established using multiple molecular techniques. We will also isolate free-DNA from urine and perform extended-PCR to ascertain the proportional representation of large DNA fragments i.e. >1,500bp as an indicator of apoptotic activity and evaluate microRNA profiles from the urine samples. Urine-borne exfoliated cells will be pelleted from urine collections using centrifugation and DNA/RNA will be extracted. The urine supernatant will be run over a DNA affinity column to capture free-DNA for analysis. Nucleic acids isolated from these procedures will be analyzed using PCR and various molecular technologies to establish the mutation status at different gene loci. The remaining urine will be frozen and used in protein detection assays using a panel of biomarkers with putative prognostic significance. Detection of tumor presence will be compared in urine specimens undergoing mutational analysis and the current standard of treatment (cytology and cystoscopy together). As cytology is not performed on all patients, fewer urine specimens are expected in the cytology and cystoscopy group than in the mutational analysis group. Therefore a comparative analysis between these two groups will be performed using an analysis of variance (ANOVA) test where significance will be set at p<0.05. ;
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