Cumulative Pregnancy Rate With Lower and Higher Gonadotropin Dose During IVF Among Poor Responders
NCT ID: NCT05103228
Last Updated: 2024-12-13
Study Results
Results available
Outcome measurements, participant flow, baseline characteristics, and adverse events have been published for this study.
View full resultsBasic Information
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Recruitment Status
COMPLETED
Clinical Phase
NA
Total Enrollment
190 participants
Study Classification
INTERVENTIONAL
Study Start Date
2021-12-02
Study Completion Date
2023-07-20
Brief Summary
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Controlled ovarian hyperstimulation (COH) is an important step during in vitro fertilization (IVF). Its aim optimally is to recruit 10-15 oocytes. When deciding on the actual treatment, different stimulation protocols, various stimulating agents and wide range of gonadotropin dose can one choose from. Prior to the decision on the actual stimulation protocol and gonadotropin (Gn) dose the patient's expected response to stimulation is assessed primarily using ovarian reserve markers. Most medications used during stimulation exert their effect in a dose-dependent manner hence with a higher Gn dose one would expect a better response, more oocytes. More oocytes could translate into more embryos and potentially a higher pregnancy rate. The currently available evidence however does not support this practice as randomized controlled trials (RCT) have failed to show that the use of higher Gn dose results in higher pregnancy, live-birth rates. These studies however identified patients based on different criteria, compared different stimulation protocols and various Gn doses. There are only two RCTs that compared cumulative live birth rates (fresh + frozen embryo transfers) and they identified poor responders based on different criteria and used different drug regimens. Therefore, the aim of our study is to compare cumulative IVF clinical pregnancy rates using a lower and a higher gonadotropin dose among poor responders identified based on universally accepted criteria.
Detailed Description
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Background: IVF is started after proper evaluation based on an appropriate indication for the treatment. The first phase of the treatment is the stimulation with the aim to recruit sufficient number of oocytes. In general, 10-15 oocytes are aimed for. This many oocytes should be sufficient for the embryology laboratory procedures and should allow the provider to choose the embryo or embryos for transfer from a larger cohort. More oocytes are associated with more side effects and fewer oocytes limit the efficacy of the laboratory procedures. Stimulation is individualized and usually age, ovarian reserve markers, weight and response to previous stimulation are taken into consideration when decisions are made. Based on ovarian reserve markers patients are grouped as expected normal responders, hyper-responders or poor responders. A poor responder is a patient with low ovarian reserve or low number of oocytes in the ovaries. Their care can be challenging. Different pre-stimulation interventions and various stimulation approaches have been explored in this subset of patients. Typically, providers will prescribe higher gonadotropin doses and expect the retrieval of more oocytes resulting in more transferable embryos. Studies so far however have not supported this practice. In expected poor responders most studies have not shown the collection of more oocytes with higher dose gonadotropins. Those that did find more oocytes described an additional 1-2 oocytes only. None of the studies so far have reported improved pregnancy outcome, including cumulative outcome with more gonadotropins though. The literature is confounded by the various definitions of the poor responder patient, the use of various stimulation protocols in the active treatment versus control groups, the use of oral agents as active treatment and the different clinical endpoints tested (oocyte number, clinical pregnancy, live birth, cumulative live birth). Therefore, we plan to study patients identified as poor responders based on established criteria (POSEIDON criteria). We will use the same stimulation protocols, drug types in the experimental and control groups. We will study clinically meaningful outcomes, live birth rate and cumulative live birth rate.
