An aetiological study of isochromosome-X Turner's syndrome

Effect of paternal age on the frequency of cytogenetic abnormalities in human spermatozoa

Many surveys have been performed to find etiological relationships between pregnancy outcome and specific risk factors, such as exposure to chemicals and radiation or parental age. Advanced maternal age is a strong risk factor for trisomic pregnancies, albeit there are considerable variations among the different chromosomes. The definite incidence of the various structural and numerical chromosome aberrations in spontaneous abortions and liveborns is well known, as well as the rate of maternally and paternally derived rearrangements. Nevertheless studies have failed to assert an age-dependent risk for men fathering chromosomally abnormal children. New techniques using fluorescence in situ hybridization render it possible to analyze spermatozoa directly for numerical and, to some extent, for structural aberrations. This article compiles the findings of studies on human spermatozoa over the last few years.

Effects of male age on the frequencies of germinal and heritable chromosomal abnormalities in humans and rodents

OBJECTIVE

To review evidence regarding the effects of male age on germinal and heritable chromosomal abnormalities using available human and rodent studies and to evaluate possible underlying mechanisms.

DESIGN

Review of English language-published research using MEDLINE database, excluding case reports and anecdotal data.

RESULT(S)

There was little evidence from offspring or germ cell studies for a generalized male age effect on autosomal aneuploidy, except in rodents. Sex chromosomal nondisjunction increased with age in both human and rodent male germ cells. Both human and rodent data showed age-related increases in the number of sperm with chromosomal breaks and fragments and suggest that postmeiotic cells are particularly vulnerable to the effects of aging. Translocation frequencies increased with age in murine spermatocytes, at rates comparable to mouse and human somatic cells. Age-related mechanisms of induction may include accumulation of environmental damage, reduced efficiency of DNA repair, increased genomic instability, genetic factors, hormonal influences, suppressed apoptosis, or decreased effectiveness of antioxidants and micronutrients.

CONCLUSION(S)

The weight of evidence suggests that the increasing trend toward fathering at older ages may have significant effects on the viability and genetic health of human pregnancies and offspring, primarily as a result of structural chromosomal aberrations in sperm.

The appropriate upper age limit for semen donors: a review of the genetic effects of paternal age

There is little evidence to support a correlation between increased paternal age and the incidence of chromosome anomalies. Though a few early studies demonstrated an increased risk of Down syndrome with advanced paternal age, especially after the age of 55, numerous later studies failed to confirm any paternal age effect. Among structural chromosome anomalies, only the inherited reciprocal translocations were found to be more common among children of older fathers. Chromosome analysis of semen donors would rule out this problem. There is evidence, however, that the incidence of serious nonchromosomal birth defects, especially those arising from new autosomal mutations, increases with paternal age. Risk estimates have been established for increased paternal age and contribution to new dominant mutations. The established association between increased paternal age and new autosomal mutations and the fact that most of the disorders associated with such mutations cannot be prenatally diagnosed may be important in establishing the upper age limit for semen donors. Recommendations from the literature are interpreted to advise men to have their children before age 40. This suggestion would obviously benefit immediate offspring and perhaps successive generations as well. The limit of 35 years set by AATB standards, therefore, is in harmony with such benefit, but may be too stringent in eliminating potential donors. Accordingly, the Reproductive Council of the AATB has initiated steps to modify its standards to the age limit of 40.