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Introduction

Magnetic resonance imaging (MRI) is an elective imaging investigation method used for the detection, staging and follow-up of prostate cancer patients. The specific MRI imaging characteristics of prostate cancer, i.e., low T2 signal intensity, restricted diffusion area, low apparent diffusion coefficient and contrast enhancement, suggest the diagnosis, enable TNM staging and may guide prostate biopsy. Therefore, we consider that, in patients with such MRI lesions, histopathological examination is required to confirm the diagnosis of malignancy, although prostate-specific antigen (PSA) levels and digital rectal examination (DRE) findings may be normal. The aim of this study was to demonstrate a high similitude between prostate cancer and an inflammatory disease, such as granulomatous prostatitis, on MRI examination.

Case report

A 64-year-old patient with a medical history of heavy smoking (43 pack-years index) and atrial fibrillation-flutter was diagnosed with a small (3 cm), solitary, non-muscle invasive bladder tumor. The bladder tumor was diagnosed as low-grade (G1) urothelial carcinoma, without invasion of the chorion (Ta). It is important to mention that, during transurethral resection of the blader (TURB), the patient developed a major cardiac arrhythmia, which ultimately required cardiac electroconversion. Despite the fact that the patient had a low risk of disease recurrence and progression (1), we recommended bacillus Calmette-Guérin (BCG) immunotherapy (Lamm protocol) (2), due to the smoking history and the high risk of anaesthesia due to the cardiac pathology. Following BCG induction treatment (6 weekly instillations), at 3 months after TURB the first control cystoscopy would have been recommended. However, as the patient exhibited a low level of pain tolerance, which would require a form of general anaesthesia, in order to avoid a possible recurrence of the cardiac arrhythmia, we decided to perform a pelvic MRI scan instead of a flexible cystoscopy.

The MRI revealed normal bladder mucosa but also revealed a 19×27×21 mm area in the peripheral region of the right prostatic lobe, exhibiting certain malignant characteristics, namely low T2 signal intensity, restricted diffusion (Fig. 1A) and contrast enhancement (Fig. 1B), compared to the rest of the prostate gland. The prostate had only been evaluated by digital rectal examination (DRE), abdominal ultrasonography and computed tomography (CT), without any findings suggestive of pathological lesions. PSA measurement had been postponed due to all the urethral manoeuvering. Therefore, 3 months after TURB and 1 month after BCG immunotherapy and the first MRI examination, the PSA level was borderline (3.9 ng/ml; normal range, 0–4 ng/ml), with a prostate volume of 40.14 cm3. Therefore, we decided to continue with the clinical, biological and imaging monitoring of the bladder and prostatic lesions. Six weeks after the first stage of local immunotherapy induction, the patient underwent the second stage of BCG induction (3 instillations). To evaluate the prostate lesions, we decided to perform a second MRI examination 3 months after the first MRI scan. The MRI findings were a 6.4-mm marginal thickening of the left bladder wall and prostate lesions suggestive of malignancy (low T2 signal intensity, restricted diffusion area and contrast enhancement) in both lobes: an area with a maximum diameter of 23.3 mm in the right lobe and an area of 14 mm in the left lobe (Fig. 2A and B). The progressive nature of the prostate lesions (involvement of both lobes) was not associated with an increase in PSA levels, which were marginally decreased (3.6 ng/ml).

Figure 1 (A) Restricted diffusion area in the peripheral right prostate lobe. (B) Contrast enhancement area in the right prostate lobe.

Figure 2 (A) Restricted diffusion area in the peripheral region of both prostate lobes. (B) Contrast enhancement area in both prostate lobes.

Under those conditions (irregularity of the left bladder wall and progression of the prostate lesions suggesting malignant degeneration), we considered that the cardiac risk of general anesthesia in order to perform a more invasive local procedure was justified. Thus, we performed TURB (although, macroscopically, the bladder mucosa was normal) and transrectal ultrasound (TRUS)-guided biopsy (although the suspicious prostate areas were inhomogeneous rather than hypoechoic) and collected 7 samples from the right lobe and 3 from the left lobe (3). The histopathological examination revealed a granulomatous inflammation with giant epithelioid cells, without malignant cells, in any of the bladder and prostate samples.

