Can expressed prostatic secretions affect prostate biopsy decision of urologist?

Ergün, Osman; Çapar, Erdem; Göğer, Yunus Emre; Ergün, Ayşe Gül

doi:10.1590/S1677-5538.IBJU.2018.0292

ABSTRACT

Objectives:

To evaluate the frequency of NIH category IV prostatitis, and the use of expressed prostatic secretions tests in an effort to improve the reliability of prostate specific antigen as an indicator, to avoid unnecessary prostate biopsy.

Materials and Methods:

178 expressed prostatic secretion positive patients with serum prostate specific antigen levels of ≥ 2.5 ng / mL were included in present prospective study. The diagnostic evaluation included detailed history and physical examination, digital rectal examination, urine analysis, urine culture, and expressed prostatic secretions tests. Transrectal ultrasonography was used both to measure prostate volume and conduct 12 core prostate biopsy.

Results:

The prevalence of NIH category IV prostatitis was 36.9% (178 / 482) in our population of men. In our study patients (n: 178) prostate biopsy results were classified as; 66 prostatitis, 81 BPH, and 31 Pca. In asymptomatic prostatitis group, expressed prostatic secretion mean leucocyte ratio was higher compared to other two groups (p < 0.0001). The relation between number of expressed prostatic secretion leucocytes and prostatitis, benign prostate hyperplasia, and prostate cancer is analyzed. If 16 is taken as the cut of number for leucocyte presence, its sensitivity is 0.92 (AUC = 0.78 p = 0.01).

Conclusions:

The number of leucocytes in expressed prostatic secretion is higher in the chronic prostatitis group. If the leukocyte presence of 16 and above is taken as the cut off point, the sensitivity becomes 0.92 (AUC = 0.78). We firmly believe that our new cut off value may be used as to aid prostate specific antigen and derivates while giving biopsy decision.

Keywords:
Prostatitis; Prostate; Inflammation

INTRODUCTION

In 1979 Wang et al. discovered Prostate Specific Antigen (PSA) (¹1. Wang MC, Valenzuela LA, Murphy GP, Chu TM. Purification of a human prostate specific antigen. Invest Urol. 1979;17:159-63.). This antigen is secreted from the prostate ductal epithelial cells. PSA has become an important tool in Prostate cancer (Pca) screening and the incidence of Pca patients increased with the introduction of PSA into the clinical practice (¹1. Wang MC, Valenzuela LA, Murphy GP, Chu TM. Purification of a human prostate specific antigen. Invest Urol. 1979;17:159-63.). PSA is organ specific but not cancer specific. However, increased PSA levels are also associated with conditions other than cancer, such as benign prostate hyperplasia (BPH), prostatitis and non-malignant conditions. These conditions can cause an increase in serum PSA levels that lead to potentially unnecessary biopsy procedures, increasing inconvenience for the patient, and causing over-diagnosis, over-treatment and elevated medical costs (²2. Tchetgen MB, Oesterling JE. The effect of prostatitis, urinary retention, ejaculation, and ambulation on the serum prostate-specific antigen concentration. Urol Clin North Am. 1997;24:283-91.). Pca is determined in only 38% of biopsies performed on the basis of PSA elevation (³3. Keetch DW, Catalona WJ, Smith DS. Serial prostatic biopsies in men with persistently elevated serum prostate specific antigen values. J Urol. 1994;151:1571-4.).

National Institute of Health (NIH) classified prostatitis into 4 categories in 1995. NIH defined Category IV as asymptomatic chronic prostatitis due to the presence of inflammatory cells either in expressed prostate secretions (EPS) or during histopathological examination of prostatic biopsies from asymptomatic men (⁴4. Krieger JN, Nyberg L Jr, Nickel JC. NIH consensus definition and classification of prostatitis. JAMA. 1999;282:236-7.).

