Pyospermia in Men Seeking Assisted Reproduction Technology

Introduction: Pyospermia is often detected in semen, especially when investigating for male infertility. Pyospermia, in a significantly large number is often correlated with inferior sperm parameters and reduced fertility. Pyospermia may be a factor of a fundamental genitourinary infection. This study assessed the relationship between pus cells and semen parameters in infertile Nigerian males. Subjects and Methods: A cross-sectional descriptive study was carried out at Nordica Fertility Center, Lagos, Nigeria, from 2004 to 2009. A total of 907 subjects were analyzed. Subjects ages (years) were categorized into ≤30, 30.1 35, 35.1 40, 40.1 45, 45.1 50 and >50, BMI into <18.5 (underweight), 18.5-24.5 (normal), 25.0 29.9 (overweight) and ≥30 (obese) and pus cells into none, 1 2 and ≥3. Results: Leucocytopenia of ≥3 per high power field (/hpf) occurred in 67 (7.4%) men. The overall means (±sd) of pus cells was 1.4 (0.9), 1.4 (0.7), 1.4 (0.7) and 1.6 (1.6) per high power field in all, normospermia, oligoospermic and azoospermic clusters of patients respectively. Mean (±sd) pus cells in semen was 6.0 (4.0), the highest, among obese (BMI ≥ 30) azoospermic patients. The proportion of subjects with pyospermia of 1 2 was highest (323/346, 93.3%) among oligoospermic patients while that with pyospermia of ≥3 was highest (10/109, 9.2%) among azoospermic patients. Obese azoospermic patients were 1.8 times as likely to have ≥3/hpf pyospermia compared to normal normospermic patients (x2 = 0.05, P-value = 0.51, OR = 1.82, 95% CI: 0.30, 11.02). Mean progressive motility (%) was significantly reduced (t = 1.95, P-value = 0.03) among patients with ≥3/hpf pyospermia (33.75 ± 19.23) compared to those with 1 2/hpf pyospermia (38.58 ± 21.63). Patients with sperm oval head ≤ 30% had significantly higher pyospermia (t = 2.22, P-value = 0.013) than those with sperm oval head of >30%. Conclusion: Elevated pus cell counts were observed among obese How to cite this paper: Ajayi, A.B., Afolabi, B.M., Ajayi, V.D., Oyetunji, I.O., Biobaku, O.R., Atiba, A., Ehichioya, J., Ayelehin, I., Adeoye, A. and Adesida, T. (2018) Pyospermia in Men Seeking Assisted Reproduction Technology. Open Journal of Urology, 8, 93-107. https://doi.org/10.4236/oju.2018.84011 Received: February 22, 2018 Accepted: April 17, 2018 Published: April 20, 2018 Copyright © 2018 by authors and Scientific Research Publishing Inc. This work is licensed under the Creative Commons Attribution International License (CC BY 4.0). http://creativecommons.org/licenses/by/4.0/ Open Access


