DuoStim in Cases of PGT: Comparison of Embryo Quantity and Embryonic Quality Using MitoScore

Not Applicable

Completed

• Conditions: Infertility, Female
• Interventions: Drug: human menopausal gonadotropin; Drug: GnRH antagonist; Drug: GnRH analog; Procedure: Trophectoderm biopsy; Diagnostic Test: MitoScore; Procedure: Intracytoplasmic sperm injection; Procedure: Ovarian puncture; Diagnostic Test: Preimplantation genetic test; Procedure: Embryo transfer; Diagnostic Test: Pregnancy test; Procedure: Embryo freezing; Procedure: Embryo thawing

• Registration Number: NCT03291821
• Lead Sponsor: IVI Madrid

Brief Summary

Since preimplantation genetic testing (PGT) is being more frequently requested from patients as women pursue infertility treatments at an advanced age with a poorer prognosis, sometimes physicians are compelled to perform several stimulation cycles to obtain more eggs and, consequently, a greater number of biopsied embryos. Hence, the idea of carrying out this study arises as an attempt to optimize each menstrual cycle to the maximum.

It is believed that the double stimulation (DuoStim) protocol could be an alternative for this group of patients, allowing to obtain a larger number of oocytes in a shorter period, thus, increasing the number of biopsied embryos and possibly decreasing the interval to achieve a successful pregnancy.

The investigators aim to evaluate the potential usefulness of the DuoStim protocol for patients desiring to obtain oocytes as soon as possible. Using PGT, the investigators will compare the rate of euploid embryos per cycle in patients undergoing DuoStim protocol versus patients undergoing two conventional controlled ovarian hyperstimulation in consecutive cycles. Patients will include women with advanced age and poor response.

This is a unicentric, prospective, randomized, non-blind, parallel-group controlled phase IV clinical study. The investigators hypothesize that the rate of euploid embryos per cycle is similar in the DuoStim group compared to the group undergoing two conventional controlled ovarian hyperstimulation in consecutive cycles.

Furthermore the investigators will evaluate if there are differences regarding the number of total oocytes obtained, the number of mature oocytes, the number of biopsied blastocysts and the MitoScore index of the available euploid embryos.

Detailed Description

Classically, the follicular development was thought to occur only during the follicular phase of the menstrual cycle. However, new data demonstrated several waves of cyclic development of the antral follicles within the same menstrual cycle. Some authors insist that follicles formed during the luteal phase may have a similar ovulation potential of those formed in the follicular phase, thus offering new possibilities for ovarian stimulation.

Due to the use of vitrification technique and the appearance of the gonadotropins, physicians have been allowed to innovate the protocols applied to controlled ovarian hyperstimulation and have been able to obtain more oocytes in a shorter period for patients requiring rapid intervention, such as oncologic patients. Because of the accumulated experience with these new approaches, some investigators have recently proposed a double stimulation (DuoStim) protocol. Evidence of the competence of oocytes obtained from the luteal phase have been recently defined and published. Also, it has not been related with an increased risk for congenital anomalies.

The DuoStim is a protocol consisting of two stimulations within the same menstrual cycle, one in the follicular phase starting in day 2 of the cycle and the other in the luteal phase starting 5 days after the first ovarian puncture. Trigger is always performed with GnRH agonist.

Additionally, patients demanding infertility treatments are increasingly older and the use of preimplantation genetic testing (PGT) allows for a finer embryo selection along with better reproductive outcomes. Currently, most of PGTs are carried out at the blastocysts stage, which improve the prognosis but, on the contrary, also oblige to frozen those embryos and perform a deferred transfer, lengthening the procedure.

Another innovative tool for a more accurate embryo selection which has been recently described is the MitoScore. The MitoScore is a mitochondrial biomarker index developed by Igenomix aiming to indicate the energetic status of the embryo. It intends to select those embryos with best implantation potential and, therefore, more likely to result in an ongoing pregnancy after an IVF treatment. It is calculated dividing the number of mitochondrial DNA copies by the amount of nuclear DNA. Although still controversial, it has been proved by some authors to increase success rates of implantation and ongoing pregnancies in IVF cycles and to diminish the number of multiple gestations.

