The uterus is a dynamic muscular organ that undergoes rhythmic, wave-like contractions known as endometrial peristalsis or endometrial waves. This muscular activity, which is an essential component of natural fertility, presents a nuanced and sometimes contradictory role in the context of assisted reproductive treatments. Endometrial peristalsis refers to the frequency, amplitude, and pattern of myometrial contractions occurring in different reproductive phases. These peristalsis play vital roles in sperm transport, embryo migration, and implantation. Clinical and imaging studies suggest that abnormal patterns or excessive contractility at the time of embryo transfer may disrupt endometrial-embryo synchrony, impair implantation, and increase miscarriage risk. However, most evidence on endometrial peristalsis pertains to fresh embryo transfer cycles, natural conceptions, or pathological contexts, such as adenomyosis or fibroids, with limited insights regarding its effects on different endometrial preparation protocols in frozen embryo transfer (FET). Understanding the dynamics of endometrial peristalsis in this context is clinically important, as inappropriate contractile activity could physically expel the embryo or create a non-receptive environment, ultimately reducing the chances of live birth. Despite its theoretical significance, there is a paucity of robust, prospective data correlating endometrial peristalsis patterns measured around the time of FET with different endometrial preparation protocols with subsequent pregnancy outcomes.
The uterus is a dynamic muscular organ that undergoes rhythmic, wave-like contractions known as endometrial peristalsis or endometrial waves. This muscular activity, which is an essential component of natural fertility, presents a nuanced and sometimes contradictory role in the context of assisted reproductive treatments. Endometrial peristalsis refers to the frequency, amplitude, and pattern of myometrial contractions occurring in different reproductive phases. These peristalsis play vital roles in sperm transport, embryo migration, and implantation. Clinical and imaging studies suggest that abnormal patterns or excessive contractility at the time of embryo transfer may disrupt endometrial-embryo synchrony, impair implantation, and increase miscarriage risk. However, most evidence on uterine contractility pertains to fresh embryo transfer cycles, natural conceptions, or pathological contexts, such as adenomyosis or fibroids, with limited insights regarding its effects on different FET protocols. Several studies have demonstrated an inverse relationship between endometrial peristalsis and IVF success. Masroor et al. found that patients with lower endometrial peristaltic wave frequency (\<4 waves/min) before embryo transfer had significantly higher chances of clinical pregnancy and live birth compared to those with more frequent peristalsis. Similarly, Chung et al. reported that increased endometrial peristalsis frequency immediately after embryo transfer was linked to reduced live birth rates, suggesting that excessive motility may physically expel the embryo or disturb its implantation. In the prospective cohort study of 292 infertile women, Zhu et al. found that lower uterine peristaltic wave frequency (\<3.0 waves/min) before embryo transfer is associated with higher clinical pregnancy rates in both fresh and frozen-thawed embryo transfer cycles. In a study by Vuong et al. on patients with repeated implantation failure, they found that administering atosiban to patients with uterine peristalsis exceeding 16 waves per 4 minutes could improve pregnancy rates. Different protocols for endometrial preparation in FET cycles, including natural cycles and hormone replacement therapy (HRT) cycles, create distinct hormonal environments that influence endometrial peristalsis and may impact pregnancy outcomes. Understanding how endometrial peristalsis varies by protocol and its effect on pregnancy outcomes is essential for optimizing IVF strategies. Therefore, this study aims to evaluate endometrial peristalsis patterns in different FET protocols and their association with pregnancy outcomes.
Study Type
OBSERVATIONAL
Enrollment
356
Time point for measurement Endometrial peristalsis will be assessed at three specific time points: * On the second day to the fourth day of the menstrual cycle in the FET cycles. * The day of progesterone initiation or LH surge/hCG trigger, (before progesterone exposure) * On the day of embryo transfer, immediately prior to the procedure Hormone measurements Serum levels of estradiol (E2) and progesterone (P4) will be assessed three times, on the same days as the endometrial peristalsis measurements, using electrochemiluminescence immunoassays. (Elecsys® Estradiol III and Elecsys® Progesterone III, Cobas® e 411, Roche Diagnostics, Germany): * On the second day to the fourth day of the menstrual cycle in the FET cycles * The day of progesterone initiation or LH surge/hCG trigger * On the transfer day prior to the procedure.
My Duc Phu Nhuan Hospital
Ho Chi Minh City, Vietnam
IVFMD Phu Nhuan - My Duc Phu Nhuan Hospital
Ho Chi Minh City, Vietnam
The frequency of endometrial peristalsis at different time points, and different FET protocol.
Frequency is defined as the number of peristaltic waves per minute.
Time frame: • On the second day to the fourth day of the menstrual cycle in the FET cycles. • The day of progesterone initiation or LH surge/hCG trigger, (before progesterone exposure) • On the day of embryo transfer, immediately prior to the procedure
Direction of peristalsis.
Direction of peristalsis is categorized as cervix-to-fundus, fundus-to-cervix, indeterminate, or absent (no contractions observed)
Time frame: • On the second day to the fourth day of the menstrual cycle in the FET cycles. • The day of progesterone initiation or LH surge/hCG trigger, (before progesterone exposure) • On the day of embryo transfer, immediately prior to the procedure
The association between endometrial peristalsis at different time points and pregnancy rates
The association between endometrial peristalsis at different time points and pregnancy rates
Time frame: Up to delivery
The correlation between endometrial peristalsis at different time points
The correlation between endometrial peristalsis at different time points.