Introduction
The dilemma of infertility is not only a medical but also a socio-cultural problem in most societies [1].Especially in developing countries, the consequences of being infertile could be violence [2] [3] [4], economic adversity, social seclusion and denial of proper death rites [5].Further, fertility incapacity often results in social ostracization or divorce and may have other consequences such as mental derangement, adverse pregnancy outcomes and other health implications [6] [7] [8] [9].Studies have associated infertility with high-risk sexual behaviors [3] [4].In most sub-Saharan families, there is dependence on own-children for not only economic survival but also care, especially in old age [10].According to a report, the World Health Organization definition of infertility, based on 24 months of trying to get pregnant, may be recommended as useful in clinical practice and research [11].However, as in most cases, infertility is approached from the perspective of a woman not being able to get pregnant and not from the perspective of a man not being able to get a woman pregnant.For example, studies reported that women are commonly blamed for infertility [12] [13].Yet male factor infertility accounts for approximately 50% of all cases of infertility [14] [15] and majority of affected men gave a history of contacting sexually transmitted infections of the genital tract [15] [16].Pyospermia, (also known as leukospermia or leukocytospermia is defined as the presence of more than 1 × 10 6 leucocytes (white blood cells) in the ejaculate [16].The white blood cells are produced by the body's immune system to fight off invading organisms that cause infection but when leucocytes count is elevated in semen, male fertility can be compromised due to increase in oxidative stress and decrease in sperm quality.Askienazy-Elbhar [16] also reported that infections or inflammation of the urethra and prostatitis (inflammation of the prostate gland) are the principal causes of pyospermia, which are mostly asymptomatic, and which are detected after performing seminal fluid analysis as part of male infertility work-up or when a man is screened before becoming a sperm donor.Micro-organisms that have been detected as causative agents in male genital tract infection include Escherichia coli or E. coli, Klebsiella pneumonia, Ureaplasma urealyticum, Proteus mirabilis, Pseudomonas aeruginosa, Staphylococcus aureus, Mycoplasma hominis, Enterococcus faecalis, Morganella morganii and Chlamydia trachomatis and other sexually transmitted diseases (STDs) respectively [16].It is note- worthy that some studies have linked pyospermia with sperm DNA fragmentation in infertile men [17] [18] [19], though the role which pyospermia plays in ICSI and conventional IVF is not yet certain.There exist other causes that can lead to an increased level of leukocytes in the semen.Various studies have revealed that sexual abstinence can have an influence, as the more time sperms remain in the epididymis, the greater the number of macrophages and granulocytes that will be attracted by older sperm, which can cause an elevated level of leukocytes in the ejaculate.Few studies in sub-Saharan Africa have delved into the issue of pyospermia and male infertility.Enwuru et al., [20] reported that normozoospermic males with pyospermia had lower sperm concentration compared with those without contamination, while Onemu and Ibeh [21] concluded that pathogenic pyospermia, consequent upon breach in the integrity of the blood-testes barrier, may provide early warning signals of impairment of male fertility.However, these studies looked at pyospermia mainly from icrobiologyic perspective and did not fully relate pyospermia to age group, body mass index, progressive motility, and normal sperm morphology consisting of sperms with oval heads.The objective of this study, therefore, is to report the association of pyospermia with different age group categories, different BMI categories, different motility categories and different concentrations of normal sperm cell morphology among infertile men presenting for assisted reproduction technology in Nigeria.

