Fertility Preservation Clinical Trial
Official title:
FSH and LH Versus FSH Alone for Ovarian Stimulation in Non-hormone Sensitive Onco-fertility Patients: an Exploratory Randomized Controlled Trial
Fertility preservation has been performed before the initiation of cancer therapy as cancer therapy is known to be toxic for ovarian function. However, recent studies have shown that ovarian function is reduced in cancer patients even before they start cancer therapy. Reduced ovarian function has been shown by these patients having fewer mature oocytes (female eggs) and lower peak levels of estradiol (a type of estrogen hormone important for fertility). Other studies have shown that in some types of cancers, cancer patients have lower levels of anti-Müllerian hormone, which is a hormone measured to assess how many eggs patient has remaining in the body. Because of these poorer fertility markers shown in cancer patients prior to therapy, some doctors and researchers believe that alternative medications for stimulating ovaries may prove to be beneficial for stimulating the ovaries during fertility preservation. Currently, luteinizing hormone injections are approved by Health Canada for patients with hypothalamic dysfunction. Hypothalamic dysfunction is a condition whereby lower levels of fertility hormones are produced because of brain dysfunction. Other reasons luteinizing hormone is used in clinical practice is in patients with poor ovarian reserve and patients who are older. Recent research studies have suggested that some oncology patients may be poor responders prior to cancer therapy because of their underlying disease. The exact reasons for this poor response are not known. However, some researchers believe it may be related to the interactions between the brain and fertility organs, similar to patients with hypothalamic dysfunction. Because of this possible similarity to patients with hypothalamic dysfunction, adding luteinizing hormone to follicle-stimulating hormone (the hormone typically used for ovarian stimulation) may be beneficial for fertility preservation. Studies have also shown improved fertility outcomes with the addition of luteinizing hormone in non-cancer patients who were previously known to be poor responders to ovarian stimulation. The clinical trial team is aiming to conduct a randomized controlled trial to evaluate the safety and efficacy of luteinizing hormone in non-hormone sensitive cancer patients (patients with cancer other than the breast, ovary or uterus).
Status | Not yet recruiting |
Enrollment | 140 |
Est. completion date | December 2031 |
Est. primary completion date | December 2029 |
Accepts healthy volunteers | No |
Gender | Female |
Age group | 18 Years to 40 Years |
Eligibility | Inclusion Criteria: - Between the ages of 18 and 40. - Undergoing IVF for fertility preservation (freezing all oocytes or embryos) - Diagnosed with a non-hormone sensitive malignancy (malignancy other than breast, uterine and ovarian cancer) - GnRH antagonist protocol (standard of care for all fertility preservation patients) Exclusion Criteria: - Any contraindication to treatment with gonadotropins (including medical history or risk factors for TE, hypersensitivity to gonadotropins or to any of the excipients). - Congenital hypogonadotropic hypogonadism unrelated to the oncological condition. - Previous adverse or allergic reaction to luteinizing hormone or any of its drug components. - Had prior radiotherapy to the abdomen or pelvis - Prior chemotherapy - Prior history of deep vein thrombosis, or pulmonary embolism - Patients with a diagnosis of hormone sensitive cancer including ovarian, uterine, or mammary carcinoma - Patients with uncontrolled thyroid or adrenal failure - Patients with active, untreated tumors of the hypothalamus and pituitary gland - Patients who are lactating - Patients with a known diagnosis of primary ovarian failure - Previous participant of this study |
Country | Name | City | State |
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n/a |
Lead Sponsor | Collaborator |
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Ellen Greenblatt | EMD Serono |
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Total number of mature (MII) oocytes available for cryopreservation | 12hrs after egg retrieval | ||
Secondary | Total number of oocytes retrieved per cycle | 1hr after egg retrieval | ||
Secondary | Ratio of mature (MII) to immature oocytes | 12 hours after egg retrieval | ||
Secondary | Total number of mature oocytes (MII) retrieved per IVF/ICSI cycle | 12 hours after egg retrieval | ||
Secondary | Ratio of mature (MII) to immature oocytes per IVF/ICSI cycle | 12 hours after egg retrieval | ||
Secondary | Number of two pronuclei (2PN) zygotes | 48 hours after egg retrieval | ||
Secondary | Fertilization rate, which will include two outcomes each defined as follows: | Definition 1: number of 2PN zygotes divided by the number of mature oocyte(s) fertilized per IVF/ICSI cycle.
Definition 2: number of 2PN zygotes divided by the number of oocytes incubated with at least 10,000 sperm per IVF cycle. |
48 hours after egg retrieval | |
Secondary | Total number of day 3 embryos | 72-80 hours after egg retrieval | ||
Secondary | Total number of good quality day 5 embryos available for cryopreservation determined by a blinded embryologist using the classification system by Gardner and Schoolcraft, 1999. | 120-132 hours after egg retrieval | ||
Secondary | Incidence of moderate to critical OHSS based on the classification criteria by Mathur et al. 2005 | 2 weeks after egg retrieval |
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