Late Effects of Cancer Therapies on Gonadal Function, Fertility, Efficiency of Fertility Preservation Procedures and Pregnancy Outcomes (Follow-AYA)

Fertility preservation (FP) and fertility counselling at the time of diagnosis and throughout follow-up are recommended to improve the quality of life of young patients diagnosed with cancer (Lambertini et al. 2020; Su et al.2025). Indeed, it has been shown that gonadal function, as well as fertility capacity after treatment are crucial aspects for AYA cancer survivors (Letourneau et al.2012). While natural conception can be possible after cancer treatment, cancer-treatment related risk factors for impaired fertility, including a drastically reduced reproductive window, have been identified.

FP techniques are progressing rapidly and have demonstrated their effectiveness in terms of pregnancy chances and live-birth rates. However, it remains difficult to establish firm and evidence-based FP strategies according to a patient's individual factors and cancer treatment. In addition, it remains crucial to carefully balance the risk-benefit of FP procedures and the potential of ovarian/fertility impairment, to examine the efficiency and safety of FP procedures and pregnancies as well as to assess patients' satisfaction regarding FP procedures. Large scale prospective and systematic short- and long-term data on the impact of specific cancer therapies on fertility based on fertility parameters such as ovarian reserve markers, sperm quality and pregnancies hardly exist. Specialized centres and joint regional and national network initiatives have started collecting such data. However, even though these initiatives are of great value and are sufficient to generate data from common cancer diseases such as breast or testicular cancer, rare cancers as well as on novel therapeutics (e.g. anti VEGF or immune therapies) and more complex cancer treatment regimen require large scale data collection initiatives to gain in-depth robust data for appropriate individual fertility-related counselling of female and male AYA patients.

In female cancer patients, it has been shown that serum AMH levels variations may be a direct and real-time indicator of follicular depletion and recovery during and after cancer treatment, as well as it is a non-invasive and reproducible marker (Anderson et al., 2022; Decanter et al., 2021). Systematic follow-up of AMH has been suggested in AYA patients with at least a measurement at baseline and within the 2 years following the end of gonadotoxic treatment (Su et al., 2025; Decanter et al., 2024; von Wolff et al. 2025). In parallel, menstrual function pattern should be regularly analysed as a relevant clinical surrogate and independent variable to determine prevalence of cancer treatment-induced amenorrhea, it's duration and hormonal and clinical signs of potential post treatment premature ovarian insufficiency (POI).

In the FollowAYA study within the PredictAYA project, the investigators therefore aim to set up a large-scale network structure of previously established data collection programmes in specialized centres/networks to evaluate the ovarian toxicity, the prevalence of impaired ovarian function, it's course and/or fertility impairment and POI following specific treatments, identification of predictive markers. Additionally, data on the use of FP and/or subsequent use of artificial reproductive treatment (ART) as well as patients' satisfaction related to these procedures in Europe shall drive the understanding of patient-centric care.

In male cancer patients, the long-term reproductive and endocrine effects of cancer treatment on testicular function remain poorly studied, with existing data based on small cohorts and incomplete clinical characterization. No validated pre-conceptional tests currently exist to guide patients in deciding between natural conception and the use of cryopreserved sperm. Because treatment regimens vary widely even within the same cancer type and incidence rates are relatively low, only a coordinated European effort can generate sufficiently robust data. PredictAYA addresses this need by establishing a harmonized data platform across large male AYA cohorts. Its goals are to develop personalized risk-prediction tools for reproductive and testicular endocrine outcomes, provide evidence-based counselling on FP and future options, and design standardized follow-up protocols enabling early diagnosis and treatment of hypogonadism and infertility. As only limited evidence on sperm DNA damage and epigenetic alterations exist, these aspects will be validated in selected sub-cohorts to assess the frequency and persistence of chemotherapy-induced dysfunction (Farnetani et al. 2023 and 2024, Chan et al. 2023).

Safety of pregnancy should also be an issue in counselling. Information on potential obstetrical and neonatal risks should also be given to provide individualized, risk-adapted follow-up during pregnancy. There is evidence that pregnancy in cancer survivors does not increase the risk for recurrence in women who became pregnant compared to those who did not, particularly in breast cancer (Lambertini et al. 2020). However, data remain limited regarding the impact of pregnancy timing, method of conception and the influence of adjuvant therapy such as hormonotherapy and immunotherapy (Bussies et al. 2022) Counselling patients in this context is particularly complex due to the lack of comprehensive human data (Maggen et al. 2021; Borgers et al. 2021). Finally, approximately 25-27 in 100,000 pregnancies is complicated by cancer, leaving specialists and patients to deal with a complex oncologic-obstetric decision-making process (Boere et al., 2021). PredictAYA also aim to confront the cancer recurrence rates during the follow up in haematological patients who were pregnant while receiving treatment for cancer versus expected recurrence rates for those neoplasms.

An increased risk of neonatal and obstetrical complications has been reported in several conditions, including preterm delivery, pre-eclampsia, cardiac dysfunction, and gestational diabetes (Shliakhtsitsava et al. 2018, van der Kooi et al. 2019, van der Kooi et al. 2021), although population-based studies are reassuring regarding the health-related quality of life and the risk of congenital anomalies in the offspring in cancer survivors (Balcerek et al., 2021, Winther et al., 2004). Most available studies are based on population registry and lack of detailed information on critical factors such as the impact of the timing of pregnancy, method of conception or the type of treatment (e.g. pelvic irradiation, anthracycline, targeted therapy), all of which may influence the outcomes (Hartnett et al., 2018, Sunguc et al., 2024). To provide evidence-based guidance of pregnancies in women with a history of cancer, the current body of research is insufficient and warrants further investigation.

Moreover, previous population-based studies reported a significantly lower childbirth rate in patients with aggressive tumours, with an increasing number of patients who used ART (Entrop et al., 2023a, Entrop et al., 2023b). ART has been associated with specific maternal and neonatal outcomes in infertile patients, related to placentation and endocrine environment (Bosdou et al., 2020, Busnelli et al., 2024). However, the impact of the conception methods, including ART after treatment and use of cryopreserved materials, on obstetrical and neonatal outcomes in cancer survivors' population is almost unknown (Borgmann-Staudt et al., 2022). Finally, few studies reported similar rate of unplanned pregnancies after cancer treatment and revealed a lack of contraception counselling in this population (Quinn et al. 2014, Massarotti et al 2021).