Since PGT is being more frequently requested from patients as women pursue infertility treatments at an advanced age with a poorer prognosis, sometimes physicians are compelled to perform several stimulation cycles to obtain more eggs and, consequently, a greater number of biopsied embryos. Hence, the idea of carrying out this study arises as an attempt to optimize each menstrual cycle to the maximum.

It is believed that the DuoStim protocol could be an alternative for this group of patients, allowing to obtain a larger number of oocytes in a shorter period, thus, increasing the number of biopsied embryos and possibly decreasing the interval to achieve a successful pregnancy.

The investigators aim to evaluate the potential usefulness of the DuoStim protocol for patients desiring to obtain oocytes as soon as possible. Also, using PGT, the investigators will compare the rate of euploid embryos per cycle in patients undergoing DuoStim protocol versus patients undergoing two conventional controlled ovarian hyperstimulation in consecutive cycles. Patients will include women with advanced age and poor response.

This is a unicentric, prospective, randomized, non-blind, parallel-group controlled phase IV clinical study. The investigators hypothesize that the rate of euploid embryos per cycle is similar in the DuoStim group compared to the group undergoing two conventional controlled ovarian hyperstimulation in consecutive cycles.

Furthermore the investigators will evaluate if there are differences regarding the number of total oocytes obtained, the number of mature oocytes, the number of biopsied blastocysts and the MitoScore index of the available euploid embryos. These variables will be assessed and compared depending on whether the oocytes were obtained in the follicular phase or the luteal phase for the DuoStim group. Resulting data will be compared with those obtained from the conventional stimulation group. The period elapsed from the beginning of the ovarian stimulation until the embryo transfer will also be addressed.

Patients will call the clinic at the Cycle Programing Department to arrange a treatment. After a short period taking contraceptive pills, patients will be referred to a medical appointment. At the time of the first consultation the attending physician will randomize patients desiring to participate and meeting inclusion criteria, using a random allocation software commissioned by the department of informatics. There will be no blinding since this study is an open trial.

Participants have the right to withdraw from the study at any time and for any reason without any inconvenience for their future medical care. Withdrawal means that the subject does not want to receive any further treatment nor does the patient wish to continue participating in the study. Reasons for withdrawal from the study: patient desire, lack of collaboration, toxicity or adverse event affecting patient's safety, decision of the principal investigator whenever the interruption is in favor of the patient's interests, death, and violation or breach of the study protocol.

The trial will be terminated when all participants have completed an adequate follow-up period. It might also be interrupted before completion date due to security reasons, failure to meet expected recruitment deadlines or even if there are any risks concerning patient's safety or health. All participants discontinued from the trial will remain in the follow-up phase, except for those who withdraw their informed consent or die.

Entries made in the Clinical Research Data Capture Profile (CRD) must be in accordance with those contained in the source documents. Data will be exported from the institutional repository software platform which withholds patient´s medical records. Integrity and accuracy will be checked by at least one investigator assuring that both extracted information and all the required regulatory documents are appropriate. Study files and all source documents will be stored for the time needed.

Considering an euploid embryo rate per cycle of 20% for conventional stimulation and a difference between means of 10% (Conventional X DuoStim group), a sample size of 136 patients (68 per arm) was estimated to obtain a power of 80% with an alfa error of 5%. A loss rate of 5% was also considered to calculate the sample size.

Categorical variables will be assessed by the number of subjects as well as absolute and relative frequencies. Continuous variables will be assessed by the means, medians, standard deviations, 25th and 75th percentiles, minimum and maximum. For both categorical and continuous variables, a confidence interval of 95% will be considered. The exploratory analysis of data will allow to determine quality of the data and to detect any abnormality.

The means and proportions of the descriptive variables will be compared to verify if the randomization was correctly performed. Whenever the variables are normally distributed, it will be applied a parametric test such as chi-square test for categorical variables and a T-student test or ANOVA for continuous variables. If the distribution is not normal a non-parametric test such as a Mann-Whitney U or Wilcoxon test will be applied according to the characteristics of the variable.