Empiric use of antibiotics in an asymptomatic patient in order to lower the PSA is common in current clinical practice. Previous studies examining this subject have yielded conflicting results. While some studies state that serum PSA can be reduced with a course of antibiotics (⁵5. Topac H, Goktas S, Basal S, Zor M, Yildirim I, Dayanc M. A prospective controlled study to determine the duration of antibiotherapy in the patients with elevated serum PSA levels. Minerva Urol Nefrol. 2016;68:270-4., ⁶6. Erol H, Beder N, Calişkan T, Dündar M, Unsal A, Culhaci N. Can the effect of antibiotherapy and anti-inflammatory therapy on serum PSA levels discriminate between benign and malign prostatic pathologies? Urol Int. 2006;76:20-6.), other studies state that treating patients with antibiotics does not lower serum PSA levels (⁷7. Shtricker A, Shefi S, Ringel A, Gillon G. PSA levels of 4.0 – 10 ng/mL and negative digital rectal examination. Antibiotic therapy versus immediate prostate biopsy. Int Braz J Urol. 2009;35:551-5.

8. Eggener SE, Large MC, Gerber GS, Pettus J, Yossepowitch O, Smith ND, et al. Empiric antibiotics for an elevated prostate-specific antigen (PSA) level: a randomised, prospective, controlled multi-institutional trial. BJU Int. 2013;112:925-9.-⁹9. Fandella A, Benvenuto S, Guidoni E, Giampaoli M, Bertaccini A. Empiric antibiotics therapy for mildly elevated prostate specific antigen: Helpful to avoid unnecessary biopsies? Arch Ital Urol Androl. 2014;86:202-4.). Some guidelines mentioned that “However, antimicrobial therapy for selected patients with category IV prostatitis associated with elevated PSA, infertility and those planned for prostate biopsy may warrant consideration (3: C)” (¹⁰10. Nickel JC. Prostatitis. Can Urol Assoc J. 2011;5:306-15.). Generally in these studies, not only EPS positive patients, all clinically asymptomatic men with elevated PSA levels have evaluated.

There are several implications in the use of empiric antibitics for patients with elevated PSA levels such as cost and toxicity. In addition, there is concern that the indiscriminate use of empiric antibiotics could lead to the development of resistant bacterial species and thereby expose the patient to more resistant and aggressive sepsis.

Despite extensive research efforts, very few biomarkers of prostate cancer have been successfully implemented into clinical practice today and the PSA test is still the most important biomarker for the detection and follow-up of prostate cancer. Numerous studies of serum (PSA isoforms, prostate health index and other combinations), tissue (p63, AMACR, PSMA, Glutathione S-transferase P, etc.) and urine based (PCA 3, SPINK 1, Annexin A3, etc.) prostate cancer biomarker candidates have been presented during the last ten years (¹¹11. Thakur V, Talwar M, Singh PP. Low free to total PSA ratio is not a good discriminator of chronic prostatitis and prostate cancer: An Indian experience. Indian J Cancer. 2014;51:335-7.

12. Auprich M, Haese A, Walz J, Pummer K, de la Taille A, Graefen M, et al. External validation of urinary PCA3-based nomograms to individually predict prostate biopsy outcome. Eur Urol. 2010;58:727-32.

13. Lazzeri M, Haese A, de la Taille A, Palou Redorta J, McNicholas T, Lughezzani G, et al. Serum isoform [-2]proPSA derivatives significantly improve prediction of prostate cancer at initial biopsy in a total PSA range of 2-10 ng/ml: a multicentric European study. Eur Urol. 2013;63:986-94.

14. Huang KC, Evans A, Donnelly B, Bismar TA. SPINK1 Overexpression in Localized Prostate Cancer: a Rare Event Inversely Associated with ERG Expression and Exclusive of Homozygous PTEN Deletion. Pathol Oncol Res. 2017;23:399-407.-¹⁵15. Olivier J, Stavrinides V, Kay J, Freeman A, Pye H, Ahmed Z, et al. Immunohistochemical biomarker validation in highly selective needle biopsy microarrays derived from mpMRI-characterized prostates. Prostate. 2018;78:1229-37.). These biomarkers seem to be promising. Some of them is already in current daily practice and highly satisfactory results are being reported. However, these are not widely used because of cost, accessibility, their experimental manner or complexity of usage.

The aim of this prospective study was to further investigate the predictive role of the number of leukocytes in expressed prostate secretions in differentiating histological inflammation from PCa and other non neoplastic lesions. Also, to evaluate the use of EPS tests in an effort to improve the reliability of PSA as an indicator, to avoid unnecessary prostate biopsy.

