Promoting the use of elective single embryo transfer in clinical practice
The transfer of multiple embryos after in vitro fertilization (IVF) increases the risk of twins and higher-order births. Multiple births are associated with significant health risks and maternal and neonatal complications, as well as physical, emotional, and financial stresses that can strain families and increase the incidence of depression and anxiety disorders in parents. Elective single embryo transfer (eSET) is among the most effective methods to reduce the risk of multiple births with IVF.
Current societal guidelines recommend eSET for patients <35 years of age with a good prognosis, yet even this approach is not widely applied. Many patients and clinicians have been reluctant to adopt eSET due to studies reporting higher live birth rates with the transfer of two or more embryos rather than eSET. Additional barriers to eSET include risk of treatment dropout after embryo transfer failure, patient preference for twins, a lack of knowledge about the risks and complications associated with multiple births, and the high costs of multiple IVF cycles. This review provides a comprehensive summary of strategies to increase the rate of eSET, including personalized counseling, access to educational information regarding the risks of multiple pregnancies and births, financial incentives, and tools to help predict the chances of IVF success. The use of comprehensive chromosomal screening to improve embryo selection has been shown to improve eSET outcomes and may increase acceptance of eSET.
eSET is an effective method for reducing multiple pregnancies resulting from IVF. Although several factors may impede the adoption of eSET, there are a number of strategies and tools that may encourage the more widespread adoption of eSET in clinical practice.
KeywordsElective single embryo transfer Assisted reproductive technologies Patient education Comprehensive chromosomal screening Multiple births
ASRM/SART recommended criteria for eSET 
• Women aged <35 years
− Women aged 35–40 years should also consider eSET if they have top-quality blastocyst-stage embryos available for transfer
• More than one top-quality embryo available for transfer
− Blastocyst-stage embryos are preferred
• First or second IVF cycle
• Previously successful IVF cycle
• Recipients of embryos from donated eggs
Although SET rates have been increasing in the United States, they still lag significantly behind the rest of the world [1, 6]. In Europe, 27.5 % of all transfers in 2011 were SET , compared with rates in the United States of 17 % in 2011 and 24 % in 2013 [5, 8]. SET is mandated by the government in many European countries, and these policies have been shown to dramatically reduce the number of twin and higher-order births [1, 7, 9]. Implementation of a national SET policy in Sweden reduced the rate of twin births with IVF by 17 % without compromising outcomes (pregnancy rates were 33 % before and 37 % after SET legislation) . Results from a survey of 170 fertility clinics in the United States showed that the majority (94 %) of respondents reported adhering to the ASRM transfer guidelines. However, 35 % also reported that they routinely transfer two embryos in patients <35 years of age with a good prognosis , a surprising disconnect. Moreover, half of the clinics indicated that they deviate from recommended guidelines in response to patient preferences. In 2013, the mean number of embryos transferred in fresh cycles in the United States was 1.8 for women <35 years of age and 1.9 for women 35 to 37 years of age, implying most centers still transfer two embryos in good-prognosis patients .
A number of factors are thought to impede the widespread uptake of eSET in the United States, including a perceived lower overall success rate when compared with double embryo transfer (DET); lack of patient education regarding the risks associated with multiples; and high dropout rate following failed cycles due to financial, emotional, and/or physical burden. Improving patient education and support is essential to encouraging the adoption of eSET, and predictive models and enhanced embryo selection can help to empower patients to choose eSET while maintaining high success rates. This review summarizes the benefits of eSET, obstacles to the adoption of eSET, and strategies to increase eSET rates to achieve the optimal outcome of infertility treatment—a healthy singleton birth.