Design: Investigator initiated prospective, randomized, multi-center, non-blinded trial to compared higher and lower gonadotropin in poor responder patients undegoing IVF-ICSI treatment identified based on Posedion III-IV criteria
Participants: The investigators will enroll patients who, based on their initial evaluation, reproductive history or prior fertility treatment, have a proper indication to undergo in vitro fertilization (IVF)/ intracytoplasmic sperm injection (ICSI) treatment. A basic infertility evaluation includes: 1.) hormonal evaluation of ovarian function, including ovarian reserve testing (anti-Müllerian hormone \[AMH\] level, antral follicle count \[AFC\]), 2) transvaginal ultrasound evaluation of female internal genital organs, 3) evaluation of the uterine cavity (hysterosalpingogram, saline sonohysterogram or hysteroscopy), 4) cervical cancer screening, 5) cervical culture for Chlamydia, 6) serologic testing for HIV, hepatitis B, C, syphilis (both partners), 7) semen analysis, 8) male andrological exam, 9) if needed male hormonal +/- genetic testing. IVF-ICSI treatment is started for advanced maternal age, diminished ovarian reserve (DOR), unexplained infertility after failed intrauterine inseminations, male factor infertility, endometriosis.
The investigators plan to recruit:
\- infertile patients between the ages of 18-42 who require IVF-ICSI treatment and are identified as poor responders based on: a) AMH: 0.3-1.2 ng/ml or AFC \<5, b) AMH\>1.2 ng/ml or AFC≥5 but the retrieval of ≤ 4 oocytes during previous IVF treatment. (POSEIDON category III-IV, Alviggi et al. Fertility Sterility 2016)
Methods: prospective, multicenter (5 centers), randomized controlled trial comparing a higher or lower gonadotropin (Gn) dose treatment. In both the low and high groups two different drug regimens (follitropin alpha + hp human menopausal gonadotropin or follitropin delta + hp human menopausal gonadotropin) will be used. 150 IU follitropin alpha was shown to be equally effective to 10 mcg follitropin delta. Therefore, the investigators expect similar response (oocyte yield) with the two regimens within the high and low Gn dose groups but the study design still will allow the investigators to compare the two follitropin medications too, which is a secondary aim.
Lower-dose group:
* 150 IU follitropin alpha + 75 IU highly purified human menopausal gonadotropin (hpHMG)
* 10 mcg follitropin delta + 75 IU hpHMG
Higher-dose group:
* 225 IU follitropin alpha + 150 IU hpHMG
* 15 mcg follitropin delta + 150 IU hpHMG
Treatment protocol:
* The stimulation will get started on day 2 or 3 of the spontaneous menstrual cycle, or on the 5th day after oral contraceptive pill use or after luteal estradiol pretreatment.
* During the stimulation ultrasound +/- serum hormone measurements will be used to monitor response. The first ultrasound is scheduled for day 5 or 6 of stimulation. At the time of the ultrasound blood test for serum estradiol is planned too. At the time of the last scan serum estradiol and progesterone levels will be measured.
* According to the study protocol the patient will continue with the assigned medication dose throughout her treatment. Dose increase is not allowed. If there is evidence for hyper-response \[estradiol level \> 4000 pmol/l on day 6 or more than 15 follicles over 10 mm any time during the stimulation\] the dose can be reduced.
* As soon as two or more follicles reach \>17 mm in diameter human chorionic gonadotropin (hCG) or gonadotropin-releasing hormone agonits \[GnRH a\] trigger injection will be used and 35-36 hours later transvaginal ultrasound guided follicle aspiration will be performed.
* The luteal phase will be supported by vaginal progesterone starting on the day after the retrieval.
* IVF or ICSI fertilization will be performed based on the semen parameters or previous fertilization records.
* The day after the retrieval the success of fertilization will be checked and the embryo(s) will be transferred 2-5 days after the retrieval. Embryo(s) will be transferred transcervically using soft transfer catheters under ultrasound guidance using the afterload technique.
* Surplus good quality embryos will be cryopreserved using vitrification. Elective cryopreservation (no transfer in the fresh cycle) will be performed if: 1) risk of ovarian hyperstimulation syndrome, 2) serum progesterone level over 1.5 ng/ml \[5.5 nmol/l\] prior to the oocyte collection, 3) any complications between the retrieval and planned fresh transfer (bleeding, infection, illness).
* 12-14 days after the transfer serum human chorionic gonadotropin (HCG) measurement will determine whether implantation has occurred. If the test is positive in 2-3 weeks a vaginal ultrasound will be done to determine the size, location and number of gestational sacs. Viable pregnancies will be referred to a formal prenatal care around week 8-9 of pregnancy. Delivery and perinatal outcome data will be collected by phone call after the delivery.