MATERIALS AND METHODS

After institutional review board (ethical committee) approval, all study participants provided informed written consent before enrolment and 482 men were recruited in the present prospective study. Patients underwent a four-specimen study according to Meares-Stamey method (¹⁶16. Meares EM, Stamey TA. Bacteriologic localization patterns in bacterial prostatitis and urethritis. Invest Urol. 1968;5:492-518.). After periurethral cleaning with alcohol sponge, the patient provided a VB 1 specimen consisting of the initial 5 to 10 mL of voided urine, followed by a VB 2 specimen. Patients were placed in a lithotomy position, and a physician wore liquid parafin-coated gloves to perform digital rectal examination and several bilateral and middle prostatic massages. After production of EPS by digital prostatic massage, the patient provided 5 to 10 mL of voided urine for the VB3 specimen. EPS was positive in 178 of 482 patients. Eligibility criteria included referral for initial PSA between 2.5 ng / mL and 20.0 ng / mL, EPS positivity and palpably normal digital rectal examination. Exclusion criteria were; 1) pyuria (more than 3 leukocytes), 2) urinary tract infection history 3) urethral disorder history, 4) 5 alpha reductase treatment 5) antibiotics or anti-inflammatory therapy within last 2 months, 6) neurological disorders with an impact on lower urinary tract function, 7) urethral stricture, 8) former prostate biopsies or genitourinary surgery, 9) urological intervention within last month, 10) presence of acute urinary retention, 11) permanent urethral catheter, and 12) former prostatitis diagnosis and antibiotic therapy history. After a detailed physical examination, a digital rectal examination was made. Urine analysis, urine culture, anti-biogram and EPS tests were done for all participants. Prostate fluid samples following prostate massage were obtained from all patients. The liquid samples were counted for leukocytes on microscope slides with a large enhancement (40 X), if the number of leukocytes was ≥ 10, it was considered as positive for prostate inflammation. Prostate volume measurements were made and Ultrasound-guided 12 core prostate biopsy was taken using 18 G 30 cm needle automatic prostate biopsy gun. Biopsy results were classified as BPH, NIH category IV prostatitis and Pca. If Pca and prostatitis observed together in biopsy pathology, it was classified in Pca group. If ≤ 3 of 12 core had evidence of prostatitis, it was classified in BPH group. If ≥ 4 of 12 core had evidence of prostatitis, it was classified in prostatitis group. Prostat volumes were measured using 0.5 (LxWxH) formula (L: length from top to bottom W: horizontal length H: anterior posterior length). Data analysis was made using SPSS 15.0 Software Package Program (descriptive statistical analysis, ANOVA post hoc test, correlation test, Roc curve).

RESULTS

The prevalence of NIH category IV prostatitis was 36.9% (178 / 482) in our population of men. In our study patients (n: 178) prostate biopsy results were classified as; 66 prostatitis, 81 BPH, and 31 Pca (Table-1). None of the patients, diagnosed with prostatitis in histopathological analysis had symptomatic or asymptomatic prostatitis history or former antibiotics therapy due to prostatitis. There was no statistically significant difference between prostatitis, BPH, and Pca groups in terms of age (p = 0.37). Likewise no statistically significant difference was seen among the three groups in terms of prostate volume (p = 0.40). A statistically significant relation and a strong correlation between tPSA level and prostate volume was present (p < 0.05 r = 0.68).

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Table 1
General features of the Patients and Distribution.

When prostatitis, BPH, and Pca groups were evaluated according to tPSA levels, there was a statistically significant difference between BPH and Pca (p = 0.022). In terms of tPSA, there was no statistically significant difference between the BPH-prostatitis (p = 0.21) groups and Pca-prostatitis groups (p = 0.45) (p > 0.5). In terms of free PSA (fPSA), no statistically significant difference was seen between in the BPH-Prostatitis group (p = 0.99), and in BPH-Pca (p = 0.72), or Prostatitis-Pca (p = 0.84) groups.

