Bladder Cancer Clinical Trial
Gemcitabine Versus Water Irrigation in Upper Tract Urothelial Carcinoma
There is a high rate of intravesical (bladder) recurrence following extirpative surgery for upper tract urothelial carcinoma. There is no single established standard of care for prevention of intravesical recurrence; however, one protocol in common use involves the use of intravesical gemcitabine instilled into the bladder during surgery and prior to entry into the bladder. There are barriers to the use of gemcitabine, especially at lower volume centers. Some evidence suggests that intravesical irrigation with sterile water has equivalent efficacy to intravesical chemotherapy in prevention of recurrent bladder cancer following transurethral resection of bladder tumors (TURBT). This study is intended to compare recurrence rates using intravesical gemcitabine (as a pseudo-standard of care) and continuous bladder irrigation with sterile water.
Upper tract urothelial carcinoma is a relatively rare disease, accounting for 5-10% of urothelial malignancies. Following radical nephroureterectomy (RNU), recurrence of urothelial carcinoma in the bladder (UCB) is reported in up to 50% of cases. Although the mechanism of bladder cancer recurrence following RNU is still controversial, recent evidence suggest that these tumors have similar clonal origin to upper tract tumors, supporting the theory of downstream seeding; specifically, that manipulation of the upper tract during surgery results in shedding of tumor cells which then implant in the bladder and give rise to bladder tumors.
Different strategies have been suggested to reduce UCB recurrence rates following RNU. Early clipping of the ureter distal to the tumor may prevent seeding and reduce UCB recurrence, while the correct technique for bladder cuff resection remains debatable. A single, post-operative, prophylactic intravesical chemotherapy instillation (pIVC) has been shown to reduce recurrence rates following resection of UCB. Specifically, two prospective studies have evaluated the use of pIVC using mitomycin-C (MMC) or pirarubicin (THP) following RNU, showing a 11-25% absolute reduction in the risk of UCB recurrence. The safety of pIVC has previously been reported by Moriarty et al. with no directly associated adverse events. The investigators' group also compared bladder recurrence rates in patients who received intraoperative or postoperative pIVC. In this cohort, 12- and 24-month recurrence rates in the I-pIVC groups were 10.8% and 14.4%, respectively, with a favorable safety profile. Current practice at this institution, which is widely employed at many centers but is not supported by Level I evidence, is to instill gemcitabine into the bladder intraoperatively and to allow it to dwell within the bladder until excision of the ureter, at which time the gemcitabine is drained prior to entry into the bladder.
Despite its demonstrated benefits, there appears to be considerable underutilization of pIVC for various reasons. Based on a national survey in the United States, less than 50% of urologic oncologists use pIVC, mainly due to concerns including lack of evidence, fear of extravasation and office infrastructure. While educational measures should be taken to increase urologists' awareness of the importance and high level evidence supporting the use of pIVC, other concerns, such as extravasation and logistical issues (which may include office infrastructure, availability of chemotherapeutic agents outside of a hospital setting, availability of trained personnel, etc.).
A possible alternative to pIVC that would circumvent logistical, availability-, and toxicity-based concerns is the use of intravesical continuous bladder irrigation (CBI) with sterile water. In this method, a multi-way urinary catheter is placed in the bladder which allows water to be irrigated into the bladder while simultaneously and freely draining out via a separate lumen, allowing the bladder to be continuously irrigated with sterile fluid. In this setting, irrigation would be initiated at the start of the surgical procedure and would be terminated and the bladder drained immediately prior to entry into the bladder at the time of excision of the distal ureter. There have been several studies that have demonstrated the ability of hypotonic fluid (e.g., sterile water) to kill bladder tumor cells. Distilled water irrigation has shown to delay tumor recurrence of bladder cancer by osmolysis of tumor cells. A prospective, randomized, open-label, two-arm, single-center, pilot study compared continuous sterile water irrigation to a single dose intravesical of mitomycin C after transurethral resection of bladder tumors (TURBT) and found recurrence-free rates for MMC and continuous sterile water irrigation groups were 47.1% and 52.6%, respectively. Another study investigated the results of bladder irrigation with water for injection after TURBT. A total of 239 patients (158 with single tumors, group A, and 81 with multiple tumors, group B) received continuous intravesical postoperative irrigation with water. Recurrence-free rate for those patients who received only intravesical irrigation with water was 75.8%, 66.2% and 63.2% at the 1st, 2nd and 3rd year of follow up, respectively. A systemic review of the literature evaluated bladder irrigation after TURBT. There were 6 studies, including 1515 patients of which 361 had saline irrigation and 463 had sterile water. There was no significant difference between IVT chemotherapy, saline and sterile water groups regarding to the median RFS at 1 year [IVT: 81%, IQR (77.70, -81.00), sterile water: 74%, IQR (63.3-74.9), saline: 76.7% IQR (76.0, 77.7), p = 0.21]. Adverse events were more frequent amongst patients in the IVT chemotherapy group in comparison to the saline or water groups.
In this study, it is hypothesized that intraoperative continuous bladder irrigation with sterile water is noninferior to intravesical instillation of gemcitabine. If the two regimens are substantially equivalent, irrigation with water would be considered a superior option due to greater simplicity, wider availability, and reduced risk of toxic exposure to the patient and operating room staff.
Biopsy proven UTUC with plan for excisional surgery (distal ureterectomy or nephroureterectomy) with curative intent
Age 18 - 90 years
Life expectancy > 1 year
Women of child-bearing potential and men must agree to use adequate contraception (hormonal or barrier method of birth control; abstinence) prior to study entry, for the duration of study participation, and for 90 days following completion of therapy. Female participants who become pregnant or who suspect that they are pregnant should notify the treating investigator immediately.
Ability to understand and the willingness to sign a written informed consent.
Concurrent or prior diagnosis of bladder cancer with a disease-free interval of less than three years.
Synchronous bilateral upper tract urothelial carcinoma (prior history of contralateral UTUC is permissible with a disease-free interval of more than three years).
Plan for radical cystectomy.
3.2.4 Suspicion for small bladder capacity (< 100 mL) based on treating urologist's clinical judgment.
History of allergic reactions attributed to compounds of similar chemical or biologic composition to gemcitabine or other agents used in study.
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Dallas Texas, 75390, United States More Info
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