A physical analysis of the Y chromosome shows no additional deletions, other than Gr/Gr, associated with testicular germ cell tumour

Testicular germ cell tumour (TGCT) is the most common malignancy in men aged 15–45 years. A small deletion on the Y chromosome known as ‘gr/gr' was shown to be associated with a two-fold increased risk of TGCT, increasing to three-fold in cases with a family history of TGCT. Additional deletions of the Y chromosome, known as AZFa, AZFb and AZFc, are described in patients with infertility; however, complete deletions of these regions have not been identified in TGCT patients. We screened the Y chromosome in a series of TGCT cases to evaluate if additional deletions of Y were implicated in TGCT susceptibility. Single copy Y chromosome STS markers with an average inter-marker spacing of 128 kb were examined in constitutional DNA of 271 index TGCT patients. Three markers showed evidence of deletions, sY1291, indicative of ‘gr/gr' (eight out of 271; 2.9%), Y-DAZ3 contained within ‘gr/gr' (21 out of 271; 7.7%) and a single deletion of the marker G66152 was identified in one TGCT case. No other markers demonstrated deletions. While several regions of the Y chromosome are known to be deleted and associated with infertility, our study provides no evidence to suggest regions of Y deletion, other than ‘gr/gr', are associated with susceptibility to TGCT in UK patients

Perinatal determinants of germ-cell testicular cancer in relation to histological subtypes

We aimed to investigate the role of perinatal determinants on the risk for germ-cell testicular cancer, with respect to the aetiological heterogeneity between seminomas and non-seminomas. A case–control study of 628 case patients with testicular cancer (308 seminomas and 320 non-seminomas) and 2309 individually matched controls was nested within a cohort of boys born from 1920 to 1980 in two Swedish regions (Uppsala-Örebro Health Care Region and Stockholm). Cases were diagnosed from 1958 to 1998 and were identified through the Swedish National Cancer Registry. Perinatal information on cases and controls was collected through charts available at maternity wards. Gestational duration, categorised in three categories (<37, 37–41, >41 weeks), was negatively associated with the risk for testicular cancer (P value for linear trend=0.008). A protective effect of long gestational duration and an increased risk for high birth weight were found for seminomas. Non-seminomas were associated with short gestational duration, particularly among those with low birth order (odds ratio: 3.02, 95% confidence intervals: 1.53–5.97) and high maternal age (odds ratio: 2.33, 95% confidence intervals: 1.19–4.55). No significant differences were found in tests for heterogeneity between the two histological groups. Our data support the hypothesis that intrauterine environment affects the risk for germ-cell testicular cancer. Seminomas and non-seminomas seemed to have similar risk patterns, although they are not entirely congruent

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