Subjects and Methods
This study was approved by the State Ethics Committee.Data was from patients who consulted at Nordica fertility Center in Lagos from 2004 to 2009.Subjects ages (years) were categorized into ≤30, 30.1 -35, 35.1 -40, 40.1 -45, 45.1 -50 and >50, BMI into <18.5 (underweight), 18.5 -24.5 (normal), 25.0 -29.9 (overweight) and ≥30 (obese) and pus cells into none, 1 -2 and ≥3, extracted from medical records who presented because of infertility at three Nigerian cities-Lagos, Asaba and Abuja were retrieved, entered into a laptop computer, cleaned and analyzed.Semen samples were obtained by masturbation and collected in a sterile, nontoxic plastic wide-mouth container.The sample was transported to the clinical laboratory within a maximum of 3 -5 minutes' walk to according to WHO guidelines [22].The patient was counseled to abstain from sex for minimum/maximum duration of 2 -5 days and importance of abstinence time was explained.Patients were given clear and simple instructions on the following: 1) accuracy in the semen collection, 2) semen should be collected in a wide-mouth measuring cylinder that was provided, and 3) the importance of reporting any loss of semen sample during collection.For this semen collection process, each patient was provided with a medical record form where data such as name, age (or date of birth), days of abstinence, date and time of collection, if there was any loss in semen volume during collection (incomplete collection) and the time of commencement of seminal fluid analysis in the laboratory were appropriately filled in by the patient and the laboratory staff who collected the semen sample.Other anthropometric, social and medical/surgical records were also collected from the patients.These included weight (in kg) and height (in cm) for the determination of body mass index (BMI), marital status, occupation, smoking and alcohol use, groin operation, sexually transmitted diseases, as well as family and social history.Within 30 minutes of production and collection at the laboratory and after liquefaction, semen samples were analyzed strictly according to WHO guidelines [22] to detect the following semen parameter: volume, total sperm concentration, motility, and morphology.The volume of the ejaculate was measured by directly reading it on a wide-mouth measuring cylinder provided for each patient.A volume of 3 -5 µL of semen sample was transferred to the center of the chamber; mean progressive motility was determined using light microscope (×40) and was performed in 10 squares of the chamber, counting at least 200 spermatozoa and expressed as 10 6 spermatozoa/ml.The total sperm count is the end concentration, expressed as 10 6 spermatozoa/ml.The sperm motility was assessed in about 100 random spermatozoa as 1) rapidly forward, fast progressive motility, 2) moderately forward, slow progressive motility, 3) jerky non-progressive motility, and 4) immotile/no movement.Other parameters assessed in the semen samples were color, viscosity, liquefaction time, pus cells per high power field and morphology.Patients who were not on any medication that would interfere with spermatogenesis, those not consuming herbal medication and who gave consent for their semen to be analyzed were included into the study.Non-indigenes, those with history of fulminant infections or patients with neoplasm were excluded from the study.Patients' confidentiality was assured by excluding any information such as age, address which could identify any patient with the study.
For the purpose of this study pyospermia was taken as pus cells ≥ 3/hpf as a certain amount of pus cells is expected in the sperm though detection of bacteria in semen may be an early warning sign of microbe-induced male infertility [21].Oval heads sperm morphology was categorized into ≤30% and >30% respectively.
Data were also coded and stored in a computer with password known only to the Principal Investigator.Data were analyzed using STATA 13; associations between Age, BMI and Age-for-BMI with normal sperm concentration and with azoospermia were assessed using chi-square, Odds Ratio and 95% Confidence Interval.Spearman correlation and analysis of variance (ANOVA), and a multiple linear regression analysis was performed to determine correlation coefficients and significance of means of two variables.In addition, the relative risks for men having azoospermia, giving reference range of the WHO [23], were calculated.A P-value of ≤0.05 was taken as significant.Data were presented as Tables and bar charts.The proportion that were aged 30 years and younger was the least (13, 1.4%) while those aged 35.1 to 40 years were in the highest proportion (25.7%).Majority of the men (468, 51.6%) were overweight while lower proportions were either normal weight (268, 29.6%) or obese (171, 18.8%).Further, a high proportion had progressive motion ≥ 32% (606, 66.8%).In all 683 (75.3%) patients had sperms that have >30% oval head (normal morphology) and 224 (24.7%) had sperms having ≤30% oval heads.The overall mean (±sd) pus cells/hpf was 1.4 (0.9).Most (839, 92.5%) of the men had pus cells of 1 -2/hpf in their seminal fluid and only 67 (7.4%) had pyospermia of ≥3/hpf.The mean pus cells in seminal fluid of normal weight men (1.5 ± 0.8)/hpf was significantly higher than that among overweight (1.4 ± 0.8; t = 1.63,P-value = 0.05) and among obese (1.3 ± 1.1; t = 2.06, P-value = 0.02) men.Overall, the mean pus cell/hpf among those with low progressive motion (1.6/hpf) was significantly higher (t = 3.32, P-value = 0.0005) than the mean pus cells/hpf of men with high progressive motility (1.4/hpf).In all, 92.5% of the men had pus cells of 1 -2/hpf compared to on 7.4% of those who has pyospermia of ≥3/hpf (Table 1).Also, the 1.4 ± 0.7/hpf mean

Oligoospermic Patients
A total of 346 (38.1%) out of the initial 907 men were oligoospermic, mostly in the age group of 40.1 -45.0 (87, 25.1%), overweight (174, 50.3%) and with motility of ≥32% (212, 61.3%) (Table 3).In all, 272 (78.6%) had sperms that contained oval heads > 30% while 74 (21.4%) had sperms that contained oval heads of ≤30% indicating an increase of 12.1% in men whose sperms contained oval head ≤ 30%.There were more men in the oligoospermic cluster whose population of sperms with oval head was ≤30%.The overall mean (±) pus cells of 1.40 (0.7) was not significantly different from that of normospermic patients.However, the mean (±) pus cells of 1.6 (0.8) observed among men aged ≥ 30 years was the highest though not significantly varied from those of other age groups.

