Risk of testicular cancer in men with abnormal semen characteristics: cohort study

High prevalence of testicular cancer in azoospermic men without spermatogenesis

BACKGROUND

An increased risk of testicular cancer in men with infertility and poor semen quality has been reported. Our aim was to investigate the prevalence of testicular nodules and cancer in azoospermic subjects with different spermatogenetic patterns.

METHODS

A total of 1443 consecutive infertile men were investigated, out of which 145 (10.0%) were found to be azoospermic. By using clinical examination and testicular ultrasound, 11 out of the 145 patients showed testicular nodules (2.8-26 mm). To obtain spermatozoa for assisted reproduction, 97 subjects required testicular sperm extraction (TESE) and biopsy, including the 11 patients with nodules. They were divided into two groups according to biopsy results: Group A (n = 38) with complete Sertoli cell-only syndrome (SCOS) and Group B (n = 59) with varying spermatogenetic patterns. Ten nodules were found in Group A and one in Group B.

RESULTS

In azoospermic men, the overall prevalence of nodules was 7.5%. In complete SCOS, the prevalence of nodules and cancer was 10/38 (26.3%) and 4/38 (10.5%), respectively. Amongst the cancers, one embryonal carcinoma, one seminoma and two in-situ carcinomas were found.

CONCLUSION

The prevalence of testicular nodules and cancer in azoospermic men with complete SCOS is very high. In these subjects, the role of clinical evaluation, ultrasound and biopsy should be emphasized.

Testicular sperm extraction in cancerous testicle in patients with azoospermia: A Case Report

The aim of this study is to evaluate the feasibility of testicular sperm extraction (TESE) in a cancerous testicle during orchiectomy for testicular neoplasm. This is a retrospective study and includes case histories of four azoospermic patients with incidental testicular cancer. None of the patients had fathered children prior to surgery and all patients were strongly motivated by the desire to have offspring. Patients underwent surgical exploration via inguinotomy and spermatic cord clamping. After nodule excision, micro-TESE was performed from the same albugineal incision, under microscopic guidance. Frozen section examination was not performed in the case of large nodules (>3 cm in diameter). Two patients showed classic seminoma and underwent orchiectomy. In two patients, a Leydig cell tumour was found (one patient underwent orchiectomy for large nodule size). Micro-TESE was performed in four patients. Spermatozoa were found in three patients and the retrieved sperm was cryopreserved. One ICSI cycle was performed, but pregnancy failed. In azoospermic patients with testicular nodules, TESE in the cancerous testis is feasible and may avoid further surgery, without any oncological risk.

Screening for Intratubular Germ Cell Neoplasia of the Testis Using OCT4 Immunohistochemistry

Specific populations of patients are at high risk for the development of germ cell neoplasia. OCT4 has been shown to be a sensitive and specific marker for intratubular germ cell neoplasia of the testis. Whether or not OCT4 immunohistochemistry is a clinically useful screening tool in patients at risk for developing malignant germ cell tumors is not currently known. We undertook immunohistochemical staining for OCT4 in a large series of patients who underwent testicular biopsy or orchiectomy for reasons other than for management of a testicular mass suspicious for malignancy (infertility, cryptorchidism, atrophic testicle, etc.). OCT4 nuclear staining was identified in germ cells in 6 of 157 patients, all of whom had clinical risk factors for the development of testicular germ cell tumors. Two of the 6 patients were under 1.5 years of age, making the significance of OCT4 positivity less certain in these cases. The remaining patients with OCT4-positive germ cells consisted of 3 adults and 1 7-year-old child. Intratubular germ cell neoplasia was identified by light microscopy in only 1 of the 6 OCT4-positive cases. OCT4 immunostaining was negative in all patients who presented with infertility and who had no additional germ cell tumor risk factors. OCT4 immunohistochemistry may be useful in identifying early forms of preinvasive germ cell neoplasia in patients with risk factors for the development of malignant testicular germ cell tumors. The low incidence of OCT4 positivity in the adult infertility patients argues against the routine use of OCT4 immunostains in testicular biopsies for infertility unless additional risk factors are present.

Primary testicular lesions are associated with testicular germ cell tumors of adult men

The present study aims to establish the nature and frequency of testicular lesions in the parenchyma adjacent to testicular germ cell tumors (TGCT) to improve understanding of the factors involved in the development of testicular cancer. Fifty-three cases of TGCT that were fixed in both neutral-buffered formalin and Bouin solution, allowing for the nuclear characterization of Sertoli cells (SCs), were included in this study. In each case, at least 3 sections of different areas of preserved parenchyma surrounding the TGCT were studied. We found Leydig cell hyperplasia, microlithiasis, angiopathy, adenomatous hyperplasia of the rete testis, SC nodules, SC dysgenesis and involution, SC-only tubules, tubular atrophy, adluminal compartment lesions, hypospermatogenesis associated with spermatocyte sloughing, spermatogonial maturation arrest, and hypertrophic and multinucleated spermatogonia. These lesions were found in regions both adjacent and far away from the tumoral mass, and abnormal seminiferous tubules were found intermingled with those showing complete spermatogenesis, suggesting that these lesions are primary and existed before the development of the tumor. Our study suggests that SCs might play a more important role in the development of testicular tumors than previously thought. Our data supports the hypothesis that there is an abnormal differentiation of SCs, caused either by genetic anomalies or by environmental agents during fetal life. This abnormal SC differentiation may cause not only primary spermatogenesis failure and spermatogenesis arrest at different levels, but may also contribute to the poor differentiation of gonocytes into spermatogonia. The abnormal gonocyte differentiation might favor the development of dysplastic germ cells that may later transform into intratubular germ cell neoplasia, unclassified type.

Interpreting the international trends in testicular seminoma and nonseminoma incidence

There are considerable geographic, ethnic and temporal variations in the global incidence of testicular cancer. The disease mainly affects Western populations, with average rates in developed areas of the world six times higher than those in developing areas. About 500,000 new cases were diagnosed worldwide in 2002, with the vast majority being germ cell tumors and occurring in young adult males. Traditionally, these tumors are further classified into seminoma and nonseminoma. In this Review, trends in the incidence of germ cell tumors are examined using high-quality cancer-registry data from 41 populations within 14 countries worldwide. To assess whether trends of seminoma and nonseminoma incidence are similar, data were analyzed by birth cohort. These analyses should reveal similar trends if the 10-year difference in the clinical manifestation of cancer between subtypes is caused by differences in the speed of progression from the same early rate-limiting step to the onset of symptomatic disease. In each country, incidence has uniformly increased in successive generations born from around 1920 until very recently. Cohort-specific trends in seminoma incidence are similar to cohort-specific trends in nonseminoma incidence, lending support to the conclusion that the subtypes are epidemiologically and etiologically comparable. The findings presented are related to current theories and evidence regarding the determinants of testicular germ cell cancer.

Testicular microlithiasis identified ultrasonographically in Japanese adult patients: prevalence and associated conditions

OBJECTIVES

To determine the prevalence of testicular microlithiasis (TM) seen by testicular ultrasonography (US) in Japanese adult men referred for andrologic symptoms and evaluate associations of TM with pathologic conditions.

METHODS

For 7 years, US was performed in 969 patients (mean age 40.9 years) at one institution. The patients were divided into groups with infertility (n = 550), unilateral testicular tumor (n = 46), or other andrologic conditions (n = 373). TM was identified as multiple small hyperechogenic foci. In the tumor group, only images of the tumor-free testis were reviewed. Patients with TM accompanying tumor or infertility completed follow-up questionnaires and US examinations.

RESULTS

TM was diagnosed in 46 patients (mean age 38.5 years, range 23 to 75). The prevalence of TM was 17.4% in the tumor group, 5.6% in the infertility group, and 1.9% in the other-conditions group. TM was associated with testicular tumor and infertility, but not with other conditions. In patients with unilateral testicular germ cell tumor, the prevalence of carcinoma in situ in the contralateral testis was greater when TM was present in that testis (2 of 8 patients) than when TM was absent (0 of 32, P = 0.0037). No new testicular tumor developed subsequently. In the infertility group, the 31 patients with TM showed no subsequent testicular tumor development, and neither patient undergoing testicular biopsy had carcinoma in situ.