* If the fresh IVF cycle is not successful but embryos have been cryopreserved then the patient will undergo a frozen embryo transfer treatment cycle either in her own cycle, or in a minimally stimulated or completely artificial cycle.
The care of the patients will not differ from the care of non-study patients in terms of potential medication dose, the number of clinic visits, retrieval and embryology procedures as well as prenatal care.
Randomization: Randomization will be performed according to a computer generated list. (www.randomizer.org) The planned sample size is 700 patients (350 in both the low- and high-dose groups).
Sample size calculation: In order to determine the sample size, the investigators calculated with a 20% pregnancy rate in a patient population that fits the inclusion-exclusion criteria. The investigators expect higher oocyte yield in the higher dose group that should result in more available embryos and therefore more frozen embryo transfers. The investigators calculate that this could increase the cumulative pregnancy rate by 50%. The investigators also believe that about 20% of the patients will drop out for various reasons. Therefore, 350 participants are needed in both arms of the study.
Statistical analysis: After the enrollment of the first 350 patients, a planned interim analysis will be performed to decide whether the planned sample size is sufficient to achieve our goal. Logistic regression analysis using a generalized, mixed linear model will be used to assess the impact of various Gn doses on pregnancy rates. Chi-square test will be used to test significance and OR will be calculated.
Data will be collected for the following parameters:
* Age
* Cycle day 3 follicle stimulating hormone (FSH), estradiol level
* anti-Müllerian hormone (AMH)
* antral follicle count (AFC)
* Indication for IVF: male, tubal, unexplained, endometriosis, diminished ovarian reserve
* Smoking (yes-no)
* Body mass index
* Cycle number (fresh + frozen together)
* Estradiol level on day 6
* Estradiol + progesterone level at the last scan
* Number of follicles \>10 mm at the end of stimulation
* Stimulation duration
* Endometrial thickness
* Gn dose (daily, total)
* Trigger mechanism (HCG vs. GnRh agonist)
* Sperm parameters
* Oocyte number
* Mature (MII) oocyte number
* Proportion of mature oocytes (MII/ oocyte number)
* IVF vs. ICSI fertilization
* Number of fertilized (2 pronuclei (PN)) oocytes
* Fertilization rate per oocyte
* Fertilization rate per mature oocyte
* The number of good quality embryos (morphology better than score "6B2" on day 3, or score \>2BB on day 5) and proportion of good morphology embryos among all embryos
* Number of transferred embryos
* Number of cryopreserved embryos
* Pregnancy rate (positive hCG)
* Clinical pregnancy rate (sac with viable embryo in it)
* Cumulative pregnancy rate (fresh + frozen embryo transfers)
* Pregnancy/ neonatal outcome
Design: Investigator initiated prospective, randomized, multi-center, non-blinded trial to compared higher and lower gonadotropin in poor responder patients undegoing IVF-ICSI treatment identified based on Posedion III-IV criteria
Participants: The investigators will enroll patients who, based on their initial evaluation, reproductive history or prior fertility treatment, have a proper indication to undergo in vitro fertilization (IVF)/ intracytoplasmic sperm injection (ICSI) treatment. A basic infertility evaluation includes: 1.) hormonal evaluation of ovarian function, including ovarian reserve testing (anti-Müllerian hormone \[AMH\] level, antral follicle count \[AFC\]), 2) transvaginal ultrasound evaluation of female internal genital organs, 3) evaluation of the uterine cavity (hysterosalpingogram, saline sonohysterogram or hysteroscopy), 4) cervical cancer screening, 5) cervical culture for Chlamydia, 6) serologic testing for HIV, hepatitis B, C, syphilis (both partners), 7) semen analysis, 8) male andrological exam, 9) if needed male hormonal +/- genetic testing. IVF-ICSI treatment is started for advanced maternal age, diminished ovarian reserve (DOR), unexplained infertility after failed intrauterine inseminations, male factor infertility, endometriosis.
