Clinical Trials Logo

Clinical Trial Summary

Previous work indicates that 2 months androgen pre-treatment may equip preantral follicles with more FSH receptors and increase the cohort of follicles surviving to the recruitable antral stage. In this regard it may result in an increase in the oocyte yield and the reproductive outcome in women with poor ovarian response. These findings provide a strong rationale for a definitive large RCT. The TTRANSPORT study will include 400 women with poor ovarian response randomized to receive pre-treatment with transdermal testosterone gel or placebo in order to provide conclusive evidence regarding the superiority or not of transdermal testosterone pre-treatment for the management of poor ovarian responders fulfilling the Bologna criteria.


Clinical Trial Description

Studies in primates showed that treatment with testosterone increased the number of growing follicles, lead to proliferation of granulosa and theca cells, while finally reduced the apoptosis of granulosa cells (Vendola et al., 1999; Weil et al., 1999). These studies further suggest that androgens may have a specific action in pre-antral and small antral follicles, prior to serving as substrate for estradiol synthesis in larger follicles and in this regard influence the responsiveness of the ovaries to gonadotropins and amplify the effects of FSH on the ovary. Despite the available evidence, only 3 small RCTs evaluated the effect of transdermal testosterone on infertile patients with poor ovarian response to stimulation. A pooled analysis of these studies demonstrated a benefit in clinical and ongoing pregnancy rates for testosterone pre-treated patients (González-Comadran et al., 2012). However, two of these trials were considerably small, whereas all of them restricted testosterone administration between 5 and 21 days prior ovarian stimulation. Evidence from basic research and early trials suggest that androgens should be administered for at least 2 months before initiation of ovarian stimulation (Casson PR, 2000), in order affect preantral follicles and equip them with more FSH receptors in an attempt to have a larger cohort of follicles surviving to the recruitable antral stage. Taking into account the promising results from recently conducted small RCTS, the investigators decided to perform a double blind placebo controlled randomized controlled trial, with adequate sample size, in order to test the effect of administration of transdermal testosterone in poor ovarian responders fulfilling the Bologna criteria, for 2 months prior ovarian stimulation in a long agonist protocol. The daily dose of transdermal testosterone gel (TTG) will be 0.55gr (5.5mg testosterone/day). The specific dose was selected based on previous pharmacokinetic studies in women according to which daily application of 5 mg of transdermal testosterone cream (Fooladi, 2014) or TTG (Singh et al. 2006, Nathorst-Böös et al., 2005) is likely to restore fT levels to the premenopausal reference range. Although no side effects had been described after pre-treatment with higher doses of 12.5mg TTG for 21 days in a previous randomized controlled trial (Kim et al., 2011), it is likely that higher doses will result in supraphysiological TT and fT levels. Therefore the dose of 0.55gr TTG (5.5mg testosterone/day) has been selected for the T-TRANSPORT trial since this will restore TT and fT levels to levels above and within the upper normal reference range. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02418572
Study type Interventional
Source Institut Universitari Dexeus
Contact
Status Terminated
Phase Phase 3
Start date April 2015
Completion date February 2024

See also
  Status Clinical Trial Phase
Completed NCT03607409 - Role of Inhibin A as Biomarker for Ovarian Response for IVF Treatment
Recruiting NCT02312076 - GnRHa for Luteal Phase Support in Long GnRHa Protocol Cycles Phase 4
Terminated NCT02161861 - Improvement of IVF Fertilization Rates, by the Cyclic Tripeptide FEE - Prospective Randomized Study N/A
Completed NCT03287479 - Comparison of a Semi-automated Closed Vitrification System (Gavi®) With a Manual Open Vitrification Sytem (Cryotop®) N/A
Terminated NCT03522350 - Randomized Trial Comparing EmbryoScope With EmbryoScope+. N/A
Completed NCT04496284 - Embryo Transfer Outcomes After Vitrification With Slush Nitrogen Compared to Liquid Nitrogen N/A
Completed NCT03623659 - pArtiaL zonA pelluciDa Removal by assisteD hatchINg of Blastocysts N/A
Completed NCT03895099 - New Ovarian Stimulation With Random Start, Use of Progestin Protocol for Oocyte Donors Phase 3
Active, not recruiting NCT04142112 - Randomized, Standard-Controlled, Study to Evaluate the Ohana IVF Sperm Preparation Kit, SPeRtility IVF Next Generation N/A
Completed NCT03152643 - Cumulative Live Birth Rates After Cleavage-stage Versus Blastocyst-stage Embryo Transfer N/A
Recruiting NCT03683771 - Assessment of Endometrial Pattern and Sub-endometrial Vascularity in ICSI Outcome
Recruiting NCT03161119 - Comparing Two Different Embryo Transfer Catheters N/A
Completed NCT04108039 - Micronized Progesterone vs Gonadotropin-releasing Hormone (GnRH) Antagonist in Freeze-all IVF Cycles. N/A
Completed NCT03678818 - Supplementing Intracytoplasmic Sperm Injection Handling Medium With Latrunculin A (ICSI-LA) N/A
Completed NCT03677492 - Supplementing Intracytoplasmic Sperm Injection Handling Medium With Cytochalasin D ( ICSI-CD) N/A
Completed NCT03678584 - Supplementing Intracytoplasmic Sperm Injection Handling Medium With Chaetoglobosin A ( ICSI-CA) N/A
Completed NCT03678610 - Handling Medium for ICSI With Ionomycin and Latrunculin A N/A
Completed NCT03678571 - Oocyte Vitrification Aided With Latrunculin A N/A
Completed NCT03678597 - Supplementing Intracytoplasmic Sperm Injection Handling Medium With Latrunculin B ( ICSI-LB) N/A
Completed NCT03678558 - Oocyte Vitrification Aided With Cytochalasin B N/A