CONCLUSIONS

TM, as demonstrated by US, was associated with infertility, as well as testicular tumor. TM in a testis contralateral to a unilateral testicular germ cell tumor may increase the risk of carcinoma in situ.

Histological evaluation of the human testis--approaches to optimizing the clinical value of the assessment: mini review

Testicular biopsy is a crucial assessment in reproductive practice with diagnostic and prognostic importance for assisted reproductive technologies (ARTs) and risk of testicular neoplasia. Endocrine and genetic tests cannot reliably distinguish obstructive azoospermia (OA) from non-obstructive azoospermia (NOA) or predict recovery of mature spermatids by testicular sperm extraction (TESE). Currently, divergent histological reporting systems and the use of imprecise terminology seriously degrade the value of the literature on TESE recovery rates and hamper evaluation of treatments and research on genotype-phenotype relationships. The rising incidence of testis cancer and carcinoma in situ (CIS), especially in infertile populations, requires that every effort be made for its early detection. We provide a systematic approach to the histological classification of spermatogenic disorders and detection of CIS in adult patients. We evaluate a large consecutive series of bilateral biopsies from infertile men and report (i) the frequency of bilateral or discordant patterns that supports the use of bilateral biopsy for comprehensive evaluation and (ii) a high prevalence of mixed patterns, particularly within the hypospermatogenesis classification, that helps account for reported success of TESE. We propose a new diagnosis code for testicular biopsies that addresses the needs of ART clinicians and allows data storage and retrieval of value in clinical practice and research.

Color Doppler ultrasonography as a routine clinical examination in male infertility

AIM

We assessed the value of scrotal color Doppler ultrasonography as a routine examination in infertile men.

METHODS

Color Doppler ultrasonography was performed in 545 infertile men with a mean age of 35.8 years to detect intrascrotal abnormalities. Findings were compared with those of physical examination.

RESULTS

Intrascrotal abnormalities were detected by ultrasonography in 65.3% of patients. Of 374 abnormalities, 58.3% were undetected by physical examination. Left varicocele was found in 313 patients (57.4%); testicular microlithiasis in 30 (5.5%); epididymal cyst in 21 (3.9%); right varicocele in 4 (0.8%); and testicular cysts in 3 (0.6%). One occurrence each (0.2%) was found for testicular tumor, intrascrotal hemangioma, and hydrocele of the spermatic cord. Compared to ultrasonography, sensitivity in detecting left varicocele by physical examination was 58.4%; specificity, 79.3%; accuracy, 67.3%; and positive predictive value, 79.3%. Venous diameters in the pampiniform plexus were 3 mm or more in 61.5% of 130 subclinical left varicoceles. Of 30 patients with testicular microlithiasis, 14 had varicocele, 2 had epididymal cyst,s 3 had a history of mumps orchitis, 1 had retractile testis, and 1 had a history of orchiectomy for contralateral testicular tumor.

CONCLUSIONS

The routine Color Doppler ultrasonography is valuable for diagnosing scrotal abnormalities in infertile men, frequently detecting non-palpable lesions.

Developmental model for the pathogenesis of testicular carcinoma in situ: genetic and environmental aspects

Carcinoma in situ testis (CIS), also known as intratubular germ cell neoplasia (ITGCN), is a pre-invasive precursor of testicular germ cell tumours, the commonest cancer type of male adolescents and young adults. In this review, evidence supporting the hypothesis of developmental origin of testicular germ cell cancer is summarized, and the current concepts regarding aetiology and pathogenesis of this disease are critically discussed. Comparative studies of cell surface proteins (e.g. PLAP and KIT), some of the germ cell-specific markers (e.g. MAGEA4, VASA, TSPY and NY-ESO-1), supported by studies of regulatory elements of the cell cycle (e.g. p53, CHK2 and p19-INK4d) demonstrated a close similarity of CIS to primordial germ cells and gonocytes, consistent with the pre-meiotic origin of CIS. Recent gene expression profiling studies showed that CIS cells closely resemble embryonic stem cells (ESCs). The abundance of factors associated with pluripotency (NANOG and OCT-3/4) and undifferentiated state (AP-2gamma) may explain the remarkable pluripotency of germ cell neoplasms, which are capable of differentiating to various somatic tissue components of teratomas. Impaired gonadal development resulting in the arrest of gonocyte differentiation and retention of its embryonic features, associated with an increasing genomic instability, is the most probable model for the pathogenesis of CIS. Genomic amplification of certain chromosomal regions, e.g. 12p, may facilitate survival of CIS and further invasive progression. Genetic studies, have so far not identified gene polymorphisms predisposing to the most common non-familial testicular cancer, but this research has only recently begun. Association of CIS with other disorders, such as congenital genital malformations and some forms of impaired spermatogenesis, all rising in incidence in a synchronous manner, led to the hypothesis that CIS might be a manifestation of testicular dysgenesis syndrome (TDS). The aetiology of TDS including testicular cancer remains to be elucidated, but epidemiological trends suggest a primary role for environmental factors, probably combined with genetic susceptibility.

Testicular germ-cell cancer

Testicular germ-cell tumours (TGCTs) represent the model of a curable malignancy; sensitive tumour markers, accurate prognostic classification, logical series of management trials, and high cure rates in both seminomas and non-seminomas have enabled a framework of effective cancer therapy. Understanding the molecular biology of TGCT could help improve treatment of other cancers. The typical presentation in young adults means that issues of long-term toxicity become especially important in judging appropriate management. A focus of recent developments has been to tailor aggressiveness of treatment to the severity of the prognosis. Recent changes affect the most common subtypes and include the reduction of chemotherapy for patients who have metastastic non-seminomas and a good prognosis, and alternatives to adjuvant radiotherapy in stage I seminomas. We summarise advances in the understanding and management of TGCT during the past decade.

Testicular dysgenesis syndrome: possible role of endocrine disrupters

The testicular dysgenesis syndrome (TDS) hypothesis proposes that the four conditions cryptorchidism, hypospadias, impaired spermatogenesis and testis cancer may all be manifestations of disturbed prenatal testicular development. The TDS hypothesis is based on epidemiological, clinical and molecular studies, all suggestive of an interrelation between the different symptoms. The aetiology of TDS is suspected to be related to genetic and/or environmental factors, including endocrine disrupters. Few human studies have found associations/correlations between endocrine disrupters, including phthalates, and the different TDS components. However, for ethical reasons, evidence of a causal relationship between prenatal exposure and TDS is inherently difficult to establish in human studies, rendering the recently developed animal TDS model an important tool for investigating the pathogenesis of TDS. Clinically, the most common manifestation of TDS is probably a reduced sperm concentration, whereas the more severe form may include a high risk of testis cancer. Clinicians should be aware of the interconnection between the different features of TDS, and inclusion of a programme for early detection of testis cancer in the management of infertile men with poor semen quality is recommended.

Is human fecundity declining?

Summary The decreasing trends in fertility rates in many industrialized countries are now so dramatic that they deserve much more scientific attention. Although social and behavioural factors undoubtedly play a major role for these trends, it seems premature, and not based on solid information, to conclude that these trends can be ascribed to social and behavioural changes alone. There is evidence to suspect that changing lifestyle and increasing environmental exposures, e.g. to endocrine disrupters, are behind the trends in occurrence of male reproductive health problems, including testis cancer, undescended testis and poor semen quality. These biological factors may also contribute to the extremely low fertility rates. However, the necessary research is complex and requires non-traditional collaboration between demographers, epidemiologists, clinicians, biologists, wild life researchers, geneticists and molecular biologists. This research effort can hardly be carried out without major support from governments and granting agencies making it possible to fund collaborative projects within novel research networks of scientists.