The investigators plan to recruit:
\- infertile patients between the ages of 18-42 who require IVF-ICSI treatment and are identified as poor responders based on: a) AMH: 0.3-1.2 ng/ml or AFC \<5, b) AMH\>1.2 ng/ml or AFC≥5 but the retrieval of ≤ 4 oocytes during previous IVF treatment. (POSEIDON category III-IV, Alviggi et al. Fertility Sterility 2016)
Methods: prospective, multicenter (5 centers), randomized controlled trial comparing a higher or lower gonadotropin (Gn) dose treatment. In both the low and high groups two different drug regimens (follitropin alpha + hp human menopausal gonadotropin or follitropin delta + hp human menopausal gonadotropin) will be used. 150 IU follitropin alpha was shown to be equally effective to 10 mcg follitropin delta. Therefore, the investigators expect similar response (oocyte yield) with the two regimens within the high and low Gn dose groups but the study design still will allow the investigators to compare the two follitropin medications too, which is a secondary aim.
Lower-dose group:
* 150 IU follitropin alpha + 75 IU highly purified human menopausal gonadotropin (hpHMG)
* 10 mcg follitropin delta + 75 IU hpHMG
Higher-dose group:
* 225 IU follitropin alpha + 150 IU hpHMG
* 15 mcg follitropin delta + 150 IU hpHMG
Treatment protocol:
* The stimulation will get started on day 2 or 3 of the spontaneous menstrual cycle, or on the 5th day after oral contraceptive pill use or after luteal estradiol pretreatment.
* During the stimulation ultrasound +/- serum hormone measurements will be used to monitor response. The first ultrasound is scheduled for day 5 or 6 of stimulation. At the time of the ultrasound blood test for serum estradiol is planned too. At the time of the last scan serum estradiol and progesterone levels will be measured.
* According to the study protocol the patient will continue with the assigned medication dose throughout her treatment. Dose increase is not allowed. If there is evidence for hyper-response \[estradiol level \> 4000 pmol/l on day 6 or more than 15 follicles over 10 mm any time during the stimulation\] the dose can be reduced.
* As soon as two or more follicles reach \>17 mm in diameter human chorionic gonadotropin (hCG) or gonadotropin-releasing hormone agonits \[GnRH a\] trigger injection will be used and 35-36 hours later transvaginal ultrasound guided follicle aspiration will be performed.
* The luteal phase will be supported by vaginal progesterone starting on the day after the retrieval.
* IVF or ICSI fertilization will be performed based on the semen parameters or previous fertilization records.
* The day after the retrieval the success of fertilization will be checked and the embryo(s) will be transferred 2-5 days after the retrieval. Embryo(s) will be transferred transcervically using soft transfer catheters under ultrasound guidance using the afterload technique.
* Surplus good quality embryos will be cryopreserved using vitrification. Elective cryopreservation (no transfer in the fresh cycle) will be performed if: 1) risk of ovarian hyperstimulation syndrome, 2) serum progesterone level over 1.5 ng/ml \[5.5 nmol/l\] prior to the oocyte collection, 3) any complications between the retrieval and planned fresh transfer (bleeding, infection, illness).
* 12-14 days after the transfer serum human chorionic gonadotropin (HCG) measurement will determine whether implantation has occurred. If the test is positive in 2-3 weeks a vaginal ultrasound will be done to determine the size, location and number of gestational sacs. Viable pregnancies will be referred to a formal prenatal care around week 8-9 of pregnancy. Delivery and perinatal outcome data will be collected by phone call after the delivery.
* If the fresh IVF cycle is not successful but embryos have been cryopreserved then the patient will undergo a frozen embryo transfer treatment cycle either in her own cycle, or in a minimally stimulated or completely artificial cycle.
The care of the patients will not differ from the care of non-study patients in terms of potential medication dose, the number of clinic visits, retrieval and embryology procedures as well as prenatal care.
Randomization: Randomization will be performed according to a computer generated list. (www.randomizer.org) The planned sample size is 700 patients (350 in both the low- and high-dose groups).