Outcomes with single versus multiple embryo transfer
Impact of singleton versus multiple births
Psychosocial effects on the family
• Gestational diabetes
• Placental previa
• Placental abruption
• Preterm premature rupture of the membranes
• Cesarean delivery
• Postpartum hemorrhage
• Placental problems
− Premature aging
− Twin-to-twin transfusion syndrome
• Spontaneous abortion
• Intrauterine growth restriction
• Preterm (<37 weeks), very preterm (<32 weeks), and extreme preterm (<28 weeks) birth
• Perinatal and infant mortality
• Low (<2500 g) and very low birth weight (<1500 g)
• Intraventricular hemorrhage
• Periventricular leukomalacia
• Respiratory distress syndrome
• Bronchopulmonary dysplasia
• Hypoxic-ischemic encephalopathy
• Necrotizing enterocolitis
• Retinopathy of prematurity
• Cerebral palsy
• Neural tube defects, heart malformations, and other birth defects
• Developmental delays
• Postpartum depression (mother and father)
• Relationship stress
• Financial stress
− Obstetric costs and neonatal intensive care admission
− Costs for caring for multiple children throughout childhood
Maternal and infant health risks
A retrospective registry study comparing the outcomes of women undergoing two singleton pregnancies after IVF (n = 921) with those of women undergoing one twin pregnancy after IVF (n = 991) showed that neonatal and maternal outcomes were dramatically better in those undergoing two singleton pregnancies . Indeed, multiple gestations increase the risk for nearly every recognized obstetric complication. Some of the significant maternal complications of multiple pregnancy include preeclampsia, gestational diabetes, placenta previa, placental abruption, and requirement for cesarean delivery [4, 18]. Twins and higher-order multiples are at greater risk for fetal growth restriction, preterm delivery, and low birth weight [4, 18, 19]. In 2013, >50 % of twins and >90 % of triplets in the United States were born preterm and/or had a low birth weight, compared with <10 % of singletons . Preterm birth is associated with an increased risk of severe complications, including intraventricular hemorrhage, respiratory distress syndrome, necrotizing enterocolitis, sepsis, jaundice, and neonatal mortality [4, 18, 19]. Multiple births are also associated with an increased risk of longer-term complications, such as congenital heart defects, cerebral palsy, developmental delays, and learning disabilities [18, 21].
The adverse medical outcomes associated with multiple births translate into significantly increased healthcare costs, particularly during infancy . Estimated infant and maternal healthcare costs of twin pregnancies are three to five times higher than those of singleton pregnancies, while higher-order multiples cost approximately 20 times more than singletons [22, 23]. The increased healthcare costs of multiple births are due, in part, to complications during labor and delivery, requirement for cesarean delivery, longer duration of hospital stay, and increased admission to the neonatal intensive care unit (NICU) . The increased need for/duration of bed rest during multiple pregnancies may also result in temporary loss of income , and these data are often not included in cost analyses of multiple gestations. Additionally, multiple births are associated with a variety of increased non-healthcare costs, including childcare for multiple children (or loss of income if a parent decides to stay at home), and additional costs for food, clothing, diapers, car seats, furniture/housing, schooling, and other essentials throughout childhood .
Physical, emotional, and financial stresses can increase the incidence of depression and anxiety disorders in parents rearing multiples [3, 24]. A survey of mothers raising children conceived through ART found that multiple births were associated with decreased quality of life and increased stress, depression, and social stigma . Postpartum depression is also more common in parents of multiples and may be long term . Studies have additionally reported that parents of multiples are more likely to experience decreased marital satisfaction  and to divorce or become separated compared with parents of singletons [25, 26]. A retrospective study in the United Kingdom also found that families with twins or triplets were more likely to be financially worse off after the births, to experience difficult or very difficult financial stress, to not have the mother return to work within 9 months after the birth, and to have children with delayed or very delayed school readiness .
Barriers to eSET
Patient requests for multiple embryo transfer may represent the greatest challenge to the adoption of eSET as a standard of care. Multiple factors impact patients’ embryo transfer decision, including nulliparity, family income, level of knowledge regarding the risks of multiples, patient age, duration of infertility, and the desire to limit the physical and psychological stress of multiple IVF cycles [27, 28, 29].