If the investigators find statically significant differences for descriptive variables between the two groups, those variables will be included in a regression model to control their interference.

Additionally, linear or logistic regression models will be defined, depending on whether the outcome variable is quantitative or categorical, respectively. It will allow to adjust possible confounding factors that may potentially influence the results.

Study Timeline

• Study First Submitted: 2017-09-18
• Study First Submitted QC: 2017-09-21
• Study First Posted: 2017-09-25
• Study Start: 2017-12-01
• Primary Completion: 2019-12-01
• Study Completion: 2020-06-01
• Status Verified: 2020-12
• Last Update Submitted: 2020-12-28
• Last Update Posted: 2020-12-29

Recruitment & Eligibility

• Status: COMPLETED
• Sex: Female
• Target Recruitment: 136

Inclusion Criteria

• Signed informed consent;
• 35-42 years of age;
• Patients from the IVI Madrid undergoing controlled ovarian hyperstimulation cycle including PGT analysis for infertility treatment;
• BMI 18-30 kg/m2;
• Suspicion of suboptimal or poor response:

AMH < 1.5 ng/mL; AFC < 8; FSH > 10; Poor response in a previous cycle (defined as < 6 oocytes).

Exclusion Criteria

• Simultaneous participation in another clinical trial or in any other study that could result in a confounding factor.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
DuoStim	GnRH antagonist	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	Preimplantation genetic test	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	Embryo transfer	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	Pregnancy test	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	Embryo freezing	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	Embryo thawing	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	Trophectoderm biopsy	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	MitoScore	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	Intracytoplasmic sperm injection	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	Ovarian puncture	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	Trophectoderm biopsy	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	Pregnancy test	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	MitoScore	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	Intracytoplasmic sperm injection	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	Ovarian puncture	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	Preimplantation genetic test	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	Embryo transfer	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	Embryo freezing	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	Embryo thawing	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	GnRH analog	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	GnRH antagonist	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	GnRH analog	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
DuoStim	human menopausal gonadotropin	Two controlled ovarian stimulation within the same menstrual cycle using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.
Conventional Stimulation	human menopausal gonadotropin	Two controlled ovarian stimulation in different menstrual cycles using human menopausal gonadotropin 225 IU/day subcutaneously, GnRH antagonist in a dose of 0.25 mg/day subcutaneously and 0.2 mg of GnRH analog to induce oocyte maturation. It will be followed by ovarian puncture, oocyte isolation, intracytoplasmic sperm injection and trophectoderm biopsy at the blastocyst stage. Preimplantation genetic test and MitoScore will be performed in all the embryos prior to the embryo transfer. At this step embryos will be frozen to wait for the results. Chromossomally normal embryos will be thawed and transferred to the uterus in a deferred cycle. A pregnancy test will be performed when appropriate.

Primary Outcome Measures

Name	Time	Method
Rate of euploid embryos per cycle	up to 9 months	Rate of chromosomally normal embryos per cycle in the DuoStim group compared to the group undergoing two controlled ovarian hyperstimulation in consecutives cycles.

Secondary Outcome Measures

Name	Time	Method
Number of fertilized oocytes	up to 9 months	Number of fertilized oocytes in both arms after FIV/ICSI procedure
Number of biopsied blastocysts	up to 9 months	Number of biopsied blastocysts in both arms
MitoScore index of the euploid embryos	up to 9 months	Analysis of the MitoScore index of the euploid embryos obtained in both arms
Implantation rate	up to 9 months	Implantation rate of euploid embryos in both arms after single or double embryo transfer
Pregnancy rate	up to 9 months	Pregnancy rate of euploid embryos in both arms after single or double embryo transfer
Number of oocytes obtained	up to 9 months	Total number of oocytes obtained in both arms after ovarian puncture
Abortion rate	up to 9 months	Abortion rate presented by each arm after single or double embryo transfer
Time until embryo transfer	up to 9 months	Period elapsed from the beginning of the ovarian stimulation until the embryo transfer

Trial Locations

Locations (1)

IVI Madrid; 🇪🇸 Madrid, Spain