In the prostatitis group the number of leukocytes in the EPS was higher than in the other two groups (p < 0.0001). The relation between the number of leukocytes in the EPS and prostatitis, BPH, and Pca was also evaluated. The most appropriate cut off value for the amount of leucocytes in the prostate massage fluid was determined as ≥ 395 (in a high enhancement area with a mean of ≥ 16) as shown in Figure-1. In the Roc curves drawn, statistical significance was only determined in the area under the curve between the number of leukocytes with prostatitis (AUC = 0.78 p = 0.01 prostatitis sensitivity: 0.92).

Figure 1
Number of Leukocytes in Prostate Massage Fluids; Prostatitis, BPH, and Pca Relations (Straight line: prostatitis, Dashed line: BPH, Dots: Pca).

DISCUSSION

The incidence of Pca patients who diagnosed at low stage, increased because of widespread using PSA testing. The rate of detecting Pca clinically in elevated levels of serum PSA ranges between 17.5% and 38% (³3. Keetch DW, Catalona WJ, Smith DS. Serial prostatic biopsies in men with persistently elevated serum prostate specific antigen values. J Urol. 1994;151:1571-4.). PSA estimated sensitivity at the cutoff 4.0 ng / mL value is 21% for detecting any prostate cancer and specificity is 91% (¹⁷17. Wolf AM, Wender RC, Etzioni RB, Thompson IM, D’Amico AV, Volk RJ, et al. American Cancer Society guideline for the early detection of prostate cancer: update 2010. CA Cancer J Clin. 2010;60:70-98.). There is however, a wide range (10-80%) of reported false positivity (¹⁸18. Croswell JM, Kramer BS, Kreimer AR, Prorok PC, Xu JL, Baker SG, et al. Cumulative incidence of false-positive results in repeated, multimodal cancer screening. Ann Fam Med. 2009;7:212-22., ¹⁹19. Kilpeläinen TP, Tammela TL, Määttänen L, Kujala P, Stenman UH, Ala-Opas M, et al. False-positive screening results in the Finnish prostate cancer screening trial. Br J Cancer. 2010;102:469-74.). Determining the accuracy of PSA testing is confounded by the fact that most men with normal PSA values do not undergo biopsy, overestimating sensitivity and underestimating specificity.

Chronic prostatitis is a disease still without a clear etiology. Polymorphonuclear leukocyte invasion is determined in the intra-prostatic channels and peri-prostatic tissue during histopathological analyses (²⁰20. Nickel JC, Downey J, Young I, Boag S. Asymptomatic inflammation and/or infection in benign prostatic hyperplasia. BJU Int. 1999;84:976-81., ²¹21. Jung K, Meyer A, Lein M, Rudolph B, Schnorr D, Loening SA. Ratio of free-to-total prostate specific antigen in serum cannot distinguish patients with prostate cancer from those with chronic inflammation of the prostate. J Urol. 1998;159:1595-8.). Chronic prostatitis may present itself with very different clinical presentations. According to their clinical and laboratory findings, NIH classified prostatitis into 4 categories in 1995.

Various studies about the prevalence of prostatitis subtypes determined by NIH have been conducted. In studies made with needle biopsy analyses, prostatitis incidence ranging on a large scale between 17.2% and 42% have been reported (²²22. Kandirali E, Boran C, Serin E, Semercioz A, Metin A. Association of extent and aggressiveness of inflammation with serum PSA levels and PSA density in asymptomatic patients. Urology. 2007;70:743-7., ²³23. Yaman O, Göğüş C, Tulunay O, Tokatli Z, Ozden E. Increased prostate-specific antigen in subclinical prostatitis: the role of aggressiveness and extension of inflammation. Urol Int. 2003;71:160-4.). However, studies on prevalence of NIH category IV prostatitis are very scarce. In a study made on a prostate cancer awareness screening program population, NIH category IV prostatitis incidence was determined as 32.2% (²⁴24. Carver BS, Bozeman CB, Williams BJ, Venable DD. The prevalence of men with National Institutes of Health category IV prostatitis and association with serum prostate specific antigen. J Urol. 2003;169:589-91.). In the present study a rate of 36.9% was determined.