Many patients express a preference for siblings, or even twins, and thus may be more willing to accept the risks associated with multiple pregnancy [28, 29]. A survey of 449 infertile women found that one in five listed multiple birth as their most desired outcome . Avoidance of multiple births was indicated as less important than treatment efficacy, safety, affordability, and time to conception; patients who desired multiple births also demonstrated a greater lack of knowledge regarding the potential risks and complications associated with multiple births . Thus, patients may truly desire a live birth and be less concerned, given lack of knowledge, how that perceived optimal outcome is achieved.
Additional challenges to adopting eSET are the high out-of-pocket costs associated with IVF and limited insurance coverage for most patients in the United States . A recent Canadian study found that just 1 year of universal IVF coverage increased eSET rates by 30 % and reduced multiple pregnancy by 23 % . Similarly, implementation of an Australian healthcare program providing public funding for partial reimbursement of ART (including unlimited IVF cycles) resulted in an increase in eSET cycles from 29.5 to 68 % over a 6-year period . In the United States, insurance coverage for IVF is also associated with fewer embryos transferred and a lower rate of multiple births; however, few states currently offer coverage for IVF [28, 35, 36].
Strategies for increasing the eSET rate
Patient education and decision aids
Educational materials reviewing eSET and the risks and complications associated with multiple births can help patients make an informed decision on the number of embryos to transfer. Decision aids come in many forms, including written materials (e.g., fact sheets and brochures), websites, videos, interactive tools, and patient testimonials . A randomized study in 222 infertile couples reported that the majority of patients appreciated the use of a decision aid and felt it helped them to decide how many embryos to transfer . A New Zealand study showed that the rate of eSET tripled 1 year after the initiation of a patient education program providing materials that outlined the benefits of eSET and risks associated with DET . A separate study evaluated the impact of an educational DVD or brochure on eSET rate and found that, after receiving the education materials, couples preferred eSET over DET, even among those who had previously preferred DET .
Counseling and advice from physicians and nurses
It is important for the entire team (physicians, nurses, embryologists, and other clinical staff) to be aligned with respect to eSET recommendations so that a clear, consistent message is provided to all patients. Nurses should objectively discuss the content of decision aids, clarify questions, and enable couples to make an informed decision . A randomized study in 222 infertile couples showed that the physician’s advice and counseling by an IVF nurse were among the most influential factors driving a patient’s decision of how many embryos to transfer . Investigators felt nurse counseling was important because nurses provided more individualized support for their patient’s particular physical, emotional, and social situation . Nurses, in particular, can provide patients with tools to cope with the emotional burden of multiple ART cycles . Approximately 70 % of patients also appreciated a follow-up phone call just prior to oocyte retrieval to discuss any relevant questions that might have arisen during IVF treatment.
In the United States, insurance coverage for ART is mandated in only 15 states . Reimbursement offers and financial incentives provided by fertility clinics or insurance companies may thus help relieve financial constraints that limit the number of cycles a patient can undergo and thereby influence a patient’s decision on how many embryos to transfer. Data from an ongoing pilot study evaluating the use of financial incentives (>$5000 in savings) to increase eSET rates in the United States showed that the majority of patients (60 %) agreed to eSET; the 40 % of couples who declined eSET did so because they desired twins . Of note, the clinical and ongoing pregnancy rates were similar among patients in the eSET and DET groups; however, the rates of twin births were 2 and 30 %, respectively.
Several countries have implemented public funding or insurance programs that provide full or partial reimbursement of ART costs, sometimes contingent upon the transfer of a single or limited number of embryos. These programs have been associated with increases in the utilization of ART, live births following ART treatments, and the proportion of eSET or SET cycles, and a decrease in the rate of multiple births [34, 44, 45, 46]. These trends are observed regardless of whether SET is mandated or just encouraged.