Male reproductive disorders in humans and prenatal indicators of estrogen exposure

Male reproductive disorders in humans and prenatal indicators of estrogen exposure. A review of published epidemiological studies. Reports of an increase in male reproductive disorders in several countries led to the hypothesis that estrogens during fetal life may cause reduced sperm counts, cryptorchidism, hypospadias and testicular cancer. So far the hypothesis is based on animal studies and reports from the wild life. We systematically searched the epidemiological literature for evidence linking indicators of prenatal serum levels of maternal estrogens with sperm density, hypospadias, cryptorchidism and testicular cancer in humans. Indicators of fetal estrogen exposure included direct measurements, recorded intake of hormones (diethylstilbestrol (DES), oral contraceptives (OCs) and estrogens), pregnancy conditions with known deviant estrogen level as for instance twin pregnancies and some environmental exposures. Among 425 papers we reviewed 81 publications with appropriate information. With the possible exception of testicular cancer there is no strong epidemiological evidence to indicate that prenatal exposure to estrogen are linked to disturbed development of the male reproductive organs.

The Y deletion gr/gr and susceptibility to testicular germ cell tumor

Testicular germ cell tumor (TGCT) is the most common cancer in young men. Despite a considerable familial component to TGCT risk, no genetic change that confers increased risk has been substantiated to date. The human Y chromosome carries a number of genes specifically involved in male germ cell development, and deletion of the AZFc region at Yq11 is the most common known genetic cause of infertility. Recently, a 1.6-Mb deletion of the Y chromosome that removes part of the AZFc region--known as the "gr/gr" deletion--has been associated with infertility. In epidemiological studies, male infertility has shown an association with TGCT that is out of proportion with what can be explained by tumor effects. Thus, we hypothesized that the gr/gr deletion may be associated with TGCT. Using logistic modeling, we analyzed this deletion in a large series of TGCT cases with and without a family history of TGCT. The gr/gr deletion was present in 3.0% (13/431) of TGCT cases with a family history, 2% (28/1,376) of TGCT cases without a family history, and 1.3% (33/2,599) of unaffected males. Presence of the gr/gr deletion was associated with a twofold increased risk of TGCT (adjusted odds ratio [aOR] 2.1; 95% confidence interval [CI] 1.3-3.6; P = .005) and a threefold increased risk of TGCT among patients with a positive family history (aOR 3.2; 95% CI 1.5-6.7; P = .0027). The gr/gr deletion was more strongly associated with seminoma (aOR 3.0; 95% CI 1.6-5.4; P = .0004) than with nonseminoma TGCT (aOR 1.5; 95% CI 0.72-3.0; P = .29). These data indicate that the Y microdeletion gr/gr is a rare, low-penetrance allele that confers susceptibility to TGCT.

Fertility Among Brothers of Patients with Testicular Cancer

OBJECTIVE

Patients with testicular cancer have decreased fertility prior to the diagnosis of cancer, although it is not clear whether the subfertility is the result of an emerging tumor, or whether subfertility and testicular cancer share causes. To test if they share causes, we assessed fertility among brothers of patients with testicular cancer.

METHODS

We compared 5,613 siblings (2,878 brothers) of patients with germ-cell testicular cancer, diagnosed in Sweden from 1960 to 2002, with 6,151 population controls (3,202 men). Using the Swedish Multi-Generation Register, we obtained information on the number of children born (until December 2003) from cases (n = 9,480) and controls (n = 10,739). Fertility was measured using two indicators, (a) offspring twinning rates, as dizygotic twinning is reduced by male subfertility, and (b) number of children. We used unconditional logistic regression, and analyzed brothers and sisters separately. Analyses on the number of children were restricted to subjects (39%) born prior to 1954, for whom information on reproductive life until age 50 was available.

RESULTS

Brothers, but not sisters, of patients with testicular cancer were less likely to have unlike-sex twins than controls (for unlike-sex twins, the odds ratio for the father being a sibling of testicular cancer patient was 0.53; 95% confidence interval, 0.26-1.09). The likelihood of being a brother of a patient with testicular cancer decreased monotonically with increasing number of children (P = 0.05), whereas no association was observed for the sisters.

CONCLUSION

The decreased fertility found among brothers of patients with testicular cancer argues in favor of shared causes between cancer-associated subfertility and testicular cancer. Genetic links and shared environment could explain the association.

INCREASED INCIDENCE OF TESTICULAR CANCER IN MEN PRESENTING WITH INFERTILITY AND ABNORMAL SEMEN ANALYSIS

PURPOSE

We determined the standardized incidence ratio of testicular cancer in infertile men presenting with an abnormal semen analysis compared to the general population.

MATERIALS AND METHODS

The charts from more than 3,800 men presenting with infertility and abnormal semen analysis during a 10-year period were retrospectively reviewed. The incidence of testicular tumors diagnosed in this group was compared to that of race and age matched controls during the same period from the general population (as reported by the Surveillance, Epidemiology and End Results [SEER] database).

RESULTS

Of 3,847 men 10 (0.3%) with infertility and abnormal semen analysis were diagnosed with testicular tumors. Mean patient age was 32.6 years (range 25 to 52) and all 10 men were diagnosed with a seminomatous germ cell tumor. Two men had a history of cryptorchidism while the remaining 8 had no identifiable risk factors for testicular cancer. The SEER database reported an incidence of 10.6 cases of testicular cancer (95% CI 10.3-10.8) per 100,000 men of similar age group and racial composition during the same period. The standardized incidence ratio of testicular cancer was 22.9 (95% CI 22.4-23.5) when comparing our infertile group to the control population. Exclusion from analysis of the 2 patients with a history of cryptorchidism decreased the standardized incidence ratio to 18.3 (95% CI 18.0-18.8).

CONCLUSIONS

Infertile men with abnormal semen analyses have a 20-fold greater incidence of testicular cancer compared to the general population. Patients and physicians should be aware that one of the causes of infertility could be cancer, particularly testicular cancer.

Comparison of serum FSH and Inhibin B levels between adult male dizygotic and monozygotic twins

BACKGROUND

FSH hypersecretion occurs in mothers of dizygotic (DZ) twins. Twinning is inherited via both sexes and transmitted through the female. FSH hypersecretion may thus occur in male DZ twins.

METHODS

We assayed FSH and its counter-regulatory hormone, Inhibin B, in 108 adult male DZ and 100 monozygotic (MZ) twins (as controls) and compared our results to published norms.

RESULTS

Inhibin B was elevated and higher in DZ compared with MZ twins with similar FSH.

CONCLUSION

The normal FSH: Inhibin B endocrine feedback axis is different in adult male DZ twins. This contributes to the theory that the answer to human DZ twinning lies in the actions of FSH and Inhibin, and in their mutual interaction.

Spatial expression of germ cell markers during maturation of human fetal male gonads: an immunohistochemical study

BACKGROUND

The aim of the present study was to examine fetal male germ cells for expression of proteins associated with differentiation and maturation and to compare them with morphologically defined subpopulations.

METHODS

Testes of 61 fetuses from week 12 of gestation to the newborn period were selected. Immunohistochemistry was performed using antibodies to proteins associated with differentiation of germ cells (c-KIT, AP-2gamma) or pluripotency (OCT3/4), oncofetal protein M2A and spermatogonial marker MAGE-A4.

RESULTS

Two subtypes of fetal germ cells were detected by quantification and immunohistochemistry. Nearly all germ cells with morphological criteria of gonocytes and intermediate cells co-expressed OCT3/4, c-KIT, M2A and AP-2gamma. Starting from week 12, their number increased up to week 18/19 and then declined continuously during further development. After week 25, pre-spermatogonia were predominant and expressed MAGE-A4 selectively.

CONCLUSIONS

Fetal male germ cells are comprised of two major groups with distinct immunohistochemical phenotypes. Germ cells that are predominantly found before week 25 of gestation co-express oncofetal proteins OCT3/4, c-KIT, M2A and AP-2gamma. After week 25, most germ cells have lost their pluripotent potential and acquire a spermatogonial phenotype defined by expression of MAGE-A4.