PSA, an important tumor marker, is organ but not cancer specific, studies about new methods verifying PSA results are in progress. To reduce unnecessary biopsies and to improve on PSA specificity, past research primarily investigated PSA derivatives. These have included PSA velocity, PSA density, age-specific PSA, fractionated PSA and percentage of free prostate-specific antigen (% fPSA) (²⁵25. Greene KL, Albertsen PC, Babaian RJ, Carter HB, Gann PH, Han M, et al. Prostate specific antigen best practice statement: 2009 update. J Urol. 2009;182:2232-41.). Forexample; % fPSA is of some diagnostic use, although without significantly reducing the rate of negative biopsies. In particular, in a recent study, % fPSA has been documented as a poor discriminator between chronic prostatitis and Pca (¹¹11. Thakur V, Talwar M, Singh PP. Low free to total PSA ratio is not a good discriminator of chronic prostatitis and prostate cancer: An Indian experience. Indian J Cancer. 2014;51:335-7.).

Urologists often manage asymptomatic men with a high serum PSA level by observation after antibiotic treatment. Because inflammation can often result in elevated PSA at documented chronic bacterial prostatitis patients. But studies examining this subject in the asymptomatic population have yielded conflicting results. While some studies state that serum PSA can be reduced with a course of antibiotics (⁵5. Topac H, Goktas S, Basal S, Zor M, Yildirim I, Dayanc M. A prospective controlled study to determine the duration of antibiotherapy in the patients with elevated serum PSA levels. Minerva Urol Nefrol. 2016;68:270-4., ⁶6. Erol H, Beder N, Calişkan T, Dündar M, Unsal A, Culhaci N. Can the effect of antibiotherapy and anti-inflammatory therapy on serum PSA levels discriminate between benign and malign prostatic pathologies? Urol Int. 2006;76:20-6.), other studies state that treating patients with antibiotics does not lower serum PSA levels (⁷7. Shtricker A, Shefi S, Ringel A, Gillon G. PSA levels of 4.0 – 10 ng/mL and negative digital rectal examination. Antibiotic therapy versus immediate prostate biopsy. Int Braz J Urol. 2009;35:551-5.

8. Eggener SE, Large MC, Gerber GS, Pettus J, Yossepowitch O, Smith ND, et al. Empiric antibiotics for an elevated prostate-specific antigen (PSA) level: a randomised, prospective, controlled multi-institutional trial. BJU Int. 2013;112:925-9.-⁹9. Fandella A, Benvenuto S, Guidoni E, Giampaoli M, Bertaccini A. Empiric antibiotics therapy for mildly elevated prostate specific antigen: Helpful to avoid unnecessary biopsies? Arch Ital Urol Androl. 2014;86:202-4.). Recently, in a prospective, controlled study by Greiman et al., 136 asymptomatic men with elevated PSA were divided into a ciprofloxacin treatment group (n = 63) or observation group (n = 73) where the study group received six weeks of ciprofloxacin and the observation group did not receive treatment (²⁶26. Greiman A, Shah J, Bhavsar R, Armeson K, Caulder S, Jones R, et al. Six Weeks of Fluoroquinolone Antibiotic Therapy for Patients With Elevated Serum Prostate-specific Antigen Is Not Clinically Beneficial: A Randomized Controlled Clinical Trial. Urology. 2016;90:32-7.). They continued routine follow-up for an average of 4.6 years with routine PSA, exam and prostate needle biopsy per clinical practice guidelines. The primary endpoint of this study was change in serum PSA, while the secondary endpoint was presence or absence of prostate cancer on biopsy. This study found a borderline statistically significant change in serum PSA between patients randomized to a 6-week course of fluoroquinolones versus observation, and no difference in positive prostate biopsy results. The authors suggest that patients with an elevated serum PSA could not treated with antibiotics in the absence of clinical symptoms of prostatitis. The literature does not support the evidence that antibiotics alter PSA levels except in the presence of bacterial prostatitis. Also, Heldwein et al. showed that PSA levels tend to fall when repeated after 45 days, regardless of antibiotic treatment (²⁷27. Heldwein FL, Teloken PE, Hartmann AA, Rhoden EL, Teloken C. Antibiotics and observation have a similar impact on asymptomatic patients with a raised PSA. BJU Int. 2011;107:1576-81.).

