Prediction of Spontaneous Preterm Birth by Cervical Elastogram
- Conditions
- Preterm Birth
- Registration Number
- NCT03601195
- Lead Sponsor
- Chinese University of Hong Kong
- Brief Summary
Background: Preterm birth is the leading cause of perinatal morbidity and mortality in multiple pregnancies. The medical and educational expenditure and lost productivity associated with preterm birth is very high. Sonoelastography is a new ultrasound technology which has enabled the measurement of tissue stiffness and it has been widely applied in assessment of breast lump and liver cirrhosis. Sonoelastography is potentially useful for the objective assessment of cervical consistency which could be related to risk of preterm birth.
Objective: To assess the cervical consistency by shear wave elastography in prediction of preterm birth in multiple pregnancies.
Setting: This is a prospective non-interventional observational study.
Subjects: Chinese women carrying multiple pregnancies attending antenatal visit are invited to join the study.
Method: Demographic data and antenatal history will be obtained. Transvaginal scan for the cervix will be performed by a trained researcher or obstetrician for the assessment of cervical consistency, cervical length, posterior cervical angle and fetal viability. The measurements will be repeated during 5 antenatal visits or separate study visits at 11-15, 16-19, 20-23, 24-27 and 28-32 weeks of gestation. At the end of pregnancy, the delivery data and neonatal outcome will be collected.
Sample Size: The risk of preterm birth \<34 weeks in twin pregnancies is approximately 20%. A sample size of 120 was determined as being sufficient to test the diagnostic performance of cervical elasticity in mid trimester assuming that the risk of preterm delivery \<34 weeks vs \>34 weeks is 1:5 and that cervical elasticity area under curve (AUC) of the receiver operating characteristics (ROC) curve was 0.7, with 80% power and alpha of 5%.
Data Analysis: Changes in the cervical elastography will be compared using the Student paired two-tailed t test, and in the case of unequal standard deviation (SD), using a Wilcoxon signed-rank paired two-tailed test. For comparison of frequencies, Chi-square test, or a two-sided Fisher exact test will be used where appropriate. Linear regression will be used to assess the correlations. The level of statistical significance is set at p\<0.05 (two-sided).
- Detailed Description
Preterm birth is the leading cause of perinatal morbidity and mortality in multiple pregnancies. The medical and educational expenditure and lost productivity associated with preterm birth is very high. The risk of preterm delivery in singleton pregnancy is 5-7%, and that in twin pregnancy is 7-8 fold higher than singleton pregnancy. Identification of pregnant women at risk of preterm birth could allow intervention to reduce their risk. Sonoelastography is a new ultrasound technology which has enabled the measurement of tissue stiffness and it has been widely applied in assessment of breast lump and liver cirrhosis. Sonoelastography is potentially useful for the objective assessment of cervical consistency which could be related to risk of preterm birth.
Objective:
To assess the cervical consistency by shear wave elastography in prediction of preterm birth in multiple pregnancies.
This is a prospective non-interventional observational study at a university hospital. Chinese women carrying multiple pregnancies attending antenatal visit are invited to participate the study. After informed consent, demographic data and antenatal history of the subjects will be obtained. Transvaginal scan for the cervix will be performed for the assessment of cervical consistency, cervical length, posterior cervical angle and fetal viability. The measurements will be repeated during 5 antenatal visits or separate study visits at 11-15, 16-19, 20-23, 24-27 and 28-32 weeks of gestation. At the end of pregnancy, the delivery data and neonatal outcome will be collected.
Sample Size:
The risk of preterm birth \<34 weeks in twin pregnancies is approximately 20%. A sample size of 120 was determined as being sufficient to test the diagnostic performance of cervical elasticity in mid trimester assuming that the risk of preterm delivery \<34 weeks vs \>34 weeks is 1:5 and that cervical elasticity area under curve (AUC) of the receiver operating characteristics (ROC) curve was 0.7, with 80% power and alpha of 5%.
Data Analysis:
Changes in the cervical elastography will be compared using the Student paired two-tailed t test, and in the case of unequal standard deviation (SD), using a Wilcoxon signed-rank paired two-tailed test. For comparison of frequencies, Chi-square test, or a two-sided Fisher exact test will be used where appropriate. Linear regression will be used to assess the correlations. The level of statistical significance is set at p\<0.05 (two-sided).
Implication of data:
A significant improvement in the prediction of preterm delivery allows accurate differentiation of those women who would benefit from treatment for prevention of preterm birth in multiple pregnancies. This would avoid unnecessary intervention, reduce maternal and fetal complications, and has a potential to save medical cost.
Recruitment & Eligibility
- Status
- UNKNOWN
- Sex
- Female
- Target Recruitment
- 200
- Chinese women carrying multiple pregnancies attending antenatal visit are invited to join the study.
- an age of less than 18 years;
- non-Chinese;
- inability to provide consent;
- refuse to join.
Study & Design
- Study Type
- OBSERVATIONAL
- Study Design
- Not specified
- Primary Outcome Measures
Name Time Method The association of cervical consistency in mid trimester with spontaneous preterm birth in women carrying multiple pregnancies Between 11 and 32 weeks of gestation Cervical consistency will be measured by sonoelastography in term of kilopascals.
- Secondary Outcome Measures
Name Time Method The change in cervical consistency during pregnancy in women carrying multiple pregnancies Between 11 and 32 weeks of gestation Cervical consistency will be measured by sonoelastography in term of kilopascals.
Trial Locations
- Locations (1)
The Chinese University of Hong Kong
ðŸ‡ðŸ‡°Hong Kong, Hong Kong