Optimization of Fetal Biometry With 3D Ultrasound and Image Recognition

Pregnancy Related Clinical Trial

— EPICEA  

Official title:

Optimization of Fetal Biometry With 3D Ultrasound and Image Recognition

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT03812471
• Other study ID #: ICBE-2-24301
• Status: Completed
• Phase: N/A
• Start date: October 23, 2018
• Est. completion date: March 17, 2023

Study information

• Verified date: April 2023
• Source: Philips Electronics Nederland B.V. acting through Philips CTO organization
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

In the proposed clinical investigation, the investigational device (BabySize3D) will provide automated plane extraction and automated biometry measurements from 3D US volumes. The results obtained from the investigational software

Recruitment information / eligibility

• Status: Completed
• Enrollment: 265
• Est. completion date: March 17, 2023
• Est. primary completion date: March 11, 2021
• Accepts healthy volunteers: Accepts Healthy Volunteers
• Gender: Female
• Age group: 18 Years to 65 Years

Eligibility

Inclusion Criteria:

• evolutive pregnancy with one fetus with a Gestational Age between 16 and 30 weeks

• aged between 18 and 65 years.

• social welfare benefit recipient

• willing and able to provide informed consent

Exclusion Criteria:

• under 18 years old

• multiple pregnancy

• over 18 years old and mentioned in French law articles L.1126-6 et L-1126-8,

• fetal malformation or suspected fetal malformation

• technical conditions that do not allow for standard fetal biometry (abdominal wall, fetal position, BMI > 25 kg/m2)

• fetal biometry non indicated in the standard pregnancy follow-up

• unwilling or unable to provide informed consent (e. g. physical, mental disability or linguistic factor that compromises patient information)

Related Conditions & MeSH terms

• Pregnancy Related

Intervention

Device:
• 3D volume acquisitions
2 abdominal volumes 2 thigh volumes 2 head volumes
• 2D standard measurements and 3D volumes acquisitions
1 abdomen circumference measurement 1 femur length measurement 1 head circumference measurement 1 bi-parietal diameter measurement 1 abdominal volume 1 thigh volume 1 head volume

Locations

Country	Name	City	State
France	CHRU de Nancy Brabois	Nancy

Sponsors (1)

Lead Sponsor	Collaborator
Philips Electronics Nederland B.V. acting through Philips CTO organization