Testicular-sparing microsurgery for suspected testicular masses

OBJECTIVE

To describe a microsurgical technique for removing suspected testicular masses with sparing of the testicular parenchyma, and to describe case studies.

PATIENTS AND METHODS

Six men were referred with testicular lesions (3-6 mm) detected on ultrasonography (US); in one, the lesion was palpable. US showed hypoechoic lesions and in two cases were mixed hypoechoic and anechoic. In these men, the testicular lesion was identified by US before surgery, giving three-dimensional coordinates to facilitate intraoperative recognition. A traditional inguinal incision was used and the funiculus clamped subinguinally without opening the canal. The testicle was isolated after sectioning the gubernaculum testis. In a separate operative field, an equatorial incision of the albuginea was made in a plane orthogonal to the major axis of the testicle, sparing the subtunical vasa. The parenchymal lobuli were dislodged and the seminiferous tubules dissociated, the nodule identified and completely removed, together with approximately 1 mm of surrounding healthy tissue. This technique can also be used for microsurgical testicular sperm extraction (MicroTESE), to retrieve sperm in infertile men.

RESULTS

In two infertile men MicroTESE was also performed. Histology revealed one case each of seminoma, Leydig-cell tumour, Leydig cell hyperplasia, atrophy, normality in the incidental forms, and complicated cysts of the albuginea. In the follow-up for infertility reasons, no scarring was observable on the tunica albuginea in the men who had conservative therapy. One year later the patient with seminoma was free of disease.

CONCLUSIONS

The increasingly frequent detection of benign testicular lesions, particularly in infertile men, calls for a surgical approach that must be as conservative as possible for the testicular parenchyma. We think that microsurgery should be the first-line technique in small suspected testicular lesions in infertile men.

Subfertility and the risk of testicular germ cell tumors (United States)

OBJECTIVES

Previous studies have reported an association between subfertility and the risk of testicular germ cell tumors. We examined fertility, measured by number of children fathered and prior diagnosis of infertility, as a risk factor for testicular cancer, while accounting for the influence of occult cancer and cryptorchidism.

METHODS

Tumor registry data were used to identify 329 cases of testicular cancer in white men aged 20 to 69 years, diagnosed in western Washington State from 1977 to 1983; 672 cancer-free controls were identified by random-digit dialing. Telephone interviews ascertained reproductive histories and basic demographic information. Logistic regression was used to estimate the relative risk of testicular cancer associated with fertility.

RESULTS

Testicular cancer risk was decreased among men who had previously fathered a child (age-adjusted odds ratio (OR) 0.76, 95% confidence interval (CI): 0.54-1.06). Inverse associations were seen for seminomas and non-seminomas, and only slight attenuations in the ORs were observed when men with a history of cryptorchidism were excluded. Prior diagnosis of infertility was associated with an increased risk of testicular cancer (OR 2.40, 95% CI: 1.00-5.77).

CONCLUSIONS

These results are consistent with an increased risk of testicular cancer among men with reduced fertility that goes beyond the effects of cryptorchidism.

Familial female and male germ cell cancer. A new syndrome?

BACKGROUND

A small percentage of germ cell tumors is known to be familial. There are several reports describing familial cases of testicular germ cell tumors; however, there are only a few of them reporting germ cell tumors that occurred in both males and females of the same family.

CASE

We present a family with three children, two females and one male, previously healthy, who all developed germ cell malignancies. The first sibling was diagnosed with malignant teratoma of the ovary, the second one with dysgerminoma involving both ovaries, and the male one with both embryonal carcinoma and seminoma of the testicle.

CONCLUSION

Our case report suggests that the possibility of an association between germ cell tumors of both ovaries and testis should be considered.

Semen quality before and after gonadotoxic treatment

BACKGROUND

The aim of this study was to analyse the semen quality of patients before and after gonadotoxic therapy.

PATIENTS AND METHODS

We evaluated semen quality in 314 patients over a 26 year period. The diagnostic categories were leukaemia (n = 13); lymphoma (n = 128); testicular cancer (n = 102); benign conditions (n = 13); and other malignant neoplasms (n = 58). The degree of azoospermia or oligozoospermia for each disease category was recorded. We then analysed the recovery in semen quality over time for each disease category.

RESULTS

The mean patient age was 27.9 years (range 13-65 years). A total of 1115 post-treatment semen samples were analysed from 314 patients. There was a significant reduction in the post-treatment sperm concentration, sperm motility and semen volume compared with pre-treatment levels (P < 0.05) in the entire cohort. However, the sperm movement and motility grade remained unaffected. Patients with testicular carcinoma had the lowest pre-treatment sperm concentrations but also the lowest incidence of azoospermia after cancer treatment. Patients with lymphoma and leukaemia had the highest incidence of post-treatment azoospermia and oligospermia. Patients having the largest reductions in their sperm concentration after treatment required the longest recovery period for spermatogenesis. The diagnostic category was the only significant predictor of post-treatment azoospermia.

CONCLUSION

Gonadotoxic treatment results in a significant reduction in sperm quality. The type of cancer or disease, and the pre-treatment sperm concentrations were found to be the most significant factors governing post-treatment semen quality and recovery of spermatogenesis. All categories of patients displayed varying degrees of azoospermia and oligozoospermia, and recovery of gonadal function from these states was not significant. This highlights the importance of ensuring sperm banking before treatment, including for patients with benign conditions. Several factors and associations are discussed further in order to give an insight into the pre- and post-gonadotoxic treatment effects.

Germ cell tumours of the testis

Cancer of the testis is a relatively rare disease, accounting for about 1% of all cancers in men. Cryptorchidism is the only confirmed risk factor for testicular germ cell tumour. The majority of GCT are clinically detectable at initial presentation. Any nodular, hard, or fixed area discovered in the testis, must be considered neoplastic until proved otherwise. The appropriate surgical procedure to make the diagnosis is a radical orchidectomy through an inguinal incision. Many GCT produce tumoural markers (AFP, HCG, LDH), who are useful in the diagnosis and staging of disease; to monitor the therapeutic response and to detect tumour recurrence. In 1997 a prognostic factor-based classification for the metastatic germ cell tumours was developed by the IGCCCG: good, intermediate and poor prognosis, with 5-year survival of 91, 79 and 48%, respectively. GCT of the testis is a highly table, often curable, cancer. Germ cell testicular cancers are divided into seminoma and non-seminoma types for treatment planning because seminomatous testicular cancers are more sensitive to radiotherapy. Seminoma (all stages combined) has a cure rate of greater than 90%. For patients with low-stage disease, the cure approaches 100%. For patients with non-seminoma tumours, the cure rate is >95% in stages I and II; it is approximately 70% with standard chemotherapy and resection of residual disease, if necessary, in stages III and IV. Minimum guidelines for clinical, biochemical, and radiological follow-up have been reported by ESMO in 2001.

Risk factors in past histories and familial episodes related to development of testicular germ cell tumor

BACKGROUND

A retrospective study was conducted to examine the host factors of 240 testicular germ cell tumor patients. This study was performed to address a new theory proposed by Skakkebaek called testicular dysgenesis syndrome which claims that cryptorchism, hypospadias, poor semen quality and testicular germ cell tumors are symptoms of an underlying testicular dysgenesis in uterus.

METHODS

The past health histories and familial episodes of 240 testicular germ cell tumor patients were examined. The past health histories included cryptorchism, hypospadias, infertility, atrophic testis and inguinal hernia.

RESULTS

Of the 240 patients, 13 (5.4%) had a history of cryptorchism or orchidopexy. Two (0.8%) showed existence of hypospadias or had experienced urethroplasty. Among 129 married couples, 104 (80.6%) couples were fertile. Three (1.3%) patients developed testicular tumors after they were diagnosed as infertile or came to the hospital with the complaints of infertility. Four (1.7%) had contralateral atrophic testis. 19 (7.9%) had experienced inguinal herniorrhaphy before age 15. Three (1.3%) had testicular germ cell tumor patients among their family or relatives.