Azoospermic Patients
There were 109 men with azoospermia with 28 (25.7%) of them aged 35.1 -40.0 years, 60 (55.0%) of them being overweight (Table 4).This cluster had no sperm cells thus progressive motility and sperm morphology calculation could not occur.However, a mean (±) pus cells of 2.3 (2.7)/hpf was recorded among those of them aged > 50 years which was significantly higher (t = 1.86,P-value = 0.04) than the 1.1 (0.4)/hpf observed among those aged 30.1 -35.0 years only.The   The observed mean (±) pus cells among these azoospermic patients was 1.6 (1.6)/hpf.Overall, 99 (90.8%) of them men had pus cells of 1 -2/hpf and only 10 (9.2%) had pus cells of ≥3/hpf.Figure 1 depicts the means of pus cells in the three categories of patients indicating that pus cells ≥ 3/hpf were more prevalent in the seminal fluid of azoospermic men while pus cells of 1 -2/hpf were more prevalent in the seminal fluids of men with normal seminal fluid.Further, pus cells were fewer in the seminal fluid of men with progressive motility of <32% regardless of whether they were normospermic, oligoospermic or azoospermic (Figure 2).Table 5 shows that of the three groups of patients, azoospermic group were 1.33 more likely to present with high pus count in their seminal fluid (x 2 = 0.62, P-value = 0.43, Crude Odds ratio = 1.33) than normospermic or oligoospermic patients.
In all the patients, age, BMI, sperm count, and pus cells gave a significant 29.9% explanation of the variations observed in progressive motility (R 2 = 0.2992, P-value = 0.00001) and a significant 21.72% explanation of the variation seen in oval head sperm morphology (in Table 6).Progressive motility had a

Discussion
Infertility, both in males and in females, is now a growing problem in virtually all cultures and societies in the world, affecting at least 15% of couples or reproductive age [24].Recently, the number of couples seeking treatment for infertility has dramatically increased perhaps due to availability of more successful techniques for infertility management and to high awareness of available services.
Polis et al., [25] estimated that close to 1/3 of Nigerian couples at the risk of pregnancy will have difficulty conceiving within 12 months, 17.7% within 24 months and 11.5% within 36 month-duration.Probably one of the reasons for having difficulty is the issue of pyospermia and its consequences on fertilization.Approximately 4% -10% cases of male infertility are caused by infections of the genital tract and inflammation process from these infections are responsible for the infiltration of leukocytes into seminal fluid thus reducing sperm motility, activating acrosome reaction, and diminishing fertilization potential of sperms, making achievement of pregnancy more difficult for the couple [16].
There are some key findings in this study that reflect the dangers pyospermia poses to fertility.First, 452 (49.8%) of all the patients were normospermic a fig- ure that was lesser than the 115 (57%) reported by Kjaergaard et al., [26] in their study.The mean age (±sd) of patients was 42.7 (7.1) years which was slightly higher than the 38.7 years (±7.1) reported from a similar study in Dakar, Senegal [27] indicating that Nigerian males reporting for infertility are still older, in their 4 th decade of life.In all the patients, 7.4% of infertile men had pyospermia of ≥3/hpf which is much lower than the 23% reported by Jarvi and Noss [28].The mean (±) pus cells of 1.6 (1.2)/hpf observed in this study is also less than the 3.29/hpf reported by Khan et al., [29].Sexual abstinence can have an influence on leucocytospermia, as the more time sperms remain in the epididymis, the greater the number of macrophages and granulocytes that will be attracted by older sperm, which can cause an elevated level of leukocytes in the ejaculate [16].
Vasovasostomy or vasectomy reversal tends to alter sperm parameters and cause sperm dysfunction, due chiefly to the presence of high levels of Reactive Oxygen Species (ROS).There is direct link between an increase in the ROS levels and the presence of WBCs in the semen [16].Men with normal BMI had significantly higher mean pus cells than the overweight and obese men.This is the first time this is reported in sub-Saharan Africa and this paper can only speculate that this may be due to higher sexuality among men with normal weight for age.Further studies are needed to clarify this finding.Also, those whose sperms had ≤30% normal morphology (oval heads) had higher mean pus cells than those whose sperms had >30% normal morphology (oval head) which agrees with the findings of Khan et al. [29].The observed inverse relationship between motility and pus cells accord with the findings of Enwuru et al., [20].
Secondly, in normospermic cluster of men, mean of pus cells was highest among men aged over 50 years.This is in sharp contrast to the findings of a phenomenon that may be attributable to prostatitis or to multiple sexual part-ners.Again, pus cells were significantly higher in men with normal BMI than in obese men, probably for the same reason discussed above.Pus cells were also observed to be inversely related to both sperm progressive motility and to sperm normal morphology, findings that resonate with the report of Khan et al., [29] from Pakistan.
Pus cells were not significantly altered in the different age groups but were higher in men with normal BMI than in obese men and pus cells were still inversely associated to sperm progressive motility as reported earlier by Khan et al. [29] but not to sperm normal morphology.It is possible that there may be a mechanism, probably an immunological apparatus, preventing ROS from attacking sperm cells in oligoospermic patient.For example, Moretti et al., [30] documented that some component of sperm flagella i.e. tubulin, found in the axoneme and bacterial proteins may have antigenic mimicry which could be pathogenic to the sperm cells.Leucocytospermia may thus trigger antibodies and T-cells to react against bacterial cell constituents that may recognize mirror-image in the sperm cells bringing about immune-mediated damage.This might be one of the pathways where damage to the sperm cells occurs [31].
Lastly, 109 (12.0%) men were in the azoospermia cluster.This is lower than the 14.1% reported from Senegal [27] but accords with the 203 (12.5%) reported by Khan et al., [29].The overall mean pus cell in the azoospermia cluster was 1.6 (1.6)/hpf which is lower than the 3.25 ± 0.26 reported from Pakistan [29].This cluster had the lowest proportion of men with pus cells of 1 -2/hpf, the highest proportion of those with pus cells of ≥3/hpf and the highest mean pus cells of 5.5 (3.3) among those who had pyospermia of ≥3/hpf.Infection induces reactive oxygen species production, decreases the total antioxidant capacity and sperm DNA fragmentation or antigen production that lead to sperm dysfunctions and DNA fragmentation [18].