As the patient was in a good general condition, without any micturition-related complaints, periodical evaluation with DRE, PSA, TRUS and even MRI and the continuation of BCG immunotherapy were recommended.

Discussion

Granulomatous prostatitis secondary to BCG immunotherapy is a well-known pathological entity (4); however, due to its low incidence, it tends to be overlooked. Previous studies based on histopathological reports (5, 6) proved that 75–100% of the patients who undergo BCG instillations develop granulomatous inflammatory lesions in the prostate. In the majority of the cases the patients are asymptomatic and only rarely (0.9–1.3%) are there clinical complaints, slight induration of the prostate or elevated PSA level (7, 8). In these patients, imaging examinations (TRUS, CT and MRI) may exhibit a number of similarities to prostate cancer (9), for which reason a prostate biopsy may be mandatory to determine the diagnosis (7). The diagnosis of granulomatous prostatitis does not require specific therapy with antibiotics (izoniazid and rifampicin for 3–6 months) in the absence of clinical symptoms, but rather close monitoring (10), which may be a major issue due to the poor data availability in the literature regarding the progression of local findings and PSA level alterations. Under such conditions, we consider that regular complete evaluation (DRE, PSA, TRUS and even MRI) may help avoid further unnecessary prostate biopsy, particularly in patients at high risk due to associated illness.

This case report was an apparently common case of non-muscle invasive bladder tumor that presented with a series of particularities in the patient (previous heavy smoker, low pain tolerance, induction of cardiac arrhythmia with anaesthesia and stress exacerbation) as well as in the MRI findings, suggesting a possible associated prostate carcinoma. Radiologists agree that low T2 signal intensity, diffusion restriction and contrast enhancement on MRI are specific to prostate cancer (particularly in the peripheral areas), although some of these findings, particularly low T2 signal in the transition zone, may be specific to granulomatous prostatitis (9). Specialized literature confirms that BCG prostatitis is indicated by low T2 signal on MRI, but does not present data that BCG inflammatory prostatitis may present with all the characteristics of prostate carcinoma, namely diffusion restriction and contrast enhancement in peripheral lesions. Furthermore, following BCG immunotherapy, it is possible to observe a thickening of the bladder wall on MRI examination (9), which was the case in our patient, at 6 months after TURB. The difficulty of imaging differentiation between granulomatous prostatitis and prostate cancer, the possibility of bladder tumor recurrence and the progressive nature of the prostate lesions indicated by repeated MRI examinations, prompted us to perform invasive bladder/prostate procedures, although all the other examinations (DRE, PSA, TRUS and CT) were not suggestive of prostate malignancy. To improve the accuracy of MRI examination in prostate cancer detection, radiologists recommend an MRI device with a 3-Tesla (3-T) magnet and an endorectal coil that may enable a better multi-parametric examination (high-resolution T2-weighted images, dynamic contrast-enhanced, diffusion-weighted imaging/apparent diffusion coefficient maps, MR spectroscopic imaging) and a more correct assessment of Prostate Imaging Reporting and Data System score (11). It would be optimal, for the patient as well as for the urologist, that prostate malignancy was excluded by histopathological examination; in addition, the identical MRI presentation may lead to difficulties in further monitoring the prostate. If the MRI image of the prostate remains unchanged, prostate monitoring should be performed by DRE, PSA measurement and TRUS, so that repeated prostate biopsy (saturation protocol) is the last diagnostic option, performed only if new elements, clearly suggestive of prostate cancer, appear.

In conclusion, we must consider that there are several clinical, biological and imaging similarities between granulomatous prostatitis and prostate cancer. In patients with normal DRE and normal PSA levels who recently underwent BCG immunotherapy, an abnormal MRI imaging may not be considered strongly indicative of prostate cancer, even if the imaging characteristics are specific to cancer. A multi-parametric MRI examination, using a 3-T magnet and an endorectal coil, may be more useful in differentiating between prostate pathologies. The decision to perform a prostate biopsy must be well justified, to avoid unnecessary procedures, particularly in patients with a high procedure risk due to associated illness.

References