The rate of multiple pregnancies in IVF/ICSI ranges from 20 to 30%. The incidence of preterm birth in multiple pregnancies is as high as 60% and is even higher in pregnancies conceived after IVF & ICSI. The effect of progesterone on prevention of preterm birth in twins is controversial. Our group has proven a positive effect in reduction of preterm birth, by starting progesterone from the mid-trimester, in exclusively IVF/ICSI singleton pregnancies but not twins. The purpose of our current study was to explore the effect of earlier administration of natural progesterone, in IVF/ICSI twin pregnancies starting at 11–14 weeks for prevention of preterm birth.
Methods
This is a double-blind, placebo controlled, single center, randomized clinical trial. Women with dichorionic twin gestations, having an IVF/ICSI trial were randomized to receive natural rectal progesterone (800 mg daily) vs placebo, starting early from 11 to 14 weeks. They also received oral and vaginal antimicrobial agents as part of our routine treatment for vaginitis and urinary tract infection. They were randomized regardless of cervical length and had no previous history of preterm birth or known Mullerian anomalies. The primary outcome was spontaneous preterm birth rate before 37 weeks. The secondary outcome was; spontaneous preterm birth before 34, 32, 28 weeks and neonatal outcome.
Results
A total of 203 women were randomized to both groups, final analysis included 199 women as 4 were lost to follow up. The base line characteristics as well as gestational age at delivery were not significantly different between the study and the placebo group (34.7 ± 3.6 vs 34.5 ± 4.5, P = 0.626). Progesterone administration was not associated with a significant decrease in the spontaneous preterm birth rates before 37 weeks (73.5% vs 68%, P = 0.551), before 34 (20.6% vs 21.6%, P = 0.649), before 32 (8.8% vs 12.4%, P = 0.46) & before 28 (4.9% vs 3.1%, P = 0.555) weeks.
Conclusions
Rectal natural progesterone starting from the first trimester in IVF/ICSI twin pregnancies did not reduce spontaneous preterm birth.
Trial registration
The trial was registered on 31 January 2014 at www.ISRCTN.com, number 69810120.
Hinweise
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Abkürzungen
IM
Intramuscular
USA
United States of America
IVF/ICSI
In vitro fertilization/intracytoplasmic sperm injection
SET
Single embryo transfer
ART
Assisted Reproductive Techniques
Background
Multiple pregnancy remains one of the major complications of assisted reproductive techniques. A large percentage of ART-conceived babies are twin pregnancies, and multiple pregnancies are associated with a high rate of preterm birth, perinatal morbidity and mortality [1, 2] and hence it is considered to be the most serious complication of multiple pregnancy. Our published data showed a 64.8% preterm birth rate (before 37 weeks) in twin pregnancies [3].
The incidence of spontaneous preterm birth is higher for ART-conceived infants when compared to spontaneous pregnancies (31.2% vs 9.7%, before 37 weeks and in spontaneous very early preterm birth before 32 weeks; 5.2 vs 1.6, respectively) and in a more recent study 10.1% vs 5.5% before 37 weeks and 3.6% vs 2.2% before 34 weeks [4‐6].
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Prevention of spontaneous preterm birth in ART pregnancies is prioritized in an attempt to decrease prematurity complications. It was previously reported in several large randomized studies and meta-analysis that administration of progesterone resulted in a significant reduction in the rate of spontaneous preterm births in singleton pregnancies, when administered starting at mid trimester to all women, including those with a previous history of preterm birth as well as women with a short cervix [7‐12]. Similarly, this positive effect of natural vaginal progesterone administration starting from mid-trimester was shown by our group in IVF singleton pregnancies regardless of their individual cervical length [3]. However, this same study did not reveal a significant reduction in preterm birth rate in IVF twins.
Controversy surrounds the use of progesterone in the prevention of preterm birth in twin gestation. Two large randomized controlled studies [13, 14] found no value in its use in twin pregnancy. A recent meta-analysis showed that in asymptomatic women with a mid-trimester sonographic short cervix, progesterone significantly reduced the risk of preterm birth before 33 weeks’ gestation by 31% [15].