Sample size calculation: In order to determine the sample size, the investigators calculated with a 20% pregnancy rate in a patient population that fits the inclusion-exclusion criteria. The investigators expect higher oocyte yield in the higher dose group that should result in more available embryos and therefore more frozen embryo transfers. The investigators calculate that this could increase the cumulative pregnancy rate by 50%. The investigators also believe that about 20% of the patients will drop out for various reasons. Therefore, 350 participants are needed in both arms of the study.
Statistical analysis: After the enrollment of the first 350 patients, a planned interim analysis will be performed to decide whether the planned sample size is sufficient to achieve our goal. Logistic regression analysis using a generalized, mixed linear model will be used to assess the impact of various Gn doses on pregnancy rates. Chi-square test will be used to test significance and OR will be calculated.
Data will be collected for the following parameters:
* Age
* Cycle day 3 follicle stimulating hormone (FSH), estradiol level
* anti-Müllerian hormone (AMH)
* antral follicle count (AFC)
* Indication for IVF: male, tubal, unexplained, endometriosis, diminished ovarian reserve
* Smoking (yes-no)
* Body mass index
* Cycle number (fresh + frozen together)
* Estradiol level on day 6
* Estradiol + progesterone level at the last scan
* Number of follicles \>10 mm at the end of stimulation
* Stimulation duration
* Endometrial thickness
* Gn dose (daily, total)
* Trigger mechanism (HCG vs. GnRh agonist)
* Sperm parameters
* Oocyte number
* Mature (MII) oocyte number
* Proportion of mature oocytes (MII/ oocyte number)
* IVF vs. ICSI fertilization
* Number of fertilized (2 pronuclei (PN)) oocytes
* Fertilization rate per oocyte
* Fertilization rate per mature oocyte
* The number of good quality embryos (morphology better than score "6B2" on day 3, or score \>2BB on day 5) and proportion of good morphology embryos among all embryos
* Number of transferred embryos
* Number of cryopreserved embryos
* Pregnancy rate (positive hCG)
* Clinical pregnancy rate (sac with viable embryo in it)
* Cumulative pregnancy rate (fresh + frozen embryo transfers)
* Pregnancy/ neonatal outcome
Conditions
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Infertility
Ovarian Dysfunction
Keywords
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gonadotropin
follitropin alpha
follitropin delta
high-dose gonadotropin
clinical pregnancy
cumulative pregnancy rate
Study Design
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Allocation Method
RANDOMIZED
Intervention Model
PARALLEL
Primary Study Purpose
TREATMENT
Blinding Strategy
NONE
Study Groups
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Lower gonadotropin dose stimulation
Low-dose group:
* 150 IU follitropin alpha + 75 IU highly purified human menopausal gonadotropin (hpHMG)
* 10 mcg follitropin delta + 75 IU hpHMG
Group Type
EXPERIMENTAL
Follitropin Alfa
Intervention Type
DRUG
lower dose gonadotropin (follitropin alpha/ follitropin delta + hpHMG) vs. higher dose stimulation (Follitropin alpha/delta + hpHMG)
Follitropin delta
Intervention Type
DRUG
lower dose gonadotropin (follitropin alpha/ follitropin delta + hpHMG) vs. higher dose stimulation (Follitropin alpha/delta + hpHMG)
human menopausal gonadotropin
Intervention Type
DRUG
lower dose gonadotropin (follitropin alpha/ follitropin delta + hpHMG) vs. higher dose stimulation (Follitropin alpha/delta + hpHMG)
Higher gonadotropin dose stimulation
High-dose group:
* 225 IU follitropin alpha + 150 IU highly purified human menopausal gonadotropin (hpHMG)
* 15 mcg follitropin delta + 150 IU hpHMG
Group Type
EXPERIMENTAL
Follitropin Alfa
Intervention Type
DRUG
lower dose gonadotropin (follitropin alpha/ follitropin delta + hpHMG) vs. higher dose stimulation (Follitropin alpha/delta + hpHMG)
Follitropin delta
Intervention Type
DRUG
lower dose gonadotropin (follitropin alpha/ follitropin delta + hpHMG) vs. higher dose stimulation (Follitropin alpha/delta + hpHMG)
human menopausal gonadotropin
Intervention Type
DRUG
lower dose gonadotropin (follitropin alpha/ follitropin delta + hpHMG) vs. higher dose stimulation (Follitropin alpha/delta + hpHMG)
Interventions
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Follitropin Alfa
lower dose gonadotropin (follitropin alpha/ follitropin delta + hpHMG) vs. higher dose stimulation (Follitropin alpha/delta + hpHMG)
Intervention Type
DRUG
Follitropin delta
lower dose gonadotropin (follitropin alpha/ follitropin delta + hpHMG) vs. higher dose stimulation (Follitropin alpha/delta + hpHMG)
Intervention Type
DRUG
human menopausal gonadotropin
lower dose gonadotropin (follitropin alpha/ follitropin delta + hpHMG) vs. higher dose stimulation (Follitropin alpha/delta + hpHMG)
Intervention Type
DRUG
Other Intervention Names
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Ovaleap (Theramex Ireland Limited)
Bemfola (Richter Gedeon Nyrt., Hungary)
Gonal F (Merck Europe B.V.)