CONCLUSIONS

The testicular germ cell tumor patients showed a considerable incidence of complications such as cryptorchism, hypospadias and incomplete closure of processus vaginalis. Cryptorchism, perinatal factors and familial factors could be risks for developing testicular germ cell tumors.

Absence of constitutional Y chromosome AZF deletions in patients with testicular germ cell tumors

OBJECTIVES

To investigate the frequency of azoospermia factor (AZF) deletions in Dutch patients with testicular germ cell tumors (TGCTs). Reduced fertility is associated with TGCTs and reduced fertility and TGCTs might share genetic risk factors according to the testicular dysgenesis hypothesis. Up to 8% of infertility and reduced fertility in the general male population can be explained by the presence of constitutional deletions of part of the long arm of the Y chromosome (Yq11), referred to as the AZF region.

METHODS

In 112 patients with TGCT, screening for constitutional deletions in the AZF region was performed by multiplex polymerase chain reaction analysis in DNA extracted from peripheral blood lymphocytes. A set of 24 primer pairs, of which 20 primer pairs are homologous to previously identified and mapped sequenced tag sites within the AZF region were used.

RESULTS

No deletions in the Yq11 region were detected in any of the 112 patients.

CONCLUSIONS

Large Y chromosome microdeletions in the AZF region are not a major contributor to the development of TGCT and TGCT-associated reduced fertility.

Epidemiology of testicular cancer: An overview

Testicular cancer is a rare disease, accounting for 1.1% of all malignant neoplasms in Canadian males. Despite the low overall incidence of testicular cancer, it is the most common malignancy among young men. The incidence rate of testicular cancer has been increasing since the middle of the 20th century in many western countries. However, the etiology of testicular cancer is not well understood. A search of the peer-reviewed literature was conducted to identify important articles for review and inclusion in this overview of the epidemiology of testicular cancer. Most of the established risk factors are related to early life events, including cryptorchidism, carcinoma in situ and in utero exposure to estrogens. Occupational, lifestyle, socioeconomic and other risk factors have demonstrated mixed associations with testicular cancer. Although there are few established risk factors for testicular cancer, some appear to be related to hormonal balance at various life stages. Lifestyle and occupational exposures occurring later in life may play a role in promoting the disease, although they are not likely involved in cancer initiation. In addition to summarizing the current epidemiologic evidence on risk factors for testicular cancer, we suggest future research directions that may elucidate the etiology of testicular cancer.

Testicular Cancer Incidence in Eight Northern European Countries: Secular and Recent Trends

Objective: Striking geographic variation and marked increasing secular trends characterize the incidence of testicular cancer. However, it is not known whether these patterns have attenuated in recent years and whether they are similar for seminomas and nonseminomas, the two main histologic groups of testicular cancer.

Method: Cancer registry data, including 27,030 testicular cancer cases, were obtained from Denmark, Estonia, Finland, Latvia, Lithuania, Norway, Poland, and Sweden. Between 57 (Denmark) and 9 (Poland) years of registration were covered. Country-specific temporal trends were estimated, with focus on the last decade and seminomas and nonseminomas. Data from the Nordic countries were further analyzed using an age-period-cohort approach.

Results: Age-standardized incidence rates increased annually by 2.6% to 4.9% during the study period, with marginal differences between seminomas and nonseminomas. In the last decade, the increasing trend attenuated only in Denmark (annual change, −0.3%; 95% confidence interval, −1.5 to 0.9). In 1995, the highest and the lowest age-standardized incidence rates (per 105) were 15.2 in Denmark and 2.1 in Lithuania. Incidence rates (i.e., for all cancers and for seminomas and nonseminomas, separately) depended chiefly on birth cohort rather than on calendar period of diagnosis (although both birth cohort and period determined the Danish incidence rates).

Conclusions: Testicular cancer incidence is still increasing, with the exception of Denmark, and a large geographic difference exists. The increasing trend is mainly a birth cohort phenomenon also in recent cohorts. Temporal trends for seminomas and nonseminomas are similar, which suggests that they share important causal factors.

Detection of testicular ultrasonographic lesions in severe male infertility

PURPOSE

We retrospectively assessed the number and histology of testicular lesions diagnosed clinically and by ultrasonography in a population of infertile men.

MATERIALS AND METHODS

From October 2000 to January 2003, 560 infertile men underwent physical examination, hormonal assessment (follicle-stimulating hormone, luteinizing hormone, testosterone) and scrotal ultrasonography. Eight men were diagnosed with focal testicular ultrasonographic lesions. In 4 cases there was a palpable lesion and in the other 4 cases the lesion was not palpable, diagnosed by ultrasonography (1 was cryptorchid). Only cases of lesions with clear-cut ultrasonographic edges and no history of recent genital infections were considered for explorative surgery through the groin. Microcalcifications were reported if present. The testicle was only preserved when frozen section examination revealed a benign lesion and the margins were negative.

RESULTS

Gynecomastia was not present in any patient. No microcalcifications were observed. Follicle-stimulating hormone was high in all patients (range 19.8 to 66.0 mUI/ml, mean 34.4). Luteinizing hormone levels were variable (range 1.32 to 28 mUI/ml, mean 12.3). Testosterone was normal in all cases (range 2.82 to 6.25 ng/ml, mean 4.2). Ultrasonographic features of the lesions were hypoechoic area (6 patients) and mixed hyper-hypoechoic area (2 patients). Histological outcomes of Leydig cell tumor (in 3 patients), focal Leydig cell hyperplasia (1 patient), fibrosis (1 patient), diffuse Leydig cell hyperplasia (1 patient), classic seminoma (1 patient) and embryonal carcinoma (in 1 patient) were observed.

CONCLUSIONS

Of 560 infertile patients 8 (1.4%) showed focal testicular lesions, 2 (0.4%) were diagnosed with germ cell tumors and 3 (0.5%) with interstitial cell neoplasms. The malignant tumors were both palpable and in 2 of 3 cases Leydig cell tumors were diagnosed only with ultrasonography.

Incidental testicular tumors in infertile men

OBJECTIVE

To characterize the population of infertile men with an incidental finding of testicular tumor diagnosed during infertility work-up and to describe their unique presentation and pathological findings.

DESIGN

Retrospective study of 11 men in whom a testicular tumor was incidentally diagnosed during evaluation for infertility out of 150 patients who underwent orchiectomy over a 10-year period (1992 to 2002).

SETTING

University-affiliated urologic referral center.

PATIENT(S)

Infertile men with an incidental testicular mass who underwent radical orchiectomy.

INTERVENTION(S)

Description of patient characteristics: age at diagnosis, presentation, history of undescended testis, and type of infertility.

MAIN OUTCOME MEASURE(S)

Tumor size and location and pathological diagnosis.

RESULT(S)

Eleven patients met the study's inclusion criteria, 11 tumors were identified and characterized. The tumors were usually small, centrally located and nonpalpable. Histologically, six were malignant germ-cell tumors and three were Leydig-cell tumors; two patients had no histologic evidence of tumor. All patients with a history of undescended testis had malignant germ-cell tumors.

CONCLUSION(S)

The use of trans-scrotal sonography enables early diagnosis of small nonpalpable tumors. A history of an undescended testis may necessitate a more aggressive approach, as these patients are at increased risk for testis cancer. Further studies are warranted to establish the yield of routine sonographic screening of infertile men and their specific management.