Our present study aimed to explore the effect of earlier administration of natural rectal progesterone in IVF/ICSI twin pregnancies, starting at 11–14 weeks up to 37 weeks’ gestation, on spontaneous preterm birth rates.
Methods
All pregnant women with dichorionic twins, who had not undergone cerclage, following an IVF/ICSI trial performed at the Egyptian IVF Center, Maadi, Cairo, Egypt, from January 2014 to July 2017 were counseled to participate in this study. They performed a first trimester scan and randomized women fulfilled the following Inclusion Criteria:
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1) Non-smokers, 2) Normal fetal anatomy, 3) No uterine anomalies, 4) Dichorionic twins only, 5) No previous history of preterm birth, 6) Healthy pregnant women not suffering from medical disorders e.g. diabetes and hypertension, 7) No known allergy to progesterone.
Participants received 100 mg IM Progesterone injections (IBSA Egypt) daily for luteal phase support starting on the day of oocyte retrieval until the first viability ultrasound was performed at 7 weeks. Once fetal heart beats were confirmed they were advised to stop intake of progesterone. This was based on a previous study by our group which showed no significant difference in miscarriage rates in patients who stopped progesterone early as compared to those who continued to 10 weeks gestations [16].
To ensure eligibility of participants, all women enrolled in the study had a first trimester scan for risk assessment of Down syndrome in addition to an anomaly scan at 11–14 weeks of pregnancy. Dating was performed by calculation from the date of embryo transfer.
After the supervising obstetrician counseled the patient about the protocol and its aim and design, women who agreed to join the study signed a consent form. They were then randomized and began the suppositories immediately.
Randomization
Randomization was done into either the Progesterone Group or the Placebo Group. This was performed by opening a numbered, sealed, opaque envelope, with an indication of either group (Progesterone and Placebo) at a ratio of 1: 1. The randomization was hand generated using the Microsoft Excel software which was executed by a third party (nurse) not involved in the trial. Progesterone and placebo suppositories were provided by the manufacturer (IBSA Egypt) in indistinguishable packaging, labeled with the patient’s code and the study name. The manufacturer was not involved in the writing of the protocol, study design or writing of the paper nor its submission. Suppositories were provided to the patient by the supervising nurse in sealed packages given once a month to cover the period before her next antenatal visit. On the next visit she returned the empty packages for confirmation of compliance.
Intervention
The study group received natural progesterone suppositories of 400 mg, while the Placebo was composed of 126 mg hard fat, 36 mg Gelucire pellets, 0.2 mg Sorbic acid, 300 mg cocoa butter, and 195 mg purified water (Supplied by IBSA Egypt). They appeared identical. All suppositories were administered rectally twice daily starting from the time of randomization at 11–14 weeks until 37 weeks or delivery. Rectal administration was chosen as the social and cultural background of participating women showed that they have a great fear of repeated vaginal administration. In addition, we chose this route to minimize possible risks of vaginal infections from repeated prolonged periods of twice daily administration of vaginal suppositories.
Participants, supervising doctors, and nurses were unaware of the randomization and group allocation of the women. Only an independent secretary had the key code but had no access to the data nor to the participants. The blinding code was not broken until all data was collected from all participants, which took place a few weeks following delivery of the last patient. A long term follow up of the infants was not performed in this study.
Participants in both study and control groups received our routine antimicrobial agents given to twin pregnancy, for prophylactic and curative treatment of vaginitis and urinary tract infections. It is known that preterm premature rupture of membranes (PPROM) is the cause of approximately one third of preterm deliveries, and this rate is higher in our group of lower socioeconomic status patients [17].
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All Patients received Clindamycin vaginal cream (2%) for 7 days each month as well as oral Amoxicillin as a single dose of 3 g once every month [18‐20].