Rekovelle (Ferring Pharmaceuticals A/S, Denmark)
Menopur (Ferring Pharmaceuticals A/S, Denmark)
Eligibility Criteria
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Inclusion Criteria
* Expected poor responder based on:
1. AMH: 0.3-1.2 ng/ml or AFC \<5,
2. AMH\>1.2 ng/ml or AFC≥5 but the retrieval of ≤ 4 oocytes during previous IVF treatment.
* motile sperm with normal morphology obtained from the ejaculate of testicular biopsy
* no more than 3 previous failed IVF cycles (if the patient had 2 or more previous cycles cancelled for poor response she cannot be included)
* BMI: 18-35 kg/m2
* regular 24-35 day cycles
* intact uterine cavity
* indication for in vitro fertilisation treatment (tubal factor, male factor, low ovarian reserve, endometriosis, unexplained infertility)
* age 18-421 yrs
1. AMH: 0.3-1.2 ng/ml or AFC \<5,
2. AMH\>1.2 ng/ml or AFC≥5 but the retrieval of ≤ 4 oocytes during previous IVF treatment.
* motile sperm with normal morphology obtained from the ejaculate of testicular biopsy
* no more than 3 previous failed IVF cycles (if the patient had 2 or more previous cycles cancelled for poor response she cannot be included)
* BMI: 18-35 kg/m2
* regular 24-35 day cycles
* intact uterine cavity
* indication for in vitro fertilisation treatment (tubal factor, male factor, low ovarian reserve, endometriosis, unexplained infertility)
* age 18-421 yrs
Exclusion Criteria
* presence of hydrosalpinx
* positive HIV, hepatitis B, C screening tests
* planned preimplantation genetic testing of the embryos
* planned elective cryopreservation
* lack of consent
* positive HIV, hepatitis B, C screening tests
* planned preimplantation genetic testing of the embryos
* planned elective cryopreservation
* lack of consent
Minimum Eligible Age
18 Years
Maximum Eligible Age
42 Years
Eligible Sex
FEMALE
Accepts Healthy Volunteers
No
Sponsors
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Peter Kovacs MD
OTHER
Sponsor Role
lead
Responsible Party
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Peter Kovacs MD
Medical Director
Responsibility Role
SPONSOR_INVESTIGATOR
Principal Investigators
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Peter Kovacs, MD
Role: PRINCIPAL_INVESTIGATOR
Dunamenti REK Istenhegyi IVF Center
Locations
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Dunamenti REK Reprodukciós Központ
Budapest, , Hungary
Site Status
Countries
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Hungary
References
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van der Gaast MH, Eijkemans MJ, van der Net JB, de Boer EJ, Burger CW, van Leeuwen FE, Fauser BC, Macklon NS. Optimum number of oocytes for a successful first IVF treatment cycle. Reprod Biomed Online. 2006 Oct;13(4):476-80. doi: 10.1016/s1472-6483(10)60633-5.