Familial risk in testicular cancer as a clue to a heritable and environmental aetiology

We used the nation-wide Swedish Family-Cancer Database to examine the risk for testicular cancer in offspring through parental and sibling probands. Among 0–68-year-old offspring, 4082 patients had testicular cancer in years 1961–2000, among whom 68 (1.67%) had an affected father/brother. Standardized incidence ratios (SIRs) for familial risk were four-fold when a father and nine-fold when a brother had testicular cancer. Histology-specific risks (for the testicular cancer) were similar for sons of affected fathers, but were higher among brothers for teratoma and seminoma than for mixed histologies. Standardized incidence ratios for either histology depended on the age difference between the brothers: 10.81 when the age difference was less than 5 years compared to 6.69 for a larger age difference. Parental colorectal, pancreatic, lung and breast cancer and non-Hodgkin's lymphoma and Hodgkin's disease were associated with seminoma among sons. Seminoma risk was also increased when a sibling had melanoma. Teratoma was associated with parental lung cancer and melanoma. The high familial risk may be the product of shared childhood environment and heritable causes. Familial cases of fraternal pairs with an early-onset teratoma represent a challenge for gene identification.

Genetic predisposition to testicular germ-cell tumours

Testicular germ-cell tumours (TGCT) are the most common neoplasm in young men. Various studies have suggested the existence of an inherited predisposition to development of these tumours. Genome-wide screens subsequently provided evidence of a TGCT susceptibility gene on chromosome Xq27 (TGCT1) that might also predispose to cryptorchism. However, this putative gene has yet to be identified, and other TGCT susceptibility genes probably exist. Completion of the human gene map and advances in genetic research will facilitate further investigation of genetic predisposition to TGCT. Insight into inheritance of TGCT might lead to the identification of individuals at increased risk of developing the disorder, increase our understanding of the mutation pathways that lead to sporadic cases, and contribute to improvement in diagnosis and treatment. Clinicians should record the family history of cancer and urogenital differentiation defects in patients with TGCT.

Birth Order, Sibship Size, and Risk for Germ-Cell Testicular Cancer

BACKGROUND

Several studies have reported an inverse association between birth order and testicular cancer risk, but estimates vary greatly and the biologic mechanism underlying the association is not established.

METHODS

We have evaluated the effect of birth order, sibship size, and the combined effect of these 2 variables in relation to risk for testicular cancer in a large, nested case-control study. Specifically, we compared 3051 patients with germ-cell testicular cancer (diagnosed between 1958 and 1998 and identified through the Swedish Cancer Registry) with 9007 population control subjects. Using record linkage with the Multi-Generation Register and the Census, we obtained information on number, order, and sex of the subjects' siblings, parental age, and paternal socioeconomic status.

RESULTS

Both birth order and sibship size had an inverse and monotonically decreasing association with testicular cancer risk after adjusting for parental age, paternal socioeconomic status, and twin status. The associations were modified by subjects' cohort of birth and were not present among those born after 1959. The odds ratio for having at least 3 siblings, compared with none, was 0.63 (95% confidence interval = 0.53-0.75) among subjects born before 1960. Stratified analyses showed that birth order and number of younger siblings had a similar inverse association with the risk for testicular cancer.

CONCLUSIONS

Sibship size, and not only birth order, is associated with testicular cancer risk. This suggests a higher prevalence of parental subfertility among patients with testicular cancer.

Testicular function following chemo-radiotherapy

Improvements in cancer survival raise infertility issues in young patients suffering from malignancies. The aim of the study is to review current knowledge on the effect of chemotherapy (CT) and radiotherapy (RT) for testis and hematological neoplasms on testicular function. Cisplatin-based regimens for testis neoplasm induce temporary azoospermia; permanent damage can occur with high doses (400-600 mg/m(2)). Alkylating agents are very effective for hematological neoplasm therapy but extremely dangerous to germinal epithelium. Damage can be irreversible. Spermatozoa cannot tolerate irradiation doses higher than 6 Gy. Leydig cells are damaged by doses higher than 15 Gy. A-Spermatogonia have been shown to survive after CT and RT and their recovery for post-treatment graft has been recently developed in animal models. Infertility counselling before treatment in young oncological patients is mandatory. Cryopreservation is the best option for fertility protection.

Clinical epidemiology of testicular germ cell tumors

Clinical epidemiology is sometimes called the basic science of clinical medicine. In terms of the pathogenesis of testicular germ cell tumors (GCTs), clinical epidemiology analyzes suspected risk factors. The present review highlights the risk factors established so far and briefly summarizes those factors currently under investigation. In analogy to the methods of evidence based medicine, this review attributes levels of evidence to each of the putative risk factors. Level I represents highest quality of evidence while level V denotes the lowest level. So far, undescended testis (UDT), contralateral testicular GCT and familial testis cancer are established risk factors attaining high levels of evidence (levels I-III a). In a meta-analysis of 21 studies exploring the association of UDT with GCT risk, an over-all relative risk (RR) of 4.8 (95% confidence interval 4.0-5.7) was found. Contralateral testicular GCT involves a roughly 25-fold increased RR of GCT, while familial testis cancer constitutes a RR of 3-10. Infertility, testicular atrophy, and twin-ship represent risk factors with lesser levels of evidence (level III a). There is also some evidence for HIV infection being a predisposing factor for GCT (level IV a). Scrotal trauma is probably not associated with GCT risk. The estrogen excess theory implies high estrogen levels during the first trimester of pregnancy. As a consequence, primordial germ cells lose track of the normal developmental line and transform into premalignant cells that later become testicular intraepithelial neoplasia (TIN), the precursor of full-blown testicular GCT. Surrogate parameters for high gestational estrogen levels are investigated in case control studies. Such factors are maternal age >30 years, first-born, low birth weight, maternal breast cancer, high sex-ratio of siblings. So far, the sum of evidence is promising but still conflicting (especially for level III b). Another novel theory is the childhood nutrition hypothesis. This concept postulates a modulating or "catalyzing" effect by high dietary intake during childhood on the pathogenesis of testicular GCT. A surrogate parameter of early childhood nutrition is adult height. So far, 12 controlled studies have looked to the possible association of attained height and GCT risk of which six demonstrated a significant association. Thus, the sum of evidence corresponds to level III b. This concept is appealing because it would explain several hitherto unexplained epidemiological features of GCT.

Fecundity and Twinning Rates as Measures of Fertility Before Diagnosis of Germ-Cell Testicular Cancer

Previous studies have suggested an association between subfertility and testicular cancer by using fecundity and semen characteristics to measure fertility. The occurrence of twinning in offspring may be used to investigate male reproductive health, because dizygotic twinning is reduced by male subfertility. We therefore assessed number of children and offspring twinning rates among 4592 Swedish patients with testicular cancer and 12 254 control subjects. Before diagnosis, case patients had a decreased number of children (for testicular cancer, odds ratio [OR] = 0.71, 95% confidence interval [CI] = 0.62 to 0.81; at least three children compared with no children), with a lower frequency of dizygotic twinning (for unlike-sex twins, OR for the father having testicular cancer = 0.49, 95% CI = 0.22 to 1.08). The ratio of unlike-sex to same-sex twins was 0.22 among children of case patients and 0.66 among children of control subjects (adjusted P =.03, two-sided Wald test). We also found an increased occurrence of twinning after diagnosis, probably attributable to treatment for iatrogenic subfertility. Our study strongly supports evidence of an association between subfertility and the subsequent risk for testicular cancer.

Infertility rates following POMB/ACE chemotherapy for male and female germ cell tumours - a retrospective long-term follow-up study

The risk of chemotherapy-induced infertility in male and female germ cell tumour (GCT) survivors is unclear, but may correlate with cisplatin dose. Here, we examine a large series of GCT patients for the effect of chemotherapy on those attempting to have children. Our GCT database was screened for nonseminomatous GCT patients who had (1) received POMB/ACE chemotherapy (cisplatin, vincristine, methotrexate, bleomycin alternating with actinomycin D, cyclophosphamide and etoposide) and (2) stage I male GCT patients who were untreated between 1977 and 1996. Fertility was assessed by questionnaire and medical records. A total of 64 of 153 treated and 35 of 115 untreated men attempted to have children. In all, 28% (18 out of 64) receiving POMB/ACE were unsuccessful. Radiotherapy (six), atrophic remaining testis (one) or prior infertility (three) were implicated in 10 cases, so chemotherapy-induced infertility may have occurred in only 11% (eight out of 64). Strikingly, 26% (nine out of 35) of untreated stage I patients also failed to have children (three had radiotherapy, three prior infertility). Moreover, in treated men, no association was seen between cisplatin dose and infertility. In contrast, radiotherapy significantly increased male infertility (P=0.001). Of 28 treated women who attempted to have children, 25% (seven out of 28) were unsuccessful. One previously had infertility and one subsequently had successful IVF so chemotherapy-induced infertility potentially occurred in only 18% (five out of 28) and was not related to cisplatin dose. In conclusion, the risk of chemotherapy-induced infertility is low in both male and female GCT patients and does not clearly correlate with the cumulative cisplatin dose.