All women were followed up according to the routine antenatal care protocol of our institution. Every visit we confirmed adequate intake of the suppositories and took note of any reported side effects or adverse outcomes. Phone calls were also made to the patients to confirm compliance and monitor their condition. Collection of data was done following delivery by direct contact with the patient’s obstetrician and neonatologist. This included gestational age at delivery, neonatal condition, reporting of neonatal intensive care unit (NICU) admission, birth weight and congenital anomalies undetected during pregnancy.
Study outcomes
Primary outcome measures: Spontaneous preterm birth before 37 weeks’ gestation.
Secondary outcome measures: Spontaneous preterm births before 34, 32 and 28 weeks.
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Neonatal outcome; including: NICU admission, neonatal death.
Relevant definitions
Early fetal loss: fetal death between 11 and 22 weeks of gestational age [21]
Late fetal loss: fetal death between 22 and 28 weeks of gestational age [21]
Stillbirth: Fetal death after 28 weeks gestational age [21]
NICU admission; neonatal admission to Intensive care for any reason other than neonatal jaundice
Neonatal death; death up to 30 days after delivery
Sample size estimation
Sample size calculation was based on a 20% reduction of the previously reported 65% preterm birth rate in twin pregnancies before 37 weeks of gestation [7].. Calculation was done based on comparing 2 proportions from independent samples using Chi-square test wherein the α-error level was fixed at 0.05 and the power was set at 80%. Accordingly, the sample size was calculated to be 96 cases in each arm. Sample size calculation was done using PS Power and Sample Size Calculations software, version 3.0.11 for MS Windows (William D. Dupont and Walton D. Vanderbilt, USA).
Ethics approval and consent to participate
All women read and signed an informed consent after full explanation of the study design and procedure. The study protocol was designed according to the CONSORT statement. Ethical approval was obtained on 15/11/2013 by our local Ethics Committee ‘Ethics and Research Committee of the Egyptian IVF Center’ headed by Professor Ibrahim Fahmy, (imfahmy@gmail.com) and received an IRB number of 3/2013. The trial was registered on 31 January 2014 at www.ISRCTN.com, number 69810120. There was no specific funding, the suppositories trial drug and placebo were provided by IBSA Egypt free of charge.
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Statistical methods
Data was statistically described in terms of mean ± standard deviation (± SD), or frequencies (number of cases) and percentages when appropriate. Comparison of numerical variables was done using Student t test for independent samples. The Chi-square test was used to compare categorical data between groups. A two-tailed P value < 0.05 was considered statistically significant. All statistical calculations were done using computer program SPSS (Statistical Package for the Social Science; SPSS Inc., Chicago, IL, USA) release 20 for Microsoft Windows (2006).
Results
We counseled 250 women to join the study: 215 were enrolled, and finally 203 signed the consent and were randomized (Fig. 1). The analysis was performed according to the intent-to-treat principle. Four women were lost to follow up, one in the study group and three in the placebo group. The study was completed, and analysis was done for 199 women. There was excellent compliance, all of the women adhering to twice daily suppository intake throughout the study period, except two women; one who stopped on her own at 24 weeks and a second who suffered bleeding esophageal varices and was for her safety recommended to stop any other medications. There were no reported side effects (such as thrombotic episodes) from the progesterone intake. All patients were followed up monthly by our obstetricians.
×
There was no significant difference between both groups with regards to age, BMI and gestational age at randomization, as shown in Table 1. All participating women were Egyptian. There was no significant difference in gestational age at delivery, term births, preterm births, or early fetal loss. Furthermore, there was no significant difference in preterm birth rates before 34, 32 and 28 weeks (Table 2).
