Trichomonas vaginalis causes an estimated 174 million sexually-transmitted infections (STIs) worldwide annually [1]. In men, trichomoniasis can be associated with urethritis and prostatitis. In addition, infection by T. vaginalis may increase the transmission of human immunodeficiency virus (HIV). The estimated prevalence of trichomoniasis in men ranges from 0% in asymptomatic men to 58% in high-risk adolescents. Generally, however, the prevalence of trichomoniasis in men is estimated to be low [2].
Prostatitis is the most common urological diagnosis in men below 50 years of age, accounting for 8% of all office visits to urologists [3]. It has been noted that about 50% of men of fertile age have clinical signs of chronic prostatitis at least once in their lifetimes. The most common form of prostatitis is chronic prostatitis or chronic pelvic pain syndrome (CP/CPPS). However, despite its prevalence, prostatitis remains a poorly understood disease, with the majority of diagnosed cases in humans being of unknown etiology. No reference standard exists for diagnostic testing for CP/CPPS, and the condition is mostly recurrent, with relapses lasting for varying periods [4]. Studies of men with chronic prostatitis found that the cause was an infection in 71.0-74.2%, with trichomoniasis as the specific infection in 10.5-19.0% of cases [5,6]. Urethritis is a common, global problem with important health consequences that include pain, epididymitis, and infertility. T. vaginalis has been reported in 13% of patients with non-gonococcal urethritis (NGU) [7].
Various methods have been used to diagnose trichomoniasis, such as wet mount, the Papanicolaou test and culture. Wet mount examination is straightforward and rapid, but more than 103/ml of live protozoa are required for detection, and cultures require inocula of 300-500 trichomonads/ml and specialized medium, as well as 2-5 days to make a diagnosis [8]. During recent years, molecular biological techniques have provided new approaches to the diagnosis of T. vaginalis infection [2,9]. In our previous study [10], a highly sensitive and specific PCR method was developed using primers based on the repetitive sequence of T. vaginalis (TV-E650); originally cloned by Paces et al. [11]. This PCR-based method had a sensitivity and specificity of 100%, and was able to detect T. vaginalis in vaginal discharge fluid at a concentration as low as 1 cell per PCR mixture.
In Korea, PCR has not been used for diagnosis of T. vaginalis infection in male patients with low urinary tract symptoms (LUTS) except for the application of multiplex PCR in the case of 11 patients with category III chronic prostatitis or chronic pelvic pain syndrome [12]. In the present study, we used PCR to diagnose T. vaginalis infection in 33 patients with chronic recurrent prostatitis or urethritis.
Thirty-three Korean men (average age 36.7±9.1 years) who visited Hanyang University Guri Hospital from June 2001 through December 2003 were selected for this study. Most of the patients complained of LUTS such as urethral charge, residual urine sensation, and frequency. We used specimens from pre-prostatic massage, expressed prostatic secretion (EPS), and post-prostatic massage (2-glass test). We examined midstream pre-prostatic massage urine samples (Pre-M and VB1), EPS, and urine specimens after prostatic massage (Post-M and VB3). The men were diagnosed as chronic prostatitis or urethritis by Pre-M and Post-M specimens. Urethritis was defined as a urethral swab Gram stain with≥5 polymorphonuclear cells per oil immersion field. We identified chronic prostatitis (CP/CPPS Category IIIA by the National Institutes of Health classification) as greater than 10 white blood cells per high power field in expressed prostatic secretions obtained by prostatic massage.