Reference Type
RESULT
Sunkara SK, Rittenberg V, Raine-Fenning N, Bhattacharya S, Zamora J, Coomarasamy A. Association between the number of eggs and live birth in IVF treatment: an analysis of 400 135 treatment cycles. Hum Reprod. 2011 Jul;26(7):1768-74. doi: 10.1093/humrep/der106. Epub 2011 May 10.
Reference Type
RESULT
Briggs R, Kovacs G, MacLachlan V, Motteram C, Baker HW. Can you ever collect too many oocytes? Hum Reprod. 2015 Jan;30(1):81-7. doi: 10.1093/humrep/deu272. Epub 2014 Oct 31.
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RESULT
Polyzos NP, Drakopoulos P, Parra J, Pellicer A, Santos-Ribeiro S, Tournaye H, Bosch E, Garcia-Velasco J. Cumulative live birth rates according to the number of oocytes retrieved after the first ovarian stimulation for in vitro fertilization/intracytoplasmic sperm injection: a multicenter multinational analysis including approximately 15,000 women. Fertil Steril. 2018 Sep;110(4):661-670.e1. doi: 10.1016/j.fertnstert.2018.04.039.
Reference Type
RESULT
Gougeon A. Human ovarian follicular development: from activation of resting follicles to preovulatory maturation. Ann Endocrinol (Paris). 2010 May;71(3):132-43. doi: 10.1016/j.ando.2010.02.021. Epub 2010 Apr 2.
Reference Type
RESULT
Fleming R, Broekmans F, Calhaz-Jorge C, Dracea L, Alexander H, Nyboe Andersen A, Blockeel C, Jenkins J, Lunenfeld B, Platteau P, Smitz J, de Ziegler D. Can anti-Mullerian hormone concentrations be used to determine gonadotrophin dose and treatment protocol for ovarian stimulation? Reprod Biomed Online. 2013 May;26(5):431-9. doi: 10.1016/j.rbmo.2012.02.027. Epub 2013 Feb 4.
Reference Type
RESULT
Nelson SM, Yates RW, Lyall H, Jamieson M, Traynor I, Gaudoin M, Mitchell P, Ambrose P, Fleming R. Anti-Mullerian hormone-based approach to controlled ovarian stimulation for assisted conception. Hum Reprod. 2009 Apr;24(4):867-75. doi: 10.1093/humrep/den480. Epub 2009 Jan 10.
Reference Type
RESULT
Nelson SM. Biomarkers of ovarian response: current and future applications. Fertil Steril. 2013 Mar 15;99(4):963-9. doi: 10.1016/j.fertnstert.2012.11.051. Epub 2013 Jan 8.
Reference Type
RESULT
La Marca A, Sunkara SK. Individualization of controlled ovarian stimulation in IVF using ovarian reserve markers: from theory to practice. Hum Reprod Update. 2014 Jan-Feb;20(1):124-40. doi: 10.1093/humupd/dmt037. Epub 2013 Sep 29.
Reference Type
RESULT
Practice Committee of the American Society for Reproductive Medicine. Electronic address: [email protected]; Practice Committee of the American Society for Reproductive Medicine. Testing and interpreting measures of ovarian reserve: a committee opinion. Fertil Steril. 2020 Dec;114(6):1151-1157. doi: 10.1016/j.fertnstert.2020.09.134.
Reference Type
RESULT
Ferraretti AP, La Marca A, Fauser BC, Tarlatzis B, Nargund G, Gianaroli L; ESHRE working group on Poor Ovarian Response Definition. ESHRE consensus on the definition of 'poor response' to ovarian stimulation for in vitro fertilization: the Bologna criteria. Hum Reprod. 2011 Jul;26(7):1616-24. doi: 10.1093/humrep/der092. Epub 2011 Apr 19.
Reference Type
RESULT
Poseidon Group (Patient-Oriented Strategies Encompassing IndividualizeD Oocyte Number); Alviggi C, Andersen CY, Buehler K, Conforti A, De Placido G, Esteves SC, Fischer R, Galliano D, Polyzos NP, Sunkara SK, Ubaldi FM, Humaidan P. A new more detailed stratification of low responders to ovarian stimulation: from a poor ovarian response to a low prognosis concept. Fertil Steril. 2016 Jun;105(6):1452-3. doi: 10.1016/j.fertnstert.2016.02.005. Epub 2016 Feb 26. No abstract available.