Bilateral Testicular Microlithiasis Predicts the Presence of the Precursor of Testicular Germ Cell Tumors in Subfertile Men

PURPOSE

A high prevalence of testicular microlithiasis has been described in adolescent and adult clinical cases of invasive testicular germ cell tumor (TGCT), that is seminomas and nonseminomas. However, to our knowledge it remains to be established whether testicular microlithiasis also indicates the presence of the pre-invasive lesion of this cancer, known as carcinoma in situ (CIS). We determined the predictive value of unilateral and bilateral testicular microlithiasis for CIS in subfertile men, a known risk population for TGCTs (approximately 1%).

MATERIALS AND METHODS

In a retrospective cross-sectional study the association between testicular microlithiasis and CIS was studied in a group of 263 men referred for subfertility. Testicular microlithiasis and CIS were diagnosed in all men by scrotal ultrasound and in testicular histology specimens as part of the routine evaluation of all patients.

RESULTS

Of the 263 subfertile men 53 (20%) had testicular microlithiasis. No CIS or TGCT was identified in the 23 men with unilateral testicular microlithiasis. In contrast, 6 of the 30 men (20%) with bilateral testicular microlithiasis were diagnosed with CIS. Therefore, the prevalence of CIS in subfertile men with bilateral testicular microlithiasis is significantly higher than in patients without testicular microlithiasis (1 of 210, 0.5%) and with unilateral testicular microlithiasis (0 of 23, 0%) (p <0.0001).

CONCLUSIONS

Bilateral testicular microlithiasis is indicative for CIS in subfertile men. Since these men are at particular risk for invasive TGCT, an assessment of testicular microlithiasis is a valuable tool for the early diagnosis of this disease.

Increased Risk of Carcinoma In Situ In Patients With Testicular Germ Cell Cancer With Ultrasonic Microlithiasis In the Contralateral Testicle

PURPOSE

We compared clinical and histological data regarding the contralateral testicle in a population of men diagnosed with testicular germ cell cancer to find features associated with an increased risk of bilateral neoplasia.

MATERIALS AND METHODS

Clinical data obtained from the records of 79 men seen during the period 1998 to 2001 included history, physical and ultrasound examination, and the results of semen and hormonal analysis. Contralateral testicular biopsies were obtained from all men and analyzed for carcinoma in situ (CIS), microcalcifications (microliths) and other signs of testicular dysgenesis.

RESULTS

Ultrasound examination of the contralateral testicle was performed in 64 of the cases. The echo pattern was judged normal in 30 cases, slightly irregular in 22, irregular in 3 and showed microlithiasis in 9. The frequency of microlithiasis seen on ultrasound was significantly higher among patients with CIS (p <0.001) compared to those with a normal echo pattern (Fisher's exact test). The overall frequency of reported cryptorchidism was 18.7% with no difference in seminoma and nonseminoma distribution between patients with or without a history of cryptorchidism. The median age of patients with cryptorchidism, 25.8 years (range 15.8 to 31.7), was significantly younger (the Mann-Whitney test p <0.05) than the age of those with normal testicular descent, 31.4 years (range 17.8 to 52.9).

CONCLUSIONS

The finding of contralateral testicular microlithiasis on ultrasound in a patient with testicular germ cell cancer increases the risk of harboring carcinoma in situ in that testicle (odds ratio 28.6; CI: 4.8-170.4). Conversely, a normal ultrasound pattern does not exclude the risk of CIS. Whether sonographic microlithiasis found in other subgroups of patients or in men from the general population also implies an increased risk of testicular CIS remains to be clarified.

Histological evidence of testicular dysgenesis in contralateral biopsies from 218 patients with testicular germ cell cancer

This study was prompted by a hypothesis that testicular germ cell cancer may be aetiologically linked to other male reproductive abnormalities as a part of the so-called 'testicular dysgenesis syndrome' (TDS). To corroborate the hypothesis of a common association of germ cell cancer with testicular dysgenesis, microscopic dysgenetic features were quantified in contralateral testicular biopsies in patients with a testicular germ cell tumour. Two hundred and eighty consecutive contralateral testicular biopsies from Danish patients with testicular cancer diagnosed in 1998-2001 were evaluated retrospectively. Two hundred and eighteen specimens were subsequently included in this study, after 63 patients who did not meet inclusion criteria had to be excluded. The presence of carcinoma in situ (which is believed to originate from transformed gonocytes) was detected in 8.7% of biopsies. The incidence of other dysgenetic features was immature tubules with undifferentiated Sertoli cells, 4.6%; microcalcifications (microliths), 6.0%; and the presence of a Sertoli-cell-only pattern in at least a few tubules, 13.8%. The cumulative incidence of one or more signs of testicular dysgenesis was 25.2%. In a few patients, areas with immature and morphologically distorted tubules were also noted. Spermatogenesis was qualitatively normal in 51.4%, whereas 11.5% had very poor or absent spermatogenesis. It is concluded that microscopic testicular dysgenesis is a frequent feature in contralateral biopsies from patients presenting with testicular germ cell neoplasms of the adolescent and young type. The findings therefore support the hypothesis that this cancer is part of a testicular dysgenesis syndrome. The presence of contralateral carcinoma in situ was higher in the present study than previously reported.

Sperm banking and rate of assisted reproduction treatment: insights from a 15-year cryopreservation program for male cancer patients

BACKGROUND

Semen cryostorage remains the only proven method to preserve fertility in men with cancer. However, the necessity and the justification of banking spermatozoa have been questioned because it has been reported that only a small percentage of patients are referred for assisted reproductive technologies using frozen semen.

METHODS

A 15-year cryopreservation program involving 776 men with malignant diseases who were referred to the study institution for semen cryopreservation before proceeding with chemotherapy and/or radiotherapy was reviewed. Data regarding cancer diagnosis, age, semen quality, and use of frozen semen were analyzed.

RESULTS

Sperm banking was not performed for 90 of the 776 subjects (11.6%) because of azoospermia. Sperm quality was reduced in men with testicular carcinoma. To date, 36 of the 686 patients who had banked spermatozoa (5.2%) have attended the clinic for assisted conception treatments using frozen spermatozoa. Cumulative rates related to the use of frozen semen at 4, 8, and 12 years were 4.5%, 8.7%, and 11.8%, respectively. Relevant factors demonstrated to be significantly associated with a lower probability of using frozen material were a younger age at the time of cryostorage and a diagnosis of testicular carcinoma.

CONCLUSIONS

The rate of referral for assisted reproductive techniques in patients who have banked their semen is low but tends to rapidly increase extending the length of follow-up. The cumulative percentage of use is at least above 10% but a longer follow-up is required to draw definitive conclusions. A diagnosis of testicular carcinoma is associated with a lower rate of use when compared with other cancers. Cancer 2003;97:1624-9.

Cancer risks associated with the diagnosis of infertility

The effects of infertility and its treatment on cancer risk are of concern to many infertile couples. Infertile women appear to be at no higher risk for breast cancer although they may be more at risk for cancers of the uterus, particularly if they have ovulation disorders. Most studies show no increase in the risk of invasive ovarian cancer in infertile women, but ovarian tumours of borderline malignancy are more common. There seems to be no overall increase in cancer risk associated with fertility drug treatment, but questions remain about risk in subgroups of infertile women. Male infertility has been associated with an increased risk of testis cancer. Cancer incidence in children born after fertility treatment appears to be similar to that in the general population. Discussion of cancer risks in the context of other reproductive and community risks can be helpful to patients.