For urine sediment cultures, first-void urine (VB1) and post-prostate massage urine (VB3) samples (30 ml each) were centrifuged at room temperature for 10 min at 1,500 g. Each supernatant was aspirated, and 50 µl of sediment was put into a tube containing 5 ml of TYM media for culture [10]. The inoculum in TYM medium was grown in a 37℃ incubator for 2-5 days and the presence of the parasite was confirmed by light microscopy. For the PCR, 5 µl of urine sediment was mixed with 20 µl of Gene Releaser® (BioVentures Inc., Murfreesboro, Tennessee, USA), and the mixture was boiled for 5 min using a microwave oven. Then, it was centrifuged, and 3 µl of supernatant was added to the PCR reaction mixture. The primers were based on the T. vaginalis-specific repetitive DNA sequence in clone TV-E650-1 [11]. The sequences of the PCR primers were as follows: the primer 1: 5' gagttagggtataatgtttgatgtg 3'; the primer 2: 5' agaatgtgatagcgaaatggg 3'. The PCR reaction mixture contained primer 1 (10 pmol/µl) 1.5 µl, primer 2 (10 pmol/µl) 1.5 µl, dNTPs (2.5 mM each) 2 µl, Taq polymerase (5 U/µl) 0.1 µl, pre-treated vaginal discharge 3 µl, 10×PCR buffer 2 µl, and distilled water 9.9 µl. The DNA was denatured for 5 min at 95℃, followed by cycles of 30 sec denaturation at 94℃, 10 sec annealing at 50℃, and 30 sec extension at 72℃. Total 35 reaction cycles were run. To avoid product carryover, PCR reactions were set up in an area physically separate from all activities involving amplified target sequences, thermocycling and the running of gels.
To assess the sensitivity of PCR, T. vaginalis was counted with a hemocytometer, and the number of trophozoites was adjusted with PBS to 1, 3, 10, 50, 100, and 10,000 cells (T. vaginalis) per PCR mixture. We tested the specificity of the PCR with DNA extracted from Candida albicans, Chlamydia trachomatis, Neisseria gonorrhea, and Escherichia coli.
By culture, we failed to detect any T. vaginalis whereas PCR identified 7 cases of trichomoniasis among the 33 men (21.2%). PCR for the 5 prostatitis cases yielded a positive 330 bp band from both VB1 and VB3 whereas positive results were only obtained using VB1 for the 2 urethritis patients (Table 1). Thus, since the VB1 samples gave positive results in both the prostatitis and urethritis patients, VB1 (first voided urine) specimens, which are collected easily, are suitable for PCR diagnosis of T. vaginalis infection in men. The PCR method was sensitive enough to detect T. vaginalis at a concentration as low as 1 cell per PCR mixture (Fig. 1). Also, when DNAs from pathogens causing STI such as C. albicans, C. trachomatis, N. gonorrhea, and E. coli were examined to test the specificity of the PCR, no amplification was obtained. In addition, we tested 84 male outpatients (average age 42.7±10.8 years) without lower urinary tract symptoms who visited Hanyang University Health Promotion Center for routine checkups, and they also gave no positive outcomes for T. vaginalis by PCR or by culture (data not shown). To estimate the prevalence of T. vaginalis infection it will be necessary to test many more patients with recurrent lower urinary tract infections.
Several PCR assays have been developed to detect T. vaginalis in urine or vaginal specimens from women. However, detection of T. vaginalis in men by PCR methods has received less attention. Urine-based PCR assays for men have been described; Schwebke and Lawing [13] reported that PCR analysis of urine specimens from men attending an STD clinic was far more sensitive than culture for detecting trichomonas, and its prevalence was high (17%; 52/300). Wendel et al. [14] reported that the prevalence of T. vaginalis in an urban STD clinic, as tested by urine PCR and culture (13%; 47/363) was similar to that of Chlamydia (11%), and Seña et al. [15] detected T. vaginalis infection in 177 (71.7%) of 256 male partners of women with trichomoniasis using urine PCR-ELISAs, whereas urine or urethral cultures were positive in only 40 of the men (15.6%). These reports support our conclusion that the PCR method using urine samples is suitable for detecting T. vaginalis infection.
In conclusion, PCR using urine specimens is far more sensitive than culture for detecting Trichomonas. PCR screening of T. vaginalis among men with recurrent LUTS should be considered a part of any public health initiatives to control trichomoniasis.
