Freeze all for all- is it justified?
Orvieto Reproductive Biology and Endocrinology
https://doi.org/10.1186/s12958-025-01459-z
Reproductive Biology
and Endocrinology
(2025) 23:119
Open Access
E D I TO R I A L
Freeze all for all- is it justified?
Raoul Orvieto1,2,3,4*
Keywords Cryopreservation, Freeze-all, Fresh transfer, FET, Pregnancy
The choice between freeze-all and fresh embryo transfer
in IVF has been a longstanding topic of interest within
reproductive medicine. Reproductive Biology and Endocrinology has consistently contributed valuable studies to
this ongoing debate. In a previous editorial meeting, we
had planned to dedicate a special collection of articles to
explore this subject in depth. Although this project was
not carried out, we decided to write an editorial, aiming
to summarize the topic and shine a light on the key challenges and controversial aspects surrounding it.
In recent years, there has been a rise in the practice of elective freezing of all good quality embryos followed by transfer in subsequent frozen embryo transfer
(FET) cycles. This paradigm shift is largely attributed to
advancements in cryopreservation techniques (vitrification), as well as the widespread implementation of gonadotropin-releasing hormone (GnRH) agonist triggers,
preimplantation genetic testing for aneuploidy (PGT-A),
and the routine adoption of elective single embryo transfer (SET). Collectively, these developments have led to a
greater number of embryos being cryopreserved and utilized in FET cycles.
*Correspondence:
Raoul Orvieto
1
Department of Obstetrics and Gynecology, Chaim Sheba Medical Center,
Ramat Gan, Israel
2
Faculty of Medical and Health Science, Tel-Aviv University, Tel Aviv-Yafo,
Israel
3
The Tarnesby-Tarnowski Chair for Family Planning and Fertility
Regulation, Faculty of Medical and Health Science, Tel-Aviv University, Tel
Aviv-Yafo, Israel
4
Infertility and IVF Institute, Department of Obstetrics and Gynecology,
Sheba Medical Center, Ramat Gan 52621, Israel
There is broad consensus that specific clinical scenarios encountered at the start or during ovarian stimulation (OS) warrant a freeze-all approach. These include
the presence of intrauterine pathology (e.g., endometrial polyps, intrauterine fluid accumulation), suboptimal endometrial development, hydrosalpinx, premature
progesterone elevation, and a high risk of severe ovarian
hyperstimulation syndrome (OHSS) [1]. While numerous
studies have evaluated the efficacy of the freeze-all strategy in IVF, current evidence suggests limited benefit for
patients with low [2–4] or normal ovarian response [5].
However, for high responders, the data remain inconsistent, and further investigation is warranted. From a safety
perspective, elective FET is associated with a significantly
reduced risk of moderate to severe OHSS, offering a
compelling advantage in high responders. Nonetheless,
this benefit must be weighed against emerging evidence
linking frozen transfer cycles to increased risks of obstetric complications, including pre-eclampsia and fetal
overgrowth (e.g., macrosomia) [6].
The remaining question is whether elective FET offers
improved reproductive outcomes compared to fresh
embryo transfer in high-responder patients undergoing
IVF/ICSI, taking into account both efficacy and safety.
A comprehensive review of the literature identified two
randomized controlled trials (RCTs) from the same group
[7, 8], along with three large-scale retrospective studies
analyzing data from the Society for Assisted Reproductive Technology (SART) [2], the National Assisted Reproductive Technology (ART) Surveillance System [9], and
a population-based cohort study utilizing data from the
Victorian Assisted Reproductive Treatment Authority
[3].
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�Orvieto Reproductive Biology and Endocrinology
(2025) 23:119
The two RCTs evaluated elective freeze-all versus fresh
embryo transfer in well-defined high responder populations. The first randomized women with polycystic ovary
syndrome (n = 746 vs. 762) [7], and the second included
ovulatory high responder women (n = 825 vs. 825) [8],
with peak high estradiol concentrations at the time of
hCG trigger (4141 ± 2159 pg/mL and 3362 ± 1762 pg/
mL, respectively). In both trials, the freeze-all strategy
was associated with higher live birth rates (LBR) compared to fresh embryo transfer. Moreover, the incidence
of moderate to severe OHSS was reportedly lower in
the freeze-all arms (0.5–1.3% vs. 1.0–7.1%, respectively).
However, these exceptionally low OHSS rates, particularly in high-risk populations triggered by hCG, raise
concerns regarding case definitions, underreporting, or
potential selection bias, and merit further scrutiny. Additionally, the LBRs reported in these studies—as well as in
the same group’s RCT involving poor prognosis patients
(POSEIDON classification) [4] appear surprisingly comparable (ranging from 40 to 42%), especially when considering variability in embryo transfer protocols, patient
characteristics, and clinical practice settings across trials.
Such discrepancies suggest that the generalizability of
these findings may be limited.
Among the retrospective analyses, the SART registry
study encompassing 82,935 cycles demonstrated higher
LBRs in freeze-all cycles compared with fresh transfer
cycles in high responders (n = 7,337 vs. 24,174, respectively) [2]. In contrast, a retrospective cohort study
using data from the National ART Surveillance System
analyzed outcomes among 44,750 young women (aged
20–35 years) undergoing their first oocyte retrieval.
Despite a high mean oocyte yield (17.7–22.4), no statistically significant difference in singleton LBR was found
between frozen and fresh elective single embryo transfers
(n = 2,318 vs. 6,324, respectively) after adjustment using
log-linear models and propensity score analyses [9].
Similarly, a population-based cohort study conducted
in Australia evaluated 14,331 women undergoing their
first stimulated ART cycle. Among hig (...truncated)
