Gonadal Tissue Freezing for Fertility Preservation in Individuals at Risk for Ovarian Dysfunction, Premature Ovarian Insufficiency and Clinically Indicated Gonadectomy

Recruiting

• Conditions: Turner Syndrome; Post-menarcheal Adolescents; Ovarian Disfunction; Variations in Sex Characteristics; Differences in Sex Development; Galactosemia

• Registration Number: NCT04948658
• Lead Sponsor: Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)

Brief Summary

Background:

Turner Syndrome, galactosemia, and premature ovarian insufficiency are all conditions that may make it very hard or impossible for a person to become pregnant and have their own child. Researchers want to learn more about why this happens and if freezing Gonadal tissue allows for fertility preservation.

Objective:

To find out why people with certain conditions have can have premature ovarian insufficiency (POI or early menopause) and individuals with variations in sex characteristics have trouble getting pregnant and if freezing the gonads tissue from them will help to have their own child in the future.

Eligibility:

Individuals aged 2-12 who have Turner Syndrome or galactosemia. Also, females aged 13-21 with premature ovarian insufficiency and Individuals with variations in sex characteristics

Design:

Participants will be screened with a medical history.

Participants may have a physical exam and blood tests. Their body measurements may be taken. These include weight, height, arm span, skin fold, and sitting height. They may fill out surveys about their quality of life, body image, and health.

Participants may have a transabdominal pelvic ultrasound. A probe will be placed on their belly and will take pictures of the organs in the pelvis. They may have a transvaginal pelvic ultrasound performed while asleep in the operating room if needed.

Participants may have surgery to remove an gonads and skin biopsy. The removed tissue will be frozen and stored. The tissue will have to be stored for many years. NIH will pay to store the tissue for 1 year. After that, participants will have to pay for storage.

A piece of the gonads (no more than 20%) will be used for research

Travel, lodging and meals for participants traveling greater than 50 miles will be reimbursed based off the government rate. Local participants will not be reimbursed.

Participants will have a checkup 6 weeks after surgery one or more follow-up visits 6-18 months after surgery. They may have phone follow-up every 12-24 months after surgery.

Participation will last 30 years.

Detailed Description

Study Description:

Gonadal tissue cryopreservation will be evaluated in individuals with Turner Syndrome, galactosemia, post-menarcheal adolescents with recent premature ovarian insufficiency, and children/adolescents conditions associated with POI and with diminished ovarian reserve (DOR) who have contraindication to ovarian stimulation as well as those with diminished ovarian reserve who did not respond to ovarian stimulation, and individuals with variations in sex characteristics (VSD or differences in sex development, DSD) including those with Turner syndrome with Y chromosome material

Objectives:

Primary Objectives: After initial evaluation of number and quality of follicles/gametes before and after cryopreservation and thawing, the remaining tissue will be utilized to perform research regarding mechanisms of follicle/gametes loss in the included conditions.

1. We will perform next generation sequencing on the tissue collected from study participants and ovaries from cadaveric organ donors on cardiopulmonary support.

2. We will perform next generation sequencing on fresh gonadal tissue and compare it to frozen and thawed tissue.

Hypothesis: next generation sequencing from tissue obtained from gonadal in individuals with these conditions will differ significantly from that of controls. Such differences may allow for further hypothesis development regarding the underlying mechanism of follicle loss and/or dysfunction in individuals with these conditions.

Secondary Objective: This protocol is designed to evaluate the feasibility (meaning a reasonable expectation of future fertility based on the anatomy, histology, and physiology of fresh gonadal tissue as well as the effects after freezing and thawing) of gonadal tissue cryopreservation (GTC)for fertility preservation in children with increased risk of loss of gonadal function due to underlying genetic conditions including Turner syndrome or galactosemia and post-menarcheal adolescents with a recent development of premature ovarian insufficiency (POI) or children/adolescents with conditions associated with POI and presenting with diminished ovarian reserve (based on laboratory findings of low AMH (\<1.0 ng/mL) and/or mildly elevated FSH (\>10 U/L) or those who do not respond to ovarian stimulation for oocyte cryopreservation due to lower follicle counts) or individuals with variations in sex characteristics.

A. The feasibility GTC as a fertility preservation option in these individuals will be evaluated through evaluation of number and quality of follicles/gametes found in the tissue prior to freezing and after thawing.

B. Lack of follicles/gametes in the gonadal tissue will confirm that GTC is not a viable option for fertility preservation for these populations.

