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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT06266169
Other study ID # fpc-2023-ivf-01
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date September 20, 2023
Est. completion date December 31, 2025

Study information

Verified date February 2024
Source Family Planning Center of Women's Welfare Clinic #44 of Pushkin District
Contact Alexey Gryaznov
Phone +7(812)414-57-11
Email libra19831010@mail.ru
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Relevance of the research topic: At present, in the world, a kind of "plateau" in the efficiency of assisted reproductive technologies has been achieved, which ensures a birth rate of 30% per embryo transfer. At the same time, a relatively high (15-20%) and stable rate of miscarriages is preserved. Until now, no effective methods for assessing the potential of gametes and embryos, as well as human reproductive capabilities, have been offered. In these conditions, to increase the rate of births after IVF, clinicians have to increase the number of transferred embryos at a time, however, this leads to a sharp increase in complications of IVF, such as multiple pregnancy. In addition, until today, the clinical effectiveness of assessing the potential of endometrium using gene expression determination methods has not been shown. Therefore, to ensure the effectiveness and safety of infertility treatment, it is necessary to develop methods for predicting the potential of gametes and embryos, as well as human reproductive capabilities. For this purpose, the investigators assume to use Raman spectroscopy of the environment obtained from the objects of research, as well as fluorescent spectroscopy of endometrium. The objects of the research are gametes (spermatozoa) and embryos, used culture medium, endometrium. The subject of the study is the set of factors, that exists in the objects of research and their ability to determine the outcomes of infertility treatment.


Description:

The goal of the planned work is to build a system for assessing and predicting the potential of gametes and embryos, as well as human reproductive capabilities, based on spectral data obtained from the objects of investigation, followed by prospective validation of the developed system. The study protocol consists of a retrospective and prospective stages. The task of the retrospective stage is to study gametes, embryos, and endometrium using the declared methods and build a machine learning model, determine the predictive capabilities of the obtained models. The task of the prospective stage is to determine the practical efficiency of applying models for making clinically significant decisions in infertility treatment with IVF. Hypothesis of the study: at the moment, a large number of approaches and protocols for deselecting and selecting embryos / gametes, assessing endometrial receptivity has been proposed. Approaches related to deselection are mainly based on determining the genetic constitution (aneuploidy) of the investigated object. However, there are no models linking such testing results and the outcome of infertility treatment with clinically significant effectiveness. There are many publications when, after transferring aneuploid embryos, pregnancy develops with a healthy fetus. It is known that the concordance of aneuploidy test results between the internal cell mass and trophoblasts is about 60%. Moreover, when using PGT-a, the birth rate among women with a single available blastocyst is reduced twice. Approaches related to selection, i.e. predicting a positive outcome of treatment, are built on morphological, morphometric, metabolic, and gene expression approaches. However, their effectiveness either has not been proven, or has (if it has) relatively low predictive importance. This is due to the fact that, from the point of modern views on reproductive biology, for the occurrence and development of successful pregnancy, it is necessary to combine factors that belong to gametes, embryos, and the maternal organism. Also, other undetectable technical or other circumstances may play a role in influencing the chance of ongoing pregnancy. Therefore, for effective prediction of a positive outcome, it is necessary to develop and apply complex models that take into account variables from different sources, from all parties involved. However, there will always be additional variability, caused by a series of unspecified or difficult to specify factors, which makes the task of such prediction quite challenging. In this connection, predicting a negative outcome of treatment (deselecting objects) seems more sensible, as it is entirely feasible for cases, where the cause of the negative outcome is attributable to this object (for example, the state of the embryo). This will not only optimize patient care protocols (for example, not to transfer obviously incapable to implant embryos), but also determine the possible cause of the negative outcome in each specific case, and in a population scale determine the share of variability of the phenomenon (development of ongoing pregnancy), which may be related to a specific object. The last one is necessary for adequate development and testing of new therapeutic and diagnostic methods


Recruitment information / eligibility

Status Recruiting
Enrollment 1064
Est. completion date December 31, 2025
Est. primary completion date February 28, 2024
Accepts healthy volunteers No
Gender All
Age group 20 Years to 44 Years
Eligibility Inclusion Criteria: - Embryos: embryos that have reached the blastocyst stage - Sperm: samples used for IVF during infertility treatment - Endometrium: endometrial spectra in cases where an embryo transfer was performed into the uterus Exclusion Criteria: - For all groups: ectopic pregnancy - Embryos: presence of only one blastocyst, and that embryo prognosed by the model as negative - Sperm: a cycle where less than 3 oocytes suitable for fertilization were obtained; total pathological fertilization; 60% or more immature oocytes at the time of fertilization registration

Study Design


Related Conditions & MeSH terms


Intervention

Other:
making artificial intelligence based decisions of gamete, embryo and endometrial potential
The method of Raman spectroscopy is based on the registration of inelastic scattering of photons. Each compound has its own spectral pattern when using a certain type of monochromatic radiation (laser). With this method, it is possible to obtain metabolic fingerprints from the objects being studied. Luminescent spectroscopy is a type of spectroscopy used to register emission from objects that occurred after absorbing the exciting (primary) radiation. Spectrophotometry is the detection of radiation in the visible area of the spectrum. Raman spectroscopy is used for the spent medium and semen to build artificial intelligence model and make prognosis of function for each object. For endometrium, luminescent spectroscopy and spectrophotometry are used to build the model and test its clinical relevance

Locations

Country Name City State
Russian Federation Family planning center Saint Petersburg Pushkin

Sponsors (1)

Lead Sponsor Collaborator
Family Planning Center of Women's Welfare Clinic #44 of Pushkin District

Country where clinical trial is conducted

Russian Federation, 

Outcome

Type Measure Description Time frame Safety issue
Primary Embryonic model performance Positive predictive value for negative outcomes of single embryo transfers (%) 14 weeks
Primary Gamete model performance Positive predictive value for cycles with impaired embryo development in vitro (%) 2 weeks
Primary Endometrial model performance Positive predictive value for negative outcomes of single embryo transfers (%) 14 weeks
Primary Embryonic model clinical efficiency Ongoing pregnancy rate per single embryo transfer (%) 14 weeks
Primary Endometrial model clinical efficiency Ongoing pregnancy rate per single embryo transfer (%) 14 weeks
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