Towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative technique

Towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative technique

Abstract Background Measurement of edge to os distance (EOD) is essential to differentiate low-lying from normal placenta, and to plan for delivery. Till now, measurement by 2D TVS is the gold standard, however, its accuracy is questioned. In this study, we introduced an innovative technique for mea...

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Main Authors: Somayya M. Sadek, Reda A. Ahmad, Hytham Atia, Adel G. Abdullah
Format: Article
Language:English
Published: BMC 2018-12-01
Series:BMC Pregnancy and Childbirth
Subjects:
Low-lying
Placenta
Distance
Three-dimensional
Ultrasound
Online Access:http://link.springer.com/article/10.1186/s12884-018-2107-4
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spelling doaj-8535abab6da74b02bf02babc7e2c171c2020-11-25T02:32:11ZengBMCBMC Pregnancy and Childbirth1471-23932018-12-011811910.1186/s12884-018-2107-4Towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative techniqueSomayya M. Sadek0Reda A. Ahmad1Hytham Atia2Adel G. Abdullah3Obstetrics and Gynecology Department, Faculty of Medicine, Zagazig UniversityObstetrics and Gynecology Department, Faculty of Medicine, Zagazig UniversityObstetrics and Gynecology Department, Faculty of Medicine, Zagazig UniversityObstetrics and Gynecology Department, Faculty of Medicine, Zagazig UniversityAbstract Background Measurement of edge to os distance (EOD) is essential to differentiate low-lying from normal placenta, and to plan for delivery. Till now, measurement by 2D TVS is the gold standard, however, its accuracy is questioned. In this study, we introduced an innovative technique for measurement of EOD using 3D TVS. Our aim was to compare EOD measurements of the standard 2D technique, to those of our innovative 3D technique, and to correlate the difference, if any, with placental site and internal os width. Methods This study was conducted in the ultrasound unit of obstetrics and gynecology department, Zagazig University Hospitals, during the period from June 2014 to August 2017. Seventy six cases in whom the lower placental edge didn’t reach the internal os (IO), and the EOD was less than 35 mm, were included in the study. Placental location was identified by 2D transabdominal sonography then 2D TVS was used to measure the EOD in all cases. Our new technique was then applied to measure EOD by 3D TVS following stepwise manipulations of the orthogonal planes in multiplanar view. Width of IO was measured also in all cases. Results The mean EOD measured by 3D TVS was significantly shorter than that measured using the 2D TVS. Anterolateral/posterolateral and lateral placentas were associated with high discrepancy in measurements between both methods, being the highest with lateral group. There was significant positive correlation between the IO width and the degree of difference between the EOD measured by both methods. Conclusions Two dimensional TVS may not be accurate in EOD measurements in many cases of low-lying placentas, and 3D TVS may increase the accuracy of measurements in these cases. This new method is simple, precise and easily applied.http://link.springer.com/article/10.1186/s12884-018-2107-4Low-lyingPlacentaDistanceThree-dimensionalUltrasound
collection DOAJ
language English
format Article
sources DOAJ
author Somayya M. Sadek
Reda A. Ahmad
Hytham Atia
Adel G. Abdullah
spellingShingle Somayya M. Sadek
Reda A. Ahmad
Hytham Atia
Adel G. Abdullah
Towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative technique
BMC Pregnancy and Childbirth
Low-lying
Placenta
Distance
Three-dimensional
Ultrasound
author_facet Somayya M. Sadek
Reda A. Ahmad
Hytham Atia
Adel G. Abdullah
author_sort Somayya M. Sadek
title Towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative technique
title_short Towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative technique
title_full Towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative technique
title_fullStr Towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative technique
title_full_unstemmed Towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative technique
title_sort towards more accurate measurement of edge to os distance in low-lying placenta using three dimensional transvaginal ultrasound: an innovative technique
publisher BMC
series BMC Pregnancy and Childbirth
issn 1471-2393
publishDate 2018-12-01
description Abstract Background Measurement of edge to os distance (EOD) is essential to differentiate low-lying from normal placenta, and to plan for delivery. Till now, measurement by 2D TVS is the gold standard, however, its accuracy is questioned. In this study, we introduced an innovative technique for measurement of EOD using 3D TVS. Our aim was to compare EOD measurements of the standard 2D technique, to those of our innovative 3D technique, and to correlate the difference, if any, with placental site and internal os width. Methods This study was conducted in the ultrasound unit of obstetrics and gynecology department, Zagazig University Hospitals, during the period from June 2014 to August 2017. Seventy six cases in whom the lower placental edge didn’t reach the internal os (IO), and the EOD was less than 35 mm, were included in the study. Placental location was identified by 2D transabdominal sonography then 2D TVS was used to measure the EOD in all cases. Our new technique was then applied to measure EOD by 3D TVS following stepwise manipulations of the orthogonal planes in multiplanar view. Width of IO was measured also in all cases. Results The mean EOD measured by 3D TVS was significantly shorter than that measured using the 2D TVS. Anterolateral/posterolateral and lateral placentas were associated with high discrepancy in measurements between both methods, being the highest with lateral group. There was significant positive correlation between the IO width and the degree of difference between the EOD measured by both methods. Conclusions Two dimensional TVS may not be accurate in EOD measurements in many cases of low-lying placentas, and 3D TVS may increase the accuracy of measurements in these cases. This new method is simple, precise and easily applied.
topic Low-lying
Placenta
Distance
Three-dimensional
Ultrasound
url http://link.springer.com/article/10.1186/s12884-018-2107-4
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