Conclusion
To conclude, this study leans towards the belief that pyospermia affects the quality of sperm because high pus cell counts were seen more in azoospermic than in oligoospermic or normospermic patients, contrary to what Enwuru et al. [20] reported.This appears to be a confirmation that pyospermia could be one of the characteristic sources of infertility in the human male.This study also shows that infection in the semen is most likely associated with low and abnormal sperm motility.Furthermore, an inverse relationship was found between pus cell count and the number of sperm cells with oval head morphology.Clinicians in the field of male infertility should always be on the lookout for pus cells in the semen which, if left untreated could further aggravate male infertility.It is obvious that further studies on pyospermia of bacterial, viral, fungi or any other origin, are needed, especially in sub-Saharan Africa where male infertility is topic and microbial organisms are prevalent.

Strengths and Limitations
This study is part of a larger study and the strengths and limitations had already been documented [32].In summary however, the strengths included strict adherence to the collection of semen samples, since each couple was well-informed ahead of before sample collection.Confidence building was actualized such that all patients felt free to abide by the regulations of the Fertility Center.Anthropometric measurements were conducted in the clinic and not volunteered by patients.Modern laboratory medical equipment and reagents are available at the Fertility Center for the analysis of all samples and all cases.Each analysis was on two consecutive samples.Finally, there were a large sample size of overweight and obese patients and the same study criteria were used for all the patients.
Concerning limitations, the semen samples were from different locations and the samples were analyzed in three different laboratories of the same organization with the possibility of inter-laboratory variation.However, almost all the samples were examined twice with quite insignificant difference in the results.
Because the study was facility-based, the findings on semen analysis, anthropometry and other variables may not reflect what is expected at community level.
Finally, this study did not have data for underweight or morbidly obese men.
. Ajayi et al.DOI: 10.4236/oju.2018.84011101 Open Journal of Urology highest mean (±) pus cells of 1.8 (2.3)/hpf seen in azoospermic obese men was not significantly varied from other the mean (±) pus cells of other BMI groups.

Figure 1 .
Figure 1.Means of pus cells among normospermic, oligoospermic and azoospermic men according number of pus cells/hpf.

Table 3 .
Distribution of mean (±sd) and frequency (%) of pus cells in oligoospermic patients by age and BMI.

Table 4 .
Distribution of mean (±sd) and frequency (%) of pus cells in azoospermic patients by age and BMI.

Table 5 .
Chi-square analysis of categories of sperm count and pus cells/hpf.
*Note: One patient with no pus cells was excluded.

Table 6 .
Multivariate regression analysis with progressive motility and oval heads as dependent variable and Age BMI, Spermcount and Puscells as independent variables.