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Enrolling By InvitationNCT06450964

Establishment of Reproductive Cohort and Prediction Model of Genetic Counseling for Mitochondrial Genetic Diseases

Status
Enrolling By Invitation
Phase
Study type
Observational
Enrollment
600 (estimated)
Sponsor
Anhui Medical University · Academic / Other
Sex
All
Age
Healthy volunteers
Not accepted

Summary

The goal of this observational study is to provide a reference for clinicians to conduct genetic counseling and carry out preimplantation genetic testing of mitochondrial patients. The main questions it aims to answer are: * The relationship between mitochondrial mutation load and clinical symptom * The symptomatic threshold of common mitochondrial DNA mutations * The distribution of mitochondrial mutation load in offspring and genetic rule of mitochondrial DNA mutation * The minimum number of eggs taken by preimplantation genetic testing in mitochondrial mutation carriers Biological samples such as blood, urine, oral epithelial cells, nails, some granulosa cells, trophoderm cells, embryo culture fluid, embryo biopsy fluid, and embryo trophoblast cells of the participants will be collected and the mutation loads of them will be measured. The clinical symptoms and mutation load of the participants will be followed up once a year.

Detailed description

A total of 600 carriers of disease-causing mitochondrial DNA mutations will be selected as the research objects. The basic information, reproductive history, clinical and genetic diagnosis, and clinical symptoms of the carriers will be investigated by questionnaire. Biological samples such as blood, urine, oral epithelial cells, nails, some granulosa cells, trophoderm cells, embryo culture fluid, embryo biopsy fluid, and embryo trophoblast cells of the participants will be collected and the mutation loads of them will be measured. Placenta and umbilical cord blood samples of some fetuses will be collected after delivery, and the mitochondrial DNA mutation heterogeneity level will be determined. Multiple Logistic regression, Sewell-Wright equation, Kimura equation, binomial distribution model, and machine learning model will be used to establish a prediction model of the incidence probability of mitochondrial diseases and predict the onset threshold of common mitochondrial DNA mutations after standardizing. The distribution model of mitochondrial mutation load in offspring will be established to predict the maternal genetic risk of mitochondrial DNA mutation. A prediction model for egg retrieval will be established to estimate the minimum number of eggs taken by preimplantation genetic testing in mitochondrial mutation carriers. Finally, an online prediction platform for mitochondrial genetic disease genetic counseling will be established to provide standardized standards for mitochondrial disease genetic counseling and PGT.

Conditions

Interventions

TypeNameDescription
OTHERBiological samples such as blood, urine, oral epithelial cells and nails of carriers were collected, and the mitochondrial DNA mutation heterogeneity level was determined.Biological samples such as blood, urine, oral epithelial cells and nails of carriers were collected, and some granulosa cells, trophoderm cells, embryo culture fluid, embryo biopsy fluid, and embryo trophoblast cells were collected. Placenta and umbilical cord blood samples of some fetuses were collected after delivery, and the mitochondrial DNA mutation heterogeneity level was determined.

Timeline

Start date
2024-09-01
Primary completion
2026-09-01
Completion
2027-12-31
First posted
2024-06-10
Last updated
2024-10-28

Locations

1 site across 1 country: China

Source: ClinicalTrials.gov record NCT06450964. Inclusion in this directory is not an endorsement.