Effect of paternal age on outcomes in assisted reproductive technology cycles: systematic review and meta-analysis

Abstract: Objective: To investigate whether paternal age exerts an independent effect on the clinical outcomes of assisted reproductive technology (ART) cycles. Evidence Review: Observational studies were identified through a systematic search of MEDLINE, EMBASE, Cochrane Central Register of Controlled Trials, and National Health Service evidence. Data for women aged %39 years were extracted and analyzed. We included all studies, both autologous and donor oocyte, into separate analyses of the effect of paternal age on A… Show more

“…The only other meta-analysis on this subject, published in 2020 by Morris and co-workers, concluded that male age does not affect live birth, clinical pregnancy or miscarriage rates when using donor oocytes (Morris et al, 2020). However, their meta-analysis only separated paternal age at 40 and 50 years, and not across the age groups of 30, 35 and 45 as was done here.…”

Does advanced paternal age affect outcomes following assisted reproductive technology? A systematic review and meta-analysis

“…The only other meta-analysis on this subject, published in 2020 by Morris and co-workers, concluded that male age does not affect live birth, clinical pregnancy or miscarriage rates when using donor oocytes (Morris et al, 2020). However, their meta-analysis only separated paternal age at 40 and 50 years, and not across the age groups of 30, 35 and 45 as was done here.…”

Does advanced paternal age affect outcomes following assisted reproductive technology? A systematic review and meta-analysis

“…Those that have suggest that APA may negatively impact gamete oxidative DNA damage (Nguyen‐Powanda & Robaire, 2020) and genetics (Brandt et al, 2019; Sharma et al, 2015), conception rates (du Fossé et al, 2020; Ford et al, 2000), maternal comorbidities such as gestational diabetes (Khandwala et al, 2018; Strøm‐Roum et al, 2013) and hypertensive disorders of pregnancy (Alio et al, 2012), perinatal outcomes such as low birth weight, low‐Apgar scores and premature birth (Alio et al, 2012; Khandwala et al, 2018), and the long‐term health of offspring, such as an increased risk of neuropsychiatric disorders (schizophrenia, autism and obsessive compulsive disorder) (Brandt et al, 2019; de Kluiver et al, 2017; Hultman et al, 2011; Sharma et al, 2015; Wu et al, 2012) and cancers (leukaemia, non‐Hodgkin's lymphoma and paediatric central nervous system tumours) (Hemminki et al, 1999; Murray et al, 2002). On the other hand, several studies failed to demonstrate an effect of paternal age on reproductive outcomes (reviewed in Morris et al, 2020). This could be explained by the fact that maternal and paternal ages are highly correlated with relatively little variability in the age difference; thus, many affected couples would have to be studied to distinguish any independent paternal age effect.…”

Paternal ageing impacts blastulation and the outcomes of pregnancy at different levels of maternal age: A clustering analysis of 21,960 oocytes and 3837 ICSI cycles

“…This is important considering the mean paternal age has also increased globally, from 27.4 to 30.9 years observed in America ( Khandwala et al , 2017 ; Bergh et al , 2019 ), and from 29.2 in 1980 to 32.1 over the last four decades in England and Wales (Birth Statistics, 2007). In a recent systematic review, both the livebirth and pregnancy rate were increased when the male age was ≤40 years old in autologous oocyte cycles, and the miscarriage rate more likely when the male was >40 years old ( Morris et al , 2020 ). Paternal age should therefore also be considered in the management of ARFD.…”

Age-related fertility decline: is there a role for elective ovarian tissue cryopreservation?