Prostatitis should be diagnosed if there are 10 and more leukocytes present in a high enhancement area (40 X). According to the findings of the present study, number of polymorphous nuclear leucocytes in prostatitis group is higher than in BPH and Pca groups (p < 0.0001). Normally, 10 or more leucocyte counts are sufficient for prostatitis diagnosis. However, the number of leukocytes at the prostate massage fluid in the prostatitis group was higher than the other two groups, so that have us an idea.

We thought that, if a new cut off value for leucocyte presence in prostatic fluid is determined, the predictability of prostatitis will be increased and thus unnecessary biopsies may be avoided. The outcome of the Roc curve analysis revealed that average leucocyte presence of ≥ 16 or total leucocyte presence of ≥ 395 is most appropriate and should be taken as the new cut off point in a large enhancement area. The analyses revealed AUC = 0.78 and sensitivity for prostatitis as 0.92.

In summary, if the number of leucocytes is 16 and above in the prostatic massage fluid, this may most probably an indicator of prostatitis driven PSA increase. Previous to a biopsy decision, this new cut off value may be applied in clinical practice when encountering a asymptomatic patient presenting for the first time with an elevated PSA and without clinical evidence of prostatitis. Also, we recommend in these patients, it may be more beneficial to utilize other tools such as PSA velocity, PSA density, complexed PSA or newer clinical tools such as the prostate health index. Our new cut off value may be used to lend assistance these tools before biopsy decision.

Our study has some methodologic factors that might affect accuracy of our estimates. We didn't correlate the EPS results with histology results of our biopsy. Because, we classified chronic inflammation histologically as; available or unavailable. We didn't make detailed classification. Chronic inflammation of the prostate was defined as infiltration of prostate biopsy specimens by inflammatory cells, lymphocytes, plasma cells and / or histiocytes. Irani et al. classified inflammation with regard to the histological grade and aggressiveness of the inflammatory process: histological grades 0 and 1 were regarded as the “non-inflammation group”, and histological grades 2 and 3 as the “inflammation group” (²⁸28. Irani J, Levillain P, Goujon JM, Bon D, Doré B, Aubert J. Inflammation in benign prostatic hyperplasia: correlation with prostate specific antigen value. J Urol. 1997;157:1301-3.). This classification system is more objective for the correlation of EPS results with histology results. Engelhardt et al. used this classification for to evaluate the possible correlations between chronic asymptomatic inflammation of the prostate type IV and prostate cancer in patients undergoing radical prostatectomy (²⁹29. Engelhardt PF, Brustmann H, Seklehner S, Riedl CR. Chronic asymptomatic inflammation of the prostate type IV and carcinoma of the prostate: is there a correlation? Scand J Urol. 2013;47:230-5.). In another study, it was used for to investigate the association of the expression of tumor necrosis factor-α (TNF-α) with asymptomatic inflammatory prostatitis National Institutes of Health (NIH) category IV and prostatic calculi, in patients with obstructive benign prostatic hyperplasia (BPH) treated by transurethral electroresection of the prostate (TURP) (³⁰30. Engelhardt PF, Seklehner S, Brustmann H, Riedl C, Lusuardi L. Tumor necrosis factor-α expression in patients with obstructive benign prostatic hyperplasia is associated with a higher incidence of asymptomatic inflammatory prostatitis NIH category IV and prostatic calcification. Scand J Urol. 2015;49:472-8.).

CONCLUSIONS

The number of leucocytes in EPS is higher in the chronic prostatitis group. If the leukocyte presence of 16 and above is taken as the cut off point, the sensitivity becomes 0.92 (AUC = 0.78). We firmly believe that our new cut off value may be used as to aid PSA and derivates while giving biopsy decision. Further investigations will be necessary to evaluate our new cut-off value accuracy and determine exact cut-off points.

Ethical approval

All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards.
Informed consent

Informed consent was obtained from all individual participants included in the study.