Information from online prediction tools that estimate the chances of IVF success based on individual patient characteristics can be used to help counsel patients [47, 48, 49]. Currently, patients can access several commercially available online prediction tools or a free online IVF predictor tool developed by SART. These tools incorporate a number of prognostic factors, such as a patient’s age, demographic information, health and medical history, and IVF response data, into a prediction model without considering data about embryo development, stage, and quality [40, 47, 49]. Prediction tools can be up to 1000 times more accurate in predicting a patient’s chance of successful outcome than simple age-based estimates , while also predicting the likelihood of multiple births. Information from these tools can complement personalized counseling in helping patients make decisions about whether and when to start IVF/ICSI procedures versus alternatives, such as intrauterine insemination or the use of donor eggs. Prediction tools can also help infertility center staff identify patients at greater risk for multiple births (e.g., probability >25 %) who should receive more extensive eSET counseling to minimize the risk of multiple gestation and associated complications.
Preimplantation genetic screening (PGS), including comprehensive chromosomal screening (CCS) technologies, allows clinicians to assess embryos for aneuploidy (i.e., an abnormal number of chromosomes) prior to transfer . Aneuploidy accounts for the majority (~70 %) of miscarriages in both natural and ART-conceived pregnancies . Most patients undergoing IVF have at least one or two embryos available for biopsy, which involves removing a small number of cells for genetic testing. In a retrospective analysis of more than 15,000 embryos, the incidence of a patient having no normal (euploid) embryos was low for patients <40 years of age . Trophectoderm biopsy at the blastocyst stage (Day 5 and/or 6) is currently the preferred method for screening , as it has, to date, not been shown to negatively impact implantation and pregnancy outcomes [50, 53]. The development of 24-chromosome CCS techniques, which currently include array comparative genomic hybridization (aCGH), quantitative real-time polymerase chain reaction (qPCR), single nucleotide polymorphism (SNP) array, and next-generation sequencing (NGS), has greatly improved the ability to detect aneuploid embryos . In contrast with older methods (i.e., fluorescence in situ hybridization), these techniques allow for the analysis of all 24 chromosomes . In a recent global survey of 386 IVF clinics where 342,000 cycles have been performed, aCGH was indicated as the preferred PGS method by 59 % of clinics, and NGS was indicated as the preferred method by 16 % .
Given that embryo selection based on CCS results in improved outcomes, patients may be more willing to choose eSET if CCS options are utilized to guide embryo selection. The previously mentioned global survey indicated that 43 % of surveyed IVF clinics currently use PGS in less than 10 % of cycles, with another 20 % of clinics using PGS in just 10–20 % of cycles, although it is suggested that a much higher proportion of patients are considered eligible for PGS . The low rate of PGS use may be due in part to the requirement of patients to cover the costs out of pocket , although these costs are more than offset by lower hospital costs (through 28 days post-delivery) with euploid CCS eSET versus untested DET, due to the elimination of multiple births . Additionally, as the technology evolves, the costs for testing continue to decrease.
Mandatory SET policies and regulations
Several countries have developed policies and regulations concerning the number of embryos transferred during IVF cycles. In some countries, such as Sweden, concerns over the high rate of multiple births led to government legislation limiting most patients to SET, with the transfer of two or three embryos permitted only in certain subpopulations . Several other countries have regulations on the number of transferred embryos that are tied to insurance and public funding programs that provide comprehensive or partial coverage for ART. However, patients are not forced to adhere to these regulations if they prefer to pay for ART themselves [34, 44, 45, 46]. In Finland, there is no formal legislation or requirement for SET, but IVF clinics together elected to move towards an SET policy for most patients . Regardless of the specific type of policy set forth, retrospective studies comparing IVF outcomes from before and after implementation of these initiatives consistently demonstrate a sizeable decrease in the rates of multiple pregnancies and multiple live births (e.g., from 25 to 5 %) while maintaining steady cumulative clinical pregnancy and live birth rates. A Belgian study further showed that the cumulative delivery rate for patients’ first two cycles was lower after introduction of a reimbursement/SET policy, but that it had no statistically significant impact on the 6-cycle cumulative delivery rate (65 % before vs 60 % after) . Initiation of the health program in Quebec was also associated with a decrease of 35.5 % in premature live births and 37 % in the requirement for NICU admission .
