Severe sperm DNA fragmentation may persist for up to 3 years after cytotoxic therapy in patients affected by Hodgkin lymphoma and non-Hodgkin lymphoma.

Study Question: Does sperm DNA recover from damage in all men after 2 years from the end of cytotoxic treatments?

Summary Answer: The current indication of 2 years waiting time for seeking natural pregnancy after cytotoxic treatment may not be adequate for all men, since severe sperm DNA damage is present in a proportion of subjects even after this timeframe.

What Is Known Already: Data in the literature on sperm DNA fragmentation (SDF) in lymphoma patients after cytotoxic treatments are scarce. The largest longitudinal study evaluated paired pre- and post-therapy (up to 24 months) semen samples from 34 patients while one study performed a longer follow-up (36 months) in 10 patients.

Long-term effect of cytotoxic treatments on sperm DNA fragmentation in patients affected by testicular germ cell tumor.

Introduction: Testicular germ cell tumor is the most frequent neoplasia in men of reproductive age, with a 5-year survival rate of 95%. Antineoplastic treatments induce sperm DNA fragmentation, especially within the first year post-therapy. Data in the literature are heterogeneous concerning longer follow-up periods, and the large majority is limited to 2 years.

Correction: gr/gr deletion predisposes to testicular germ cell tumour independently from altered spermatogenesis: results from the largest European study.

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Genetic dissection of spermatogenic arrest through exome analysis: clinical implications for the management of azoospermic men.

Purpose: Azoospermia affects 1% of men and it can be the consequence of spermatogenic maturation arrest (MA). Although the etiology of MA is likely to be of genetic origin, only 13 genes have been reported as recurrent potential causes of MA.

Methods: Exome sequencing in 147 selected MA patients (discovery cohort and two validation cohorts).

Short anogenital distance is associated with testicular germ cell tumour development.

Background: Testicular germ cell tumour is a multifactorial disease in which various genetic and environmental factors play a role. Testicular germ cell tumour is part of the testicular dysgenesis syndrome which includes also cryptorchidism, hypospadias, oligo/azoospermia and short anogenital distance.

Objectives: The primary objective was to examine anogenital distance in testicular germ cell tumour cases and healthy fertile controls.

Age-Dependent De Novo Mutations During Spermatogenesis and Their Consequences.

Spermatogenesis is a highly complex biological process during which germ cells undergo recurrent rounds of DNA replication and cell division that may predispose to random mutational events. Hence, germ cells are vulnerable to the introduction of a range of de novo mutations, in particular chromosomal aberrations, point mutations and small indels. The main mechanisms through which mutations may occur during spermatogenesis are (i) errors in DNA replication, (ii) inefficient repair of non-replicative DNA damage between cell divisions and (iii) exposure to mutagens during lifetime.

gr/gr deletion predisposes to testicular germ cell tumour independently from altered spermatogenesis: results from the largest European study.

The association between impaired spermatogenesis and TGCT has stimulated research on shared genetic factors. Y chromosome-linked partial AZFc deletions predispose to oligozoospermia and were also studied in TGCT patients with controversial results. In the largest study reporting the association between gr/gr deletion and TGCT, sperm parameters were unknown.

Discrimination of Deletion and Duplication Subtypes of the Deleted in Azoospermia Gene Family in the Context of Frequent Interloci Gene Conversion.

Due to its palindromic setup, AZFc (Azoospermia Factor c) region of chromosome Y is one of the most unstable regions of the human genome. It contains eight gene families expressed mainly in the testes. Several types of rearrangement resulting in changes in the cumulative copy number of the gene families were reported to be associated with diseases such as male infertility and testicular germ cell tumors.