Table 1
Baseline characteristics & gestational age at randomization
Progesterone group
Control group
P value
(n)
102
97
–
Maternal age (years)
29.5 ± 4.8
30 ± 4.6
0.498
BMI (kg/m2)
30.5 ± 5.8
30.1 ± 4.8
0.623
Gestational age at randomization (weeks)
12.7 ± 0.9
12.5 ± 1
0.341
Data is expressed either as a mean ± SD or n (%)
Table 2
Comparison of gestational age at delivery between both groups
Progesterone group N = 102
Placebo group N = 97
Early fetal loss (n)
2 (2%)
4 (4.1%)
0.372
Gestational age at delivery (weeks)
34.7 ± 3.6
34.5 ± 4.5
0.626
Term births (n)
> 37 weeks
25 (24.5%)
27 (27.8%)
0.594
Preterm births (n)
< 37 weeks
75 (73.5%)
66 (68%)
0.551
< 34 weeks
21 (20.6%)
21 (21.6%)
0.649
< 32 weeks
9 (8.8%)
12 (12.4%)
0.46
< 30 weeks
5 (4.9%)
7 (7.2%)
0.516
< 28 weeks
5 (4.9%)
3 (3.1%)
0.555
Data is expressed either as a mean ± SD or n (%)
Preterm births are all spontaneous births, except for two patients in the progesterone group who had iatrogenic termination < 37 weeks because of severe pre-eclampsia with no neonatal morbidity or mortality
Only two women were delivered electively preterm due to preeclampsia, the remaining women went into spontaneous preterm contractions or preterm rupture of membranes, otherwise were delivered electively by Caesarian section after 37 weeks.
Table 3 demonstrates the NICU admission, neonatal death and intrauterine fetal death, and neonatal survival rate in both groups. There was no significant difference between the study and control group in these parameters.
Table 3
Neonatal outcome in both groups
Progesterone group N = 102
Placebo group N = 97
NICU admission (n)
Single
9 (8.8%)
6 (6.2%)
0.726
Both
13 (12.7%)
11 (11.3%)
Total
22 (21.6%)
17 (17.5%)
0.717
Neonatal death (n)
Single
7 (6.9%)
3 (3.1%)
0.404
Both
6 (5.9%)
8 (8.2%)
Total
13 (12.7%)
11 (11.3%)
0.761
Still birth (n)
Single
2 (2%)
1 (1%)
0.513
Both
–
1 (1%)
Neonatal survival rate (n)
One
10 (9.8%)
4 (4.1%)
0.196
Both
83 (81.4%)
80 (82.5%)
None
8 (7.8%)
13 (13.4%)
Data is expressed either as a mean ± SD or n (%)
Discussion
The wide use of assisted reproductive techniques such as IVF and ICSI as well as ovulation induction drugs for non-IVF cases has increased the rate of twin pregnancy worldwide [22, 23].
The overall reported incidence of twins following Assisted Reproductive Techniques (ART) in the latest ICMART (The International Committee Monitoring Assisted Reproductive Technologies) report was 20.9% [22]. The most recent data reported that approximately 33.9% of ART-conceived infants in the USA were twins, of which 62.4% were born preterm [4]. On the other hand, the preterm birth rate of twins following ART in Europe was measured at 48.8% [24].
The outcome of preterm neonates depends on the gestational age at birth and available resources of the Neonatology Unit caring for those infants [25].
It is of course noteworthy that care of premature neonates adds a huge financial burden on the health care provider and on the parents, especially when medical care is privately funded [26]. The objective of this study was to attempt a reduction in preterm birth rate in IVF/ICSI twin pregnancies. Specifically, we sought a significant reduction in twin preterm birth rates and the study was powered to detect a 20% reduction. While lower percentages of reduction were considered for a powered calculation, the 20% figure gave the most reasonable sample size and still maintained optimal significance.
This randomized placebo controlled double blind study did not show any benefit of giving natural rectal progesterone starting early on in pregnancy for prevention of preterm birth before 37 weeks in IVF/ ICSI twins. It is worth noting that the mean gestational age at delivery in both groups was +/− 34 weeks. This is earlier than that reported in most literature, which could be attributed to the different ethnicity of our studied group [27, 28]. In addition, pregnant women participating were all exclusively IVF pregnancies that are generally known to have a higher incidence of preterm birth [4]. Furthermore, a recent study by Saccone and colleagues [29] concluded that gestational age at delivery, for IVF-conceived twins, was earlier by about 1 week on average, compared with spontaneously-conceived twins, regardless of the cervical length measured in the second trimester.