Time frame: • On the second day to the fourth day of the menstrual cycle in the FET cycles. • The day of progesterone initiation or LH surge/hCG trigger, (before progesterone exposure) • On the day of embryo transfer, immediately prior to the procedure
Live birth rates after the one embryo transfer.
Live birth was defined as the complete expulsion or extraction from a woman of a product of fertilization, after 22 completed weeks of gestational age; which, after such separation, breathes or shows any other evidence of life, such as heartbeat, umbilical cord pulsation, or definite movement of voluntary muscles, irrespective of whether the umbilical cord has been cut or the placenta is attached. A birth weight of 500 grams or more can be used if gestational age is unknown. Live births refer to the individual newborn; for example, a twin delivery represents two live births.
Time frame: At delivery
Positive pregnancy test
Defined as serum human chorionic gonadotropin level ≥ 25 mIU/mL.
Time frame: 10-14 days after embryo transfer
Clinical pregnancy
A pregnancy diagnosed by ultrasonographic visualization of one or more gestational sacs or definitive clinical signs of pregnancy. In addition to intra-uterine pregnancy, it includes a clinically documented ectopic pregnancy.
Time frame: 4-6 weeks after embryo transfer
Ongoing pregnancy
A pregnancy diagnosed by ultrasonographic or clinical documentation of at least one fetus with a discernible heartbeat at 12 weeks gestation or beyond.
Time frame: 12 weeks of gestation or beyond
Implantation rate
The number of gestational sacs observed divided by the number of embryos transferred (usually expressed as a percentage).
Time frame: At 4-6 weeks after embryo transfer
Ectopic pregnancy
A pregnancy outside the uterine cavity, diagnosed by ultrasound, surgical visualization, or histopathology.
Time frame: Up to 12 weeks after embryo transfer
Miscarriage
Spontaneous loss of a clinical pregnancy before 22 completed weeks of gestational age, in which the embryo(s) or fetus(es) is/are nonviable and is/are not spontaneously absorbed or expelled from the uterus.
Time frame: Up to 22 weeks of gestation
Multiple gestations
A pregnancy with more than one embryo or fetus.
Time frame: At delivery
Multiple birth
The complete expulsion or extraction from a woman of more than one fetus, after 22 completed weeks of gestational age, irrespective of whether it is a live birth or stillbirth. Births refer to the individual newborn; for example, a twin delivery represents two births.
Time frame: At delivery
Mode of delivery
Vaginal delivery, C-section (elective, suspected fetal distress, non-progressive labor).
Time frame: At delivery
Birth weight
Weight of the newborn measured right after delivery.
Time frame: At delivery
Gestational age at birth
Calculated by gestational age of all live births.
Time frame: At delivery
Preterm birth
Defined as delivery at \<28, \<32, \<37 completed weeks. A birth that takes place after 22 weeks and before 37 completed weeks of gestational age.
Time frame: At delivery
Gestational diabetes mellitus
A 75-g OGTT, with plasma glucose measurement when the patient is fasting and at 1 and 2 h, at 24-28 weeks of gestation in women not previously diagnosed with diabetes.
Time frame: At 24-28 weeks of gestation
Hypertensive disorders of pregnancy
Hypertensive disorders of pregnancy: Pregnancy-induced hypertension, pre-eclampsia (early and late), eclampsia, and HELLP syndrome are defined in the American College of Obstetricians and Gynecologists (ACOG) 2020 g
Time frame: Up to delivery
Stillbirth
The death of a fetus before the complete expulsion or extraction from its mother after 28 completed weeks of gestational age. The death is determined by the fact that, after such separation, the fetus does not breathe or show any other evidence of life, such as heartbeat, umbilical cord pulsation, or definite movement of voluntary muscles. Note: It includes deaths occurring during labor.
Time frame: Up to delivery
Very low birth weight
Birth weight less than 1.500 g.
Time frame: Up to delivery
Low birth weight
Birth weight less than 2.500 g.
Time frame: Up to delivery
High birth weight
Implies growth beyond an absolute birth weight, historically 4.000 g or 4.500 g, regardless of the gestational age.
Time frame: Up to delivery
Very high birth weight
Birth weight over 4.500 g for women with diabetes, and a threshold of 5000 g for women without diabetes.
Time frame: Up to delivery
Major congenital abnormalities
Structural, functional, and genetic anomalies that occur during pregnancy, and are identified antenatally, at birth, or later in life, and require surgical repair of a defect, or are visually evident, or life-threatening, or cause death. Any congenital anomaly will be included as follows definition of congenital abnormalities in Surveillance of Congenital Anomalies by Division of Birth Defects and Developmental Disabilities, NCBDDD, Centers for Disease Control and Prevention (2020).
Time frame: Up to delivery
NICU admission
The admission of the newborn to the NICU.
Time frame: Up to delivery
Neonatal mortality
Death of a live-born baby within 28 days of birth. This can be divided into early neonatal mortality, if death occurs in the first seven days after birth, and late neonatal if death occurs between 8 and 28 days after delivery.
Time frame: Up to delivery
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