ABBREVIATIONS

PSA = Prostate Specific Antigen
Pca = Prostate cancer
BPH = Benign prostate hyperplasia
NIH = National Institute of Health
EPS = Expressed prostatic secretions
tPSA = Total PSA
fPSA = free PSA

REFERENCES

¹
Wang MC, Valenzuela LA, Murphy GP, Chu TM. Purification of a human prostate specific antigen. Invest Urol. 1979;17:159-63.
²
Tchetgen MB, Oesterling JE. The effect of prostatitis, urinary retention, ejaculation, and ambulation on the serum prostate-specific antigen concentration. Urol Clin North Am. 1997;24:283-91.
³
Keetch DW, Catalona WJ, Smith DS. Serial prostatic biopsies in men with persistently elevated serum prostate specific antigen values. J Urol. 1994;151:1571-4.
⁴
Krieger JN, Nyberg L Jr, Nickel JC. NIH consensus definition and classification of prostatitis. JAMA. 1999;282:236-7.
⁵
Topac H, Goktas S, Basal S, Zor M, Yildirim I, Dayanc M. A prospective controlled study to determine the duration of antibiotherapy in the patients with elevated serum PSA levels. Minerva Urol Nefrol. 2016;68:270-4.
⁶
Erol H, Beder N, Calişkan T, Dündar M, Unsal A, Culhaci N. Can the effect of antibiotherapy and anti-inflammatory therapy on serum PSA levels discriminate between benign and malign prostatic pathologies? Urol Int. 2006;76:20-6.
⁷
Shtricker A, Shefi S, Ringel A, Gillon G. PSA levels of 4.0 – 10 ng/mL and negative digital rectal examination. Antibiotic therapy versus immediate prostate biopsy. Int Braz J Urol. 2009;35:551-5.
⁸
Eggener SE, Large MC, Gerber GS, Pettus J, Yossepowitch O, Smith ND, et al. Empiric antibiotics for an elevated prostate-specific antigen (PSA) level: a randomised, prospective, controlled multi-institutional trial. BJU Int. 2013;112:925-9.
⁹
Fandella A, Benvenuto S, Guidoni E, Giampaoli M, Bertaccini A. Empiric antibiotics therapy for mildly elevated prostate specific antigen: Helpful to avoid unnecessary biopsies? Arch Ital Urol Androl. 2014;86:202-4.
¹⁰
Nickel JC. Prostatitis. Can Urol Assoc J. 2011;5:306-15.
¹¹
Thakur V, Talwar M, Singh PP. Low free to total PSA ratio is not a good discriminator of chronic prostatitis and prostate cancer: An Indian experience. Indian J Cancer. 2014;51:335-7.
¹²
Auprich M, Haese A, Walz J, Pummer K, de la Taille A, Graefen M, et al. External validation of urinary PCA3-based nomograms to individually predict prostate biopsy outcome. Eur Urol. 2010;58:727-32.
¹³
Lazzeri M, Haese A, de la Taille A, Palou Redorta J, McNicholas T, Lughezzani G, et al. Serum isoform [-2]proPSA derivatives significantly improve prediction of prostate cancer at initial biopsy in a total PSA range of 2-10 ng/ml: a multicentric European study. Eur Urol. 2013;63:986-94.
¹⁴
Huang KC, Evans A, Donnelly B, Bismar TA. SPINK1 Overexpression in Localized Prostate Cancer: a Rare Event Inversely Associated with ERG Expression and Exclusive of Homozygous PTEN Deletion. Pathol Oncol Res. 2017;23:399-407.
¹⁵
Olivier J, Stavrinides V, Kay J, Freeman A, Pye H, Ahmed Z, et al. Immunohistochemical biomarker validation in highly selective needle biopsy microarrays derived from mpMRI-characterized prostates. Prostate. 2018;78:1229-37.
¹⁶
Meares EM, Stamey TA. Bacteriologic localization patterns in bacterial prostatitis and urethritis. Invest Urol. 1968;5:492-518.
¹⁷
Wolf AM, Wender RC, Etzioni RB, Thompson IM, D’Amico AV, Volk RJ, et al. American Cancer Society guideline for the early detection of prostate cancer: update 2010. CA Cancer J Clin. 2010;60:70-98.
¹⁸
Croswell JM, Kramer BS, Kreimer AR, Prorok PC, Xu JL, Baker SG, et al. Cumulative incidence of false-positive results in repeated, multimodal cancer screening. Ann Fam Med. 2009;7:212-22.
¹⁹
Kilpeläinen TP, Tammela TL, Määttänen L, Kujala P, Stenman UH, Ala-Opas M, et al. False-positive screening results in the Finnish prostate cancer screening trial. Br J Cancer. 2010;102:469-74.
²⁰
Nickel JC, Downey J, Young I, Boag S. Asymptomatic inflammation and/or infection in benign prostatic hyperplasia. BJU Int. 1999;84:976-81.
²¹
Jung K, Meyer A, Lein M, Rudolph B, Schnorr D, Loening SA. Ratio of free-to-total prostate specific antigen in serum cannot distinguish patients with prostate cancer from those with chronic inflammation of the prostate. J Urol. 1998;159:1595-8.
²²
Kandirali E, Boran C, Serin E, Semercioz A, Metin A. Association of extent and aggressiveness of inflammation with serum PSA levels and PSA density in asymptomatic patients. Urology. 2007;70:743-7.
²³
Yaman O, Göğüş C, Tulunay O, Tokatli Z, Ozden E. Increased prostate-specific antigen in subclinical prostatitis: the role of aggressiveness and extension of inflammation. Urol Int. 2003;71:160-4.
²⁴
Carver BS, Bozeman CB, Williams BJ, Venable DD. The prevalence of men with National Institutes of Health category IV prostatitis and association with serum prostate specific antigen. J Urol. 2003;169:589-91.
²⁵
Greene KL, Albertsen PC, Babaian RJ, Carter HB, Gann PH, Han M, et al. Prostate specific antigen best practice statement: 2009 update. J Urol. 2009;182:2232-41.
²⁶
Greiman A, Shah J, Bhavsar R, Armeson K, Caulder S, Jones R, et al. Six Weeks of Fluoroquinolone Antibiotic Therapy for Patients With Elevated Serum Prostate-specific Antigen Is Not Clinically Beneficial: A Randomized Controlled Clinical Trial. Urology. 2016;90:32-7.
²⁷
Heldwein FL, Teloken PE, Hartmann AA, Rhoden EL, Teloken C. Antibiotics and observation have a similar impact on asymptomatic patients with a raised PSA. BJU Int. 2011;107:1576-81.
²⁸
Irani J, Levillain P, Goujon JM, Bon D, Doré B, Aubert J. Inflammation in benign prostatic hyperplasia: correlation with prostate specific antigen value. J Urol. 1997;157:1301-3.
²⁹
Engelhardt PF, Brustmann H, Seklehner S, Riedl CR. Chronic asymptomatic inflammation of the prostate type IV and carcinoma of the prostate: is there a correlation? Scand J Urol. 2013;47:230-5.
³⁰
Engelhardt PF, Seklehner S, Brustmann H, Riedl C, Lusuardi L. Tumor necrosis factor-α expression in patients with obstructive benign prostatic hyperplasia is associated with a higher incidence of asymptomatic inflammatory prostatitis NIH category IV and prostatic calcification. Scand J Urol. 2015;49:472-8.