Country where clinical trial is conducted

France, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Bi-parietal diameter in mm.	The bi-parietal diameter in mm will be obtained with three methods: (1) fully automated 3D volume processing and caliper placement, (2) manual 3D volume processing and caliper placement, (3) manual selection of the 2D view plane and manual caliper placement on the screen of the ultrasound system (corresponding to standard of care measurements). The values obtained with the three methods and the differences between these values will be reported.	Day 1
Primary	Head circumference in mm	The Head circumference in mm will be obtained with three methods: (1) fully automated 3D volume processing and caliper placement, (2) manual 3D volume processing and caliper placement, (3) manual selection of the 2D view plane and manual caliper placement on the screen of the ultrasound system (corresponding to standard of care measurements). The values obtained with the three methods and the differences between these values will be reported.	Day 1
Primary	Abdominal circumference in mm	The Abdominal circumference in mm will be obtained with three methods: (1) fully automated 3D volume processing and caliper placement, (2) manual 3D volume processing and caliper placement, (3) manual selection of the 2D view plane and manual caliper placement on the screen of the ultrasound system (corresponding to standard of care measurements). The values obtained with the three methods and the differences between these values will be reported.	Day 1
Primary	Femur length in mm	The Femur length in mm will be obtained with three methods: (1) fully automated 3D volume processing and caliper placement, (2) manual 3D volume processing and caliper placement, (3) manual selection of the 2D view plane and manual caliper placement on the screen of the ultrasound system (corresponding to standard of care measurements). The values obtained with the three methods and the differences between these values will be reported	Day 1
Secondary	Failure rate of the automated measurements	Failure rate of the automated measurements	Day 1
Secondary	Exam and post-processing duration	Exam and post-processing duration	Day 1
Secondary	Difference of scores of the 2D standard cephalic plane and cephalic plane extracted from the 3D volume, based on six criteria listed in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40)	The cephalic plane extracted from the 3D volume and the 2D standard cephalic plane will be scored according to the six criteria described in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40). The scores and their difference will be reported.	Day 1
Secondary	Difference of scores of the 2D standard abdominal plane and abdominal plane extracted from the 3D volume, based on six criteria listed in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40)	The abdominal plane extracted from the 3D volume and the 2D standard abdominal plane will be scored according to the six criteria described in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40). The scores and their difference will be reported.	Day 1
Secondary	Difference of scores of the 2D standard femoral plane and femoral plane extracted from the 3D volume, based on four criteria listed in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40)	The femoral plane extracted from the 3D volume and the 2D standard femoral plane will be scored according to the four criteria described in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40). The scores and their difference will be reported.	Day 1
Secondary	Difference of scores of (i) the 2D standard cephalic plane and of (ii) the frames of a sequence of 2D images including the fetus head (cine-loop), based on six criteria listed in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40)	The 2D standard cephalic plane and the frames of a sequence of 2D images including the fetus head will be scored according to the six criteria described in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40). The scores and the score difference (standard view score - frame score) will be reported.	Day 1
Secondary	Difference of scores of (i) the 2D standard abdominal plane and of (ii) the frames of a sequence of 2D images including the fetus abdomen (cine-loop), based on six criteria listed in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40)	The 2D standard abdominal plane and the frames of a sequence of 2D images including the fetus abdomen will be scored according to the six criteria described in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40). The scores and the score difference (standard view score - frame score) will be reported.	Day 1
Secondary	Difference of scores of (i) the 2D standard femoral plane and of (ii) the frames of a sequence of 2D images including the fetus femur (cine-loop), based on four criteria listed in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40)	The 2D standard femoral plane and the frames of a sequence of 2D images including the fetus femur will be scored according to the four criteria described in (Salomon et al. Ultrasound Obstet Gynecol 2006; 27: 34-40). The scores and the score difference (standard view score - frame score) will be reported.	Day 1
Secondary	Title: Intraclass correlation coefficient of the bi-parietal diameter in mm (same operator)	The intraclass correlation coefficient of the bi-parietal diameter in mm measured from two different 3D volumetric acquisitions of the same patient performed by the same operator will be calculated.	Day 1
Secondary	Bland-Altman representation of the bi-parietal diameter in mm (same operator)	A Bland-Altman representation of the the bi-parietal diameter in mm measured from two different 3D volumetric acquisitions of the same patient performed by the same operator will be built.	Day 1
Secondary	Intraclass correlation coefficient of the bi-parietal diameter in mm (different operators)	The intraclass correlation coefficient of the bi-parietal diameter in mm measured from the 3D volumetric acquisitions of the same patient performed by two different operators will be calculated.	Day 1
Secondary	Bland-Altman representation of the bi-parietal diameter in mm (different operators)	A Bland-Altman representation of the bi-parietal diameter in mm measured from the 3D volumetric acquisitions of the same patient performed by two different operators will be built.	Day 1
Secondary	Intraclass correlation coefficient of the head circumference in mm (same operator)	the intraclass correlation coefficient of the head circumference in mm measured from two different 3D volumetric acquisitions of the same patient performed by the same operator will be calculated.	Day 1
Secondary	Bland-Altman representation of the head circumference in mm (same operator)	A Bland-Altman representation of the head circumference in mm measured from two different 3D volumetric acquisitions of the same patient performed by the same operator will be built.	Day 1
Secondary	Intraclass correlation coefficient of the head circumference in mm (different operators)	The intraclass correlation coefficient of the head circumference in mm measured from the 3D volumetric acquisitions of the same patient performed by two different operators will be calculated.	Day 1
Secondary	Bland-Altman representation of the head circumference in mm (different operators)	A Bland-Altman representation of the head circumference in mm measured from the 3D volumetric acquisitions of the same patient performed by two different operators will be built.	Day 1
Secondary	Intraclass correlation coefficient of the abdominal circumference in mm (same operator)	The intraclass correlation coefficient of the abdominal circumference in mm measured from two different 3D volumetric acquisitions of the same patient performed by the same operator will be calculated.	Day 1
Secondary	Bland-Altman representation of the abdominal circumference in mm (same operator)	A Bland-Altman representation of the abdominal circumference in mm measured from two different 3D volumetric acquisitions of the same patient performed by the same operator will be built.	Day 1
Secondary	Intraclass correlation coefficient of the abdominal circumference in mm (different operators)	The intraclass correlation coefficient of the abdominal circumference in mm measured from the 3D volumetric acquisitions of the same patient performed by two different operators will be calculated.	Day 1
Secondary	Bland-Altman representation of the abdominal circumference in mm (different operators)	A Bland-Altman representation of the abdominal circumference in mm measured from the 3D volumetric acquisitions of the same patient performed by two different operators built.	Day 1
Secondary	Intraclass correlation coefficient of the femoral length in mm (same operator)	The intraclass correlation coefficient of the femoral length in mm measured from two different 3D volumetric acquisitions of the same patient performed by the same operator will be calculated.	Day 1
Secondary	Bland-Altman representation of the femoral length in mm (same operator)	A Bland-Altman representation of the femoral length in mm measured from two different 3D volumetric acquisitions of the same patient performed by the same operator will be built.	Day 1
Secondary	Title: Intraclass correlation coefficient of the femoral length in mm (different operators)	The intraclass correlation coefficient of the femoral length in mm measured from the 3D volumetric acquisitions of the same patient performed by two different operators will be calculated.	Day 1
Secondary	Bland-Altman representation of the femoral length in mm (different operators)	A Bland-Altman representation of the femoral length in mm measured from the 3D volumetric acquisitions of the same patient performed by two different operators will be built.	Day 1