Currently there are no embryo transfer regulations in the United States, although ASRM and SART have put forth guidelines to assist centers in determining the appropriate number of embryos for transfer in their patients [2, 4]. In some instances, individual IVF centers have chosen to develop mandatory SET policies for all or certain subsets of their patients. If such a policy is put in place, the center should ensure that it is clearly described to all patients on their first visit and again throughout the IVF cycle (e.g., prior to oocyte retrieval and transfer) to help set and reinforce expectations.
One US clinic developed a mandatory SET policy for all women <38 years of age without a history of failed fresh cycle at their center, with ≥7 zygotes (2-pronuclei stage) for culture, and ≥1 good- or excellent-quality blastocyst available for transfer . A retrospective analysis of all women <38 years of age undergoing a fresh transfer at their center found that, in the 5 years following implementation of the mandatory SET policy, the overall live birth rate significantly improved from 51 to 56 % (P = 0.026) and the multiple birth rate decreased from 35 to 17.5 % (P < 0.0001). Among the women who underwent mandatory SET, the live birth rate was 66 % (cumulative rate of 84 %) and the multiple birth rate was 3.4 %. Of note, implementation of the mandatory SET policy did not affect overall clinical volume (2412 cycles in the prior 5 years; 2389 cycles in the subsequent 5 years) . A survey performed by the same US center found that 94 % of all patients supported the mandatory SET policy (including 69 % who strongly supported it) . Support for the policy did not vary by the number of embryos transferred, but was stronger among patients who felt they had the right amount of input into their IVF treatment and embryo transfer decision, expressed concerns about multiples, had extra embryos for cryopreservation, and/or had a shorter duration of infertility.
eSET is an effective method for reducing multiple pregnancies resulting from IVF and should be consistently encouraged for the majority of patients to improve the likelihood of delivering a healthy baby. There are many factors that impede the adoption of eSET. Overall success rates are lower per fresh cycle when compared with the transfer of two or more embryos [8, 11, 13]. Patients may not be willing to risk a failed cycle given the financial, emotional, and physical burden associated with IVF. Furthermore, many patients desire twins and do not fully consider the risks associated with twin pregnancies and births [28, 29]. However, providing patients with personalized counseling, access to educational information regarding the risks of DET and multiple births, financial incentives, tools to help predict the chances of IVF success, and technologies to select high-quality embryos for transfer should help to increase the use of eSET in clinical practice.
aCGH, array comparative genomic hybridization; ART, assisted reproductive technology; ASRM, American Society for Reproductive Medicine; CCS, comprehensive chromosomal screening; DET, double embryo transfer; eSET, elective single embryo transfer; ICSI, intracytoplasmic sperm injection; IVF, in vitro fertilization; NGS, next-generation sequencing; NICU, neonatal intensive care unit; PGS, preimplantation genetic screening; qPCR, quantitative real-time polymerase chain reaction; SART, Society for Assisted Reproductive Technology; SET, single embryo transfer; SNP, single nucleotide polymorphism
We thank Ben Billips of Ferring Pharmaceuticals, Inc., for his contributions in identifying literature relevant to the barriers and use of eSET. Medical writing and editorial assistance for the development of this manuscript were provided by Kimberly Brooks, PhD, of SciFluent, and were funded by Ferring Pharmaceuticals, Inc.
Medical writing and editorial assistance for the development of the manuscript were funded by Ferring Pharmaceuticals, Inc. The authors maintained full control of all aspects of manuscript development; Ferring was involved in manuscript development through the contributions of authors Patrick W. Heiser and Emily Pickney-Clark, who are full-time employees of Ferring.
Availability of data and materials
This review article is based on available literature information and does not contain original data.
All authors contributed substantially to the identification, evaluation, and interpretation of available literature and critically revised the manuscript. All authors read and provided final approval of the manuscript for publication.