Reference Type
RESULT
Leijdekkers JA, Torrance HL, Schouten NE, van Tilborg TC, Oudshoorn SC, Mol BWJ, Eijkemans MJC, Broekmans FJM. Individualized ovarian stimulation in IVF/ICSI treatment: it is time to stop using high FSH doses in predicted low responders. Hum Reprod. 2020 Sep 1;35(9):1954-1963. doi: 10.1093/humrep/dez184.
Reference Type
RESULT
van Tilborg TC, Torrance HL, Oudshoorn SC, Eijkemans MJC, Koks CAM, Verhoeve HR, Nap AW, Scheffer GJ, Manger AP, Schoot BC, Sluijmer AV, Verhoeff A, Groen H, Laven JSE, Mol BWJ, Broekmans FJM; OPTIMIST study group. Individualized versus standard FSH dosing in women starting IVF/ICSI: an RCT. Part 1: The predicted poor responder. Hum Reprod. 2017 Dec 1;32(12):2496-2505. doi: 10.1093/humrep/dex318.
Reference Type
RESULT
Liu X, Li T, Wang B, Xiao X, Liang X, Huang R. Mild stimulation protocol vs conventional controlled ovarian stimulation protocol in poor ovarian response patients: a prospective randomized controlled trial. Arch Gynecol Obstet. 2020 May;301(5):1331-1339. doi: 10.1007/s00404-020-05513-6. Epub 2020 Mar 24.
Reference Type
RESULT
Practice Committee of the American Society for Reproductive Medicine. Electronic address: [email protected]. Comparison of pregnancy rates for poor responders using IVF with mild ovarian stimulation versus conventional IVF: a guideline. Fertil Steril. 2018 Jun;109(6):993-999. doi: 10.1016/j.fertnstert.2018.03.019.
Reference Type
RESULT
Arce JC, Larsson P, Garcia-Velasco JA. Establishing the follitropin delta dose that provides a comparable ovarian response to 150 IU/day follitropin alfa. Reprod Biomed Online. 2020 Oct;41(4):616-622. doi: 10.1016/j.rbmo.2020.07.006. Epub 2020 Jul 15.
Reference Type
RESULT
Nyboe Andersen A, Nelson SM, Fauser BC, Garcia-Velasco JA, Klein BM, Arce JC; ESTHER-1 study group. Individualized versus conventional ovarian stimulation for in vitro fertilization: a multicenter, randomized, controlled, assessor-blinded, phase 3 noninferiority trial. Fertil Steril. 2017 Feb;107(2):387-396.e4. doi: 10.1016/j.fertnstert.2016.10.033. Epub 2016 Nov 29.
Reference Type
RESULT
Bosch E, Havelock J, Martin FS, Rasmussen BB, Klein BM, Mannaerts B, Arce JC; ESTHER-2 Study Group. Follitropin delta in repeated ovarian stimulation for IVF: a controlled, assessor-blind Phase 3 safety trial. Reprod Biomed Online. 2019 Feb;38(2):195-205. doi: 10.1016/j.rbmo.2018.10.012. Epub 2018 Dec 14.
Reference Type
RESULT
Ishihara O, Klein BM, Arce JC; Japanese Follitropin Delta Phase 2 Trial Group. Randomized, assessor-blind, antimullerian hormone-stratified, dose-response trial in Japanese in vitro fertilization/intracytoplasmic sperm injection patients undergoing controlled ovarian stimulation with follitropin delta. Fertil Steril. 2021 Jun;115(6):1478-1486. doi: 10.1016/j.fertnstert.2020.10.059. Epub 2020 Dec 4.
Reference Type
RESULT
Provided Documents
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Document Type: Study Protocol and Statistical Analysis Plan
Other Identifiers
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52007-13/2021
Identifier Type: -
Identifier Source: org_study_id