The multiform clinic of the localized/systemic BCGitis under Real-Life conditions of an academic private practice

The non-muscle-invasive bladder cancer (NMIBC) with an intermediate or high-risk profile needs strictly to be treated by an adjuvant risk-adapted Instillation therapy of the bladder. The intermediate risk group is treated preferentially with Mitomycin C – the high-risk group with attenuated living Mycobacteria tuberculosis var. Bovis (BCG). The indication is implemented in the guidelines for pTa-pT1G3/-Tis, multiple pT1G2 and the special case of isolated pTis. The application frequency during maintenance therapy is determined, but still discussed


Introduction
The non-muscle-invasive bladder cancer (NMIBC) with an intermediate or high-risk profile needs strictly to be treated by an adjuvant risk-adapted Instillation therapy of the bladder. The intermediate risk group is treated preferentially with Mitomycin Cthe high-risk group with attenuated living Mycobacteria tuberculosis var. Bovis (BCG). The indication is implemented in the guidelines for pTa-pT1G3/-Tis, multiple pT1G2 and the special case of isolated pTis. The application frequency during maintenance therapy is determined, but still discussed Within this context it is mandatory that there are precise data concerning the resected tumor and its risk profile to avoid arbitrary courses.
The primary aim of this study was to show the tolerable symptomatology as well as the direct adverse events that cause complications during the therapeutic management -from a personal point of view.

Methods/Study design
All of our 106 patients underwent a primary TURB. The single application of Mitomycin C postoperative was inconsistently. Unifocal low risk tumors were excluded from our study.
A secondary TURB followed after an interval of 4-6 weekspartly with photodynamic diagnostic. Another 4 weeks later we started with the inductive cycle of BCG application versus Mitomycin C (1 application per week for 6 weeks). The BCG preparation depended on the current availability of the different preparations (BCG-RIVM, BCG TICE, BCG CONNAUGHT). The different Mitomycin C preparations were Mito-medac ® , Mito-extra ® , Urocin ® . The decision of using BCG or Mitomycin C depended on the latest guidelines and the case history of the patient (comorbidities, tuberculosis in the past, immunodeficiency or patients will). During maintenance with BCG we applicated 3 more doses every 3,6 and 12 months. If possible, we tried to repeat the doses after 18, 24, 30 and 36 months. Mitomycin was given continuously every 4 weeks for 2 years.
In case of a repeatedly intolerance or clinical ineffectiveness and even unavailability (especially BCG) a switch to the other treatment arm was allowed. The statistical analysis (Kaplan-Meyer-Analysis, Mantel-Haenszel-estimation of the Hazard Ratio, Log-Rank-Test) was concentrated on the primary classification and the longest term in the treatment arm.

The study results -minor and major adverse events under therapy
The urogenital-localized manifestation of symptoms is differentiated from the systemic manifestation. The minor complications like dysuria (MMC), urgency, (micro-)hematuria, leucocyturia, fever up to 48h, weakness and night sweat (BCG) during instillation therapy are international consistently reported and accepted -and interpreted as proof of effectiveness [1,2], In our study we observed 34,7% adverse events in the MMC group and 78,4% in the BCG group. This difference is highly noticeable and much higher than in other reported studies. 13 patients (38,2%) had to switch from the BCG group to the MMC group because of toxicity during maintenance therapy. Only 4 patients (5,6%) in the MMC group had to break up therapy because of toxicity. A fact we also interpreted as a hint for the discrepant toxicity profile [3,4].
This discrepancy was even more obvious when we compared the major adverse events for MMC (1,4%) and BCG (43,2%) -see Table 2. A separate compilation of these adverse events is shown in Table 3. In our study the period of time between instillation therapy and diagnosis of an adverse event ranged from 2 to 12 months. Some examples of such clinical events were published by us recently online (3), including the diagnostic and therapeutic procedures.

The study results -the oncological outcome
The oncological outcome is summarized in Table 2. In opposition to the high toxicity differences between both arms, the tumor remission rates are comparable in both arms within their indication spectrum. This comparability is shown for the progression rate as well as for the cystectomy rate (13%). 5 of the 106 patients (4,7%) died of tumor progression -in 2 cases because of a urothelial tumor of the kidney [5].
In our study we intentionally did not randomize our patients, so that we can only estimate the overall survival by the date of their primary TURB (Figures 1 and 2). So, we did not see a statistically significance but a medical significance regarding the clinical equality. Our analysis for the tumor specific survival (Competing-risk analysis, Pepe-Moritest) showed for the 5-year-follow-up an equivalence of both study groups -admittedly with a low power for this study [6].
The following analysis of the comorbidity-dependent survivals shows a divergence between two groups -to the disadvantage of the MMC group (Figure 3). The reason therefor might be that choosing the treatment modality might be significantly affected by the comorbidity of the patient [7].

Conclusion
Under real life circumstances of a private practice we analyzed retrospectively the adjuvant treatment of the non-muscle invasive bladder cancer with BCG and MMC regarding the appearance and variance of the medicinal adverse events.
Even with the strict following of the guidelines regarding frequency and implementation of the therapy we found beside the minor adverse events surprisingly a certain amount of major adverse events within the BCG group that were clinical relevant and that required medicinal or surgical treatment. We recommend further contributions concerning the follow up of individual progresses after granulomatous organ manifestations that should increase evidence. Distal stricture of the ureter 2

Pneumonitis 3
Hepatitis granulomatosa 1   In case of a BCG itis the manifestation side determines the further therapy. A granulomatous eosinophil urocystitis should be treated with Isoniacid 300mg per day for 4 weeks. If this therapy is insufficient, Rifampicin 600mg per day should be added for another 3 months, If the manifestation is extravesical but urogenital there can also be used a combination therapy of Isoniacid and Ethambutol for 3 months. If there is a hepatic, pulmonary or extra urogenital manifestation with even septic appearance a primary 3-combination-therapy of antitubercular drugs over 6 months is indicated (INH, EMB, RMP) -maybe glucosteroid drugs are necessary as well.
If a longer pause of BCG is necessary, a switch to MMC (40mg or a combination with hyperthermia therapy) or even a cystectomy should be considered.
The use of fluorchinolons with corticosteroids or the preventive therapy with Isoniacid 3 days before instillation, seems nowadays obsolete.
The shown data for the oncological follow up should be seen under the aspect of unequally distributed power in both therapy arms but match the reality in a private practice -admittedly not comparable to a randomized controlled study.