Tamara Tobias has received speaking fees from EMD Serono and Ferring Pharmaceuticals, Inc. Fady I. Sharara has received speaking fees and research funding from Ferring Pharmaceuticals, Inc. Jason M. Franasiak has received speaking fees from Ferring Pharmaceuticals, Inc. Patrick W. Heiser and Emily Pinckney-Clark are full-time employees of Ferring Pharmaceuticals, Inc.
Consent for publication
Ethics approval and consent to participate
- 3.American Society for Reproductive Medicine. Multiple Pregnancy and Birth: Twins, Triplets, and High-order Multiples: A Guide for Patients. Birmingham: American Society for Reproductive Medicine; 2012.Google Scholar
- 5.Centers for Disease Control and Prevention (CDC), American Society for Reproductive Medicine, Society for Assisted Reproductive Technology. 2013 Assisted Reproductive Technology: National Summary Report. Atlanta: US Department of Health and Human Services; 2015.Google Scholar
- 8.Centers for Disease Control and Prevention (CDC), American Society for Reproductive Medicine, Society for Assisted Reproductive Technology. 2011 Assisted Reproductive Technology: National Summary Report. Atlanta: US Department of Health and Human Services; 2013.Google Scholar
- 16.Henman M, Catt JW, Wood T, Bowman MC, de Boer KA, Jansen RP. Elective transfer of single fresh blastocysts and later transfer of cryostored blastocysts reduces the twin pregnancy rate and can improve the in vitro fertilization live birth rate in younger women. Fertil Steril. 2005;84(6):1620–7.CrossRefPubMedGoogle Scholar
- 20.Martin JA, Hamilton BE, Osterman MJ, Curtin SC, Matthews TJ. Births: final data for 2013. Natl Vital Stat Rep. 2015;64(1):1–65.Google Scholar
- 26.McKay S. The Effects of Twins and Multiple Births on Families and Their Living Standards. Aldershot, United Kingdom: Twins & Multiple Births Association (TAMBA); 2010.Google Scholar
- 36.National Conference of State Legislatures. State laws related to insurance coverage for infertility treatment. http://www.ncsl.org/research/health/insurance-coverage-for-infertility-laws.aspx (2015). Accessed 25 Sept 2015.
- 37.Van Peperstraten A, Nelen W, Grol R, Zielhuis G, Adang E, Stalmeier P, et al. The effect of a multifaceted empowerment strategy on decision making about the number of embryos transferred in in vitro fertilisation: randomised controlled trial. BMJ. 2010;341:c2501.CrossRefPubMedPubMedCentralGoogle Scholar
- 50.Franasiak JM, Forman EJ, Hong KH, Werner MD, Upham KM, Treff NR, et al. The nature of aneuploidy with increasing age of the female partner: a review of 15,169 consecutive trophectoderm biopsies evaluated with comprehensive chromosomal screening. Fertil Steril. 2014;101(3):656–63.CrossRefPubMedGoogle Scholar
- 52.Wiessman A, Yaron Y, Fishel S. Preimplantation genetic screening (PGS): what is my opinion? [survey] IVF Worldwide. http://www.ivf-worldwide.com/survey/preimplantation-genetic-screening-pgs-what-is-my-opinion/results-preimplantation-genetic-screening-pgs-what-is-my-opinion.html. Accessed 21 Jan 2016.
- 58.Scott RT Jr, Upham KM, Forman EJ, Hong KH, Scott KL, Taylor D, et al. Blastocyst biopsy with comprehensive chromosome screening and fresh embryo transfer significantly increases in vitro fertilization implantation and delivery rates: a randomized controlled trial. Fertil Steril. 2013;100(3):697–703.CrossRefPubMedGoogle Scholar
- 60.Forman J, Hong KH, Werner MD, Singer SA, Benson MR, Scott RT. Reducing the burden of art care: Single blastocyst transfer after comprehensive chromosome screening (CCS) provides equivalent delivery rates, eliminates twins and lowers global health care costs. Fertil Steril. 2013;100:S43. Abstract O-142.CrossRefGoogle Scholar