Publication Dates

Publication in this collection
27 May 2019
Date of issue
2019

History

Received
24 Apr 2018
Accepted
03 Nov 2018
Published
10 Dec 2018

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Ethical approval

All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards.

[2] Informed consent

Informed consent was obtained from all individual participants included in the study.

	Asymptomatic prostatitis	BPH	Prostate Ca	p
Age	54.50 ± 7.8	62.8 ± 8.8	64.3 ± 9.4	0.37
Total PSA (ng/mL)	8.31 ± 16.4	7.38 ± 3.9^* * Difference between PCa and BPH;	10.4 ± 8.5^* * Difference between PCa and BPH;	0.022^* * Difference between PCa and BPH;
Free PSA (ng/mL)	1.26 ± 1.13	1.15 ± 0.61	1.16 ± 0.50	>0,05
fPSA/tPSA	0.16±0.09	0.21±0.14⁺ + Difference between Pca and BPH;	0.11±0.09⁺ + Difference between Pca and BPH;	0.001⁺ + Difference between Pca and BPH;
Prostate vol. (mL)	40.38 ±29.4	41.6 ± 20.9	37.1 ± 21.7	0.40
EPS	26.7±9.7^& & Difference prostatitis with Pca and BPH	13.8±13.9	11.3 ± 14.2	<0.0001^& & Difference prostatitis with Pca and BPH

Brasil