Syndromic aspects of testicular carcinoma

BACKGROUND

In patients with hereditary or constitutional chromosomal anomalies, testicular carcinoma can develop sporadically or on the basis of an underlying hereditary genetic defect. Greater knowledge of these genetic defects would provide more insight into the molecular pathways that lead to testicular carcinoma. To the authors' knowledge, little attention has been paid to date to the comorbid occurrence of testicular carcinoma in patients with hereditary disorders or constitutional chromosomal anomalies.

METHODS

The authors performed a review of the literature.

RESULTS

Twenty-five different hereditary disorders or constitutional chromosomal anomalies have been reported in patients who developed seminomatous or nonseminomatous testicular carcinoma.

CONCLUSIONS

Although most of these malignancies were too rare to enable the detection of statistically significant correlations between the chromosomal/hereditary disorder and the testicular tumor, it was striking that many of the patients had also other urogenital abnormalities. Susceptibility to urogenital abnormalities seems to disrupt normal urogenital differentiation and suggests a correlation with testicular dysgenesis and, thus, also with testicular carcinoma. Other evidence of causal involvement has been found in the field of tumor cytogenetics. Some of the genes responsible for hereditary disorders have been mapped to regions that are of interest in the development of sporadic testicular carcinoma. Molecular studies on candidate genes will be required to provide definite answers. Completion of the human gene map and the availability of advanced gene arrays and bioinformatics are expected to greatly facilitate further exploration of the role of hereditary genetic defects in testicular carcinoma.

The 'oestrogen hypothesis'- where do we stand now?

The original 'oestrogen hypothesis' postulated that the apparent increase in human male reproductive developmental disorders (testis cancer, cryptorchidism, hypospadias, low sperm counts) might have occurred because of increased oestrogen exposure of the human foetus/neonate; five potential routes of exposure were considered. This review revisits this hypothesis in the light of the data to have emerged since 1993. It addresses whether there is a secular increasing trend in the listed disorders and highlights the limitations of available data and how these are being addressed. It considers whether new data has emerged to support the suggestion that increased oestrogen exposure could cause these abnormalities and reviews new data on potential routes via which such increased exposure could have occurred. Secular trends: The disorders listed above are now considered to represent a syndrome of disorders (testicular dysgenesis syndrome, TDS) with a common origin in foetal life. Testicular cancer has increased in incidence in Caucasian men worldwide and lifetime risk is 0.3-0.8%. Secular trends in cryptorchidism are unclear but it is by far the commonest (2-4% at birth) congenital abnormality in either sex. Secular trends for hypospadias are not robust, although most studies suggest a progressive increase; registry data probably under-estimates incidence, but based on this data hypospadias is the second most common (0.3-0.7% at birth) congenital malformation. Retrospective analyses of sperm count data show a global downward trend but this is inconclusive - prospective studies using standardized methodology show significant differences between countries and very low sperm counts in the youngest cohort of men. For all disorders, other then testis cancer, standardized prospective studies are the best way forward and are in progress across Europe. Oestrogen effects: Evidence that foetal exposure to oestrogens can induce the above disorders has strengthened. New pathways via which such changes could be induced have been identified, including suppression of testosterone production by the foetal testis, suppression of androgen receptor expression and suppression of insulin-like factor-3 (InsL3) production by foetal Leydig cells. Other evidence suggests that the balance between androgen and oestrogen action may be important in induction of reproductive tract abnormalities. Oestrogen exposure: Although many new environmental oestrogens have been identified, their uniformly weak oestrogenicity excludes the possibility that they could induce the above disorders. However, emerging data implicates various environmental chemicals in being able to alter endogenous levels of androgens (certain phthalates) and oestrogens (polychlorinated biphenyls, polyhalogenated hydrocarbons), and the former have been shown to induce a similar collection of disorders to TDS. Other mechanisms via which increased fetal exposure to pregnancy oestrogens might occur (increasing trend in obesity, dietary changes) are also discussed.

Differential expression of two estrogen receptor beta isoforms in the human fetal testis during the second trimester of pregnancy

Testicular cancer is more common in individuals with disorders of the male reproductive tract. It has been suggested that inappropriate exposure to estrogens during fetal life may have an impact on maturation of testicular germ cells that are the cells of origin of the majority of testis cancers. The aim of the present study was to establish whether human fetal germ cells (gonocytes) are a potential target of estrogen action. To address this issue, we used RT-PCR and immunohistochemistry to examine the pattern of expression of estrogen receptors (ER alpha, ER beta, and ER beta 2 variant) in human fetal testes at 12-19 wk gestation. ER alpha, mRNA, and protein were not detected in any of the fetal testes. In contrast, using an antibody directed against the hinge domain of ER beta expression was detected in multiple testicular nuclei. RT-PCR with primers specific for full-length wild-type ER beta (ER beta 1) or the ER beta 2 variant formed by splicing of an alternative eighth exon, was performed on whole-tissue extracts and materials recovered by laser capture and revealed that mRNAs for both isoforms were expressed. Immunohistochemistry with isotype-specific monoclonal antibodies showed that ER beta 1 was low/undetectable in gonocytes, whereas these cells expressed the highest levels of ER beta 2, compared with other testicular cell types. Both ER beta 1 and ER beta 2 were detected in some but not all Sertoli cells, peritubular cells, and other interstitial cells including those tentatively identified as Leydig cells. Our immunohistochemical results demonstrate that during the second trimester, some but not all somatic cells within the human fetal testis express wild-type ER beta (ER beta 1) protein and/or the variant isoform of ER beta (ER beta 2) that lacks amino acids essential for binding of estradiol. ER beta 2 protein was readily detectable in fetal gonocytes, whereas ER beta 1 was not. We did not detect expression of ER alpha. The expression of ER beta 2, a variant proposed act as a dominant negative receptor, might prevent estrogen action in gonocytes. We suggest that during this period of fetal life, estrogenic ligands are most likely to act on somatic cells that contain ER beta 1 protein.

Analysis of the polymorphic CAG repeat length in the androgen receptor gene in patients with testicular germ cell cancer

Changes in the length of a polymorphic trinucleotide (CAG) repeat in the androgen receptor (AR) gene, which may lead to altered transactivation of the AR gene, have been implicated to play a role in the pathogenesis of several forms of endocrine cancer and certain reproductive disorders. Subjects with reproductive disorders that are associated with a relative deficiency of androgen function carry an increased risk for testicular cancer, therefore we have examined the (CAG)n in the AR gene in DNA isolated from peripheral blood cells of 102 patients diagnosed with testicular germ cell neoplasia and compared them with a control group of 110 healthy men with proven fertility. All patients and control subjects underwent comprehensive andrological examination that included reproductive hormone profiles and the analysis of the (CAG)n in the AR gene that was done by means of PCR and DNA sequencing. There was no difference in the distribution of (CAG)n between the subjects and controls, no association of (CAG)n and the tumor type and no association with severity of the disease. We conclude that the high risk of testicular germ cell cancer in the Danish population is not associated with the (CAG)n polymorphism in the AR gene.

Are male reproductive disorders a common entity? The testicular dysgenesis syndrome

Growing evidence from clinical and epidemiological studies points to a synchronized increase in the incidence of male reproductive problems, such as genital abnormalities, testicular cancer, reduced semen quality, and subfertility. Together these male reproductive problems may reflect the existence of one common entity, a testicular dysgenesis syndrome (TDS). Experimental and epidemiological studies suggest that TDS is a result of disruption of embryonal programming and gonadal development during fetal life. The recent rise in the prevalence of TDS may be causally linked to endocrine disrupters affecting genetically susceptible individuals. We recommend that future epidemiological studies on trends in male reproduction do not focus on one symptom only, but take all aspects of TDS into account. The potential impact of adverse environmental factors and the role of genetic polymorphisms involved in gonadal development requires further research.