The results of this study align with several previous publications [7, 13, 14]. However, it should be noted that all previous studies started progesterone administration at mid-trimester, while our study is unique in that it exclusively included IVF/ICSI twins starting from the first trimester.
Furthermore, this study used the rectal route instead of the vaginal route while all previously published studies used the vaginal route [7‐10, 13, 14]. The rectal route approach has previously been studied and found to be as effective as the vaginal route [30‐34], with reports of high serum progesterone levels detected at high doses [34]. We chose this route because our previous experience has shown more patient acceptability, comfort, and compliance with the rectal route [30]. It may also minimize any possibility of infection through the twice daily application of vaginal suppositories.
We have previously proven that progesterone is effective in reducing preterm birth [3] rates in singleton IVF/ICSI pregnancies starting from the mid-trimester, but did not find the same significance in twins, thus we postulated that starting earlier on in pregnancy might result in a significant reduction. We also chose the twins resulting from IVF/ICSI pregnancies because they are known to have a higher incidence of preterm birth [35] and are more closely monitored and followed up on. Moreover, we only included dichorionic twins as it is known that monochorionic twins are associated with higher miscarriage rates and other complications [36]. Other studies in the literature included both dichorionic and monochorionic twins [13].
Numerous trials have been published [7, 13, 14, 37‐47] on the use of progesterone for prevention of preterm birth in twin pregnancies, but none of them were done exclusively on IVF/ICSI twins. Moreover, the results of these trials are controversial, as two big randomized placebo controlled trials found no significant reduction in preterm birth in twins before 34 weeks, after administration of progesterone regardless of cervical length [13, 14]. A more recent randomized controlled trial on twin pregnancies with short cervix (20–24 mm) showed that the administration of progesterone resulted in a significant reduction of preterm birth [40].
A recent meta-analysis showed that administration of vaginal progesterone to asymptomatic women with twin gestations and a sonographic short cervix in the mid trimester reduces the risk of preterm birth occurring before 30 to 35 weeks’ gestation [15]. Furthermore, the evidence in the above-mentioned study is of moderate quality with a moderate risk bias as a single study included in the meta-analysis produced most of the pooled effect [40].
In the latest report by the ICMART [22] including data from the years 2008–2010, single embryo transfer (SET) increased from 25.7 to 30% with a resulting drop in multiple twin births to 19.6% and triplets to 1.0%. Individual European countries with strict single embryo transfer policies such as Sweden have 76.9% of their transfers SET and a resulting 5.4% twin births [24]. Likewise, 84.9% of transfers in 2013 in Australia were SETs, resulting in a 5.5% twin delivery rate with persistently high 67.3% preterm birth rate [48]. This clearly shows that SET policy is the most successful preventive measure to reduce the problem of preterm birth in twins.
Conclusions
Rectal progesterone starting from the first trimester is ineffective in reducing spontaneous preterm birth in IVF/ICSI twin pregnancies. As the risk of preterm birth is known to be high in twin pregnancies, the best approach in the management would be preventive. This can be achieved to a great extent by routine single embryo transfer after IVF/ICSI.
Acknowledgments
We thank our supervising nurse Mrs. Bayoumy and our study secretary Mrs. Radwan for their help in follow up of participants, data collection and data entry.
Ethics approval and consent to participate
The study protocol was designed according to the CONSORT statement.
Ethics approval was obtained on 15/11/2013 by our local ethics committee, the Ethics and Research Committee of the Egyptian IVF Center, headed by Professor Ibrahim Fahmy, (imfahmy@gmail.com) and received an IRB number of 3/2013.
The trial was registered on 31 January 2014 at www.ISRCTN.com, number 69810120.
All patients signed an informed consent with all study details.
Consent for publication
Not applicable.
Competing interests
The authors declare that they have no competing interests.
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