C. An attempt to correlate laboratory and imaging markers with follicle/gamete presence and number will be made.

3. Hypothesis: Young individuals with Turner syndrome, variations of sex characteristics, classic galactosemia and adolescents with recent POI, and children/adolescents with underlying conditions associated with POI presenting with DOR harbor populations of follicles/gametes which may be preserved through gonadal tissue cryopreservation for future fertility. There will be a variety of follicular findings which will correlate with patient s anti-Mullerian hormone (AMH), age and underlying condition.

4. Depending on their underlying condition, individuals with VSC will have gametes (follicles and/or spermatogonia).

5. Loss of follicles with cryopreservation and thawing will be similar to that of non-affected individuals.

Tertiary Objectives: Research regarding inhibition and activation of follicles within the tissue will be undertaken.

1. Tissue will be treated with known inhibitors and activators and next generation sequencing will be performed in order to assess gene expression before and after treatment.

Hypothesis: Primordial follicles within gonadal tissue in individuals with these conditions may be inhibited from activating. Such techniques may allow for a decrease in follicle loss with freezing and thawing as well as possible future development of novel treatments to prevent accelerated follicle loss in individuals and adolescent affected by these conditions. Promoting follicle activation prior to re-implantation of the tissue may improve the possibility of achieving pregnancy after tissue re-implantation

Endpoints:

Primary Endpoints:

1. Tissue for research: Next generation sequencing will be performed on tissues of affected individuals and compared to age matched controls: patients who undergo GTC for solid organ tumors far from the reproductive system or cadaveric organ donors on cardiopulmonary support. This will allow for specific cellular type comparisons within the ovary and exploratory research regarding possible mechanisms of follicle loss in these populations.

2. Next generation sequencing on fresh compared to frozen and thawed tissue. This will assess what transcription changed occur due to the freezing process

Secondary Endpoint:

1. Evaluation of density and quality of follicles/gametes in the gonads of individuals with increased risk of loss of gonadal function due to underlying genetic conditions including Turner syndrome or galactosemia and postmenarcheal adolescents with a recent development of premature ovarian insufficiency (POI) or children/adolescents with conditions associated with POI and presenting with diminished ovarian reserve (based on laboratory findings of low AMH (\<1.1 ng/mL) and mildly elevated FSH (10-25 U/L) or those who do not respond to ovarian stimulation for oocyte cryopreservation due to lower follicle counts) or individuals with variations in sex characteristics.

2. Correlation of follicle/gamete density and quality with markers such as age, AMH, condition.

3. Comparison of hormone levels such as AMH, FSH, LH, and Estradiol between patients and controls.

Tertiary Endpoint

- Evaluate changes in single next generation sequencing in tissue before and after treatment with primordial follicle inhibitors and

activators. The remaining tissue will be cryopreserved for future experiments.

Study Timeline

• Study First Submitted: 2021-07-01
• Study First Submitted QC: 2021-07-01
• Study First Posted: 2021-07-02
• Study Start: 2021-09-13
• Status Verified: 2025-05-12
• Last Update Submitted: 2025-05-17
• Last Update Posted: 2025-05-20
• Primary Completion: 2030-07-31
• Study Completion: 2030-07-31

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 100

Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
Single cell/nucleus RNA sequencing	before and after cryopreservation	Single cell/nucleus RNA sequencing on fresh compared to frozen and thawed tissue. This will assess what transcription changed occur due to the freezing process.
Tissue for research	before and after cryopreservation	initial evaluation of number and quality of follicles before and after cryopreservation

Secondary Outcome Measures

Name	Time	Method
Compare hormone levels	before and after cryopreservation	Comparison of hormone levels such as AMH, FSH, LH, and Estradiol between patients and controls.
density and quality of follicles in the ovaries	before and after cryopreservation	Evaluation of density and quality of follicles in the ovaries of girls with Turner syndrome, galactosemia and post-menarcheal adolescent with premature ovarian insufficiency before and after cryopreservation and thawing
Evaluate gonadal tissue	before and after cryopreservation	The ability to safely offer a fertility preservation option to individuals who are at high risk such as POI, DOR and VSC.
Evaluate changes in single cell/nucleus RNA sequencing	before and after cryopreservation	Evaluate changes in single cell/nucleus RNA sequencing in tissue before and after treatment with primordial follicle inhibitors and activators.
Correlation of follicle density and quality with markers such as age, AMH, condition.	before and after cryopreservation	Correlation of follicle density and quality with markers such as age, AMH, condition.

Trial Locations

Locations (1)

National Institutes of Health Clinical Center; 🇺🇸 Bethesda, Maryland, United States