Mueller polarimetric colposcopy appears to be a powerful tool for evaluating cervical microstructure modification during pregnancy. Some polarimetric parameters of the uterine cervix can be correlated with the gestational age. The uterine cervix's polarimetric analysis could make it possible to accurately predict the term of childbirth and be used as a screening tool for preterm birth.
Interventional research protocol involving the human person relating to a medical device. This is a prospective, not randomized, monocentric study. Prematurity accounts for around 11% of births worldwide. In France, around 60,000 children (7.4%) are born each year prematurely. The term of gestation has a strong impact on mortality, severe neonatal morbidity, and child development. For this reason, premature birth represents a major public health issue. The means to reliably predict a premature birth are still ineffective. The medical device used in this research is a Mueller polarimetric colposcope which appears to be a powerful tool for evaluating the process of remodeling of cervical microstructure during pregnancy. Mueller polarimetric imaging is the only technique that enables obtaining the comprehensive polarimetric characterization of a sample. Two groups are considered for this study: i) patients at low risk of premature birth (Group 1); ii) patients at high risk of premature birth (Group 2). This study's main objective is to determine, for the two groups of patients, the best "polarimetric biomarkers" which make it possible to define an optimal "polarimetric score" reflecting the state of the cervical microstructure throughout its remodeling process during pregnancy. This "Polarimetric Score" will be able to predict the term of childbirth and used as a screening tool for prematurity.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
683
Determination of the best "polarimetric biomarkers" reflecting the status of the cervical microstructure throughout its remodeling process due to the pregnancy in a population with a low-risk premature birth. This "polarimetric biomarkers" should make it possible to accurately determine the time remaining before childbirth for a normal pregnancy and, therefore, to monitor the regular advancement of the gestation.
Determination of the best "polarimetric biomarkers" reflecting the status of the cervical microstructure throughout its remodeling process due to the pregnancy in a population at high-risk of preterm birth. This "polarimetric biomarkers" should make it possible to accurately determine the time remaining before childbirth for an abnormal pregnancy and, therefore, to predict premature childbirth.
Hospital Bicêtre - Gynecology-Obstetrics Department
Le Kremlin-Bicêtre, France, France
RECRUITINGPolarimetric parameters in population with a low-risk of premature birth
The principal outcome will be determining the best "polarimetric biomarkers" able to monitor and quantify the uterine cervix's modifications in a population with a low risk of premature birth. Specifically, the "polarimetric biomarkers" are the most relevant polarimetric parameters (or a combination of them) characterizing the cervical microstructure modifications during a normal pregnancy. They can be the main polarimetric parameters obtained from the measured Mueller matrices using different algebraic methods. One example of a polarimetric parameter that can be assessed is the Phase Retardance, measured in degrees at different wavelengths. It characterizes the anisotropy of the tissue.
Time frame: 6 months
Polarimetric biomarkers in population with a low-risk of premature birth
A polarimetric parameter that can be assessed is the azimuth of the Phase Retardance, measured in degrees at different wavelengths. It characterizes the orientations of the microscopic fibrous structures (such as the collagen) in the tissue.
Time frame: 6 months
Parameters Polarimetric in population with a low-risk of premature birth
A polarimetric parameter that can be assessed is the Depolarization, measured in arbitrary units at different wavelengths. It characterizes the scattering properties of the tissue.
Time frame: 6 months
Polarimetric parameters in population with a high-risk of premature birth
A polarimetric parameter that can be assessed is the azimuth of the Phase Retardance, measured in degrees at different wavelengths. It characterizes the orientations of the microscopic fibrous structures (such as the collagen) in the tissue.
Time frame: 6 months
Polarimetric biomarkers in population with a high-risk of premature birth
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A polarimetric parameter that can be assessed is the Depolarization, measured in arbitrary units at different wavelengths. It characterizes the scattering properties of the tissue.
Time frame: 6 months
Parameters polarimetric in population with a high-risk of premature birth
The principal outcome will be determining the best "polarimetric biomarkers" able to monitor and quantify the uterine cervix's modifications in a population with a high risk of premature birth. Specifically, the "polarimetric biomarkers" are the most relevant polarimetric parameters (or a combination of them) characterizing the cervical microstructure modifications during a normal pregnancy. They can be the main polarimetric parameters obtained from the measured Mueller matrices using different algebraic methods. One example of a polarimetric parameter that can be assessed is the Phase Retardance, measured in degrees at different wavelengths. It characterizes the anisotropy of the tissue.
Time frame: 6 months