Basic sonographic examination of the fetal brain at 11-13 weeks' gestation: Rationale for a simple and reliable four-step technique.

The widespread incorporation of first-trimester scanning between 11 and 13 weeks' gestation has shifted from the screening of chromosomal abnormalities, mainly by measuring nuchal translucency thickness and visualization of the nasal bone, to a more detailed study of the fetal anatomy leading to early detection of several structural congenital anomalies. This goal can be improved by the routine and focused sonographic assessment of specific anatomic planes and the identification of distinctive landmarks that can help disclosing a particular, non-evident condition. In this article we present the basis for a basic, early examination of the fetal brain during screening using a four-step technique, which can be readily incorporated during the first-trimester scan.

Factors Associated with a Post-Procedure Spontaneous Pregnancy after a Hysterosapingo-Foam-Sonography (HyFoSy): Results from a Multicenter Observational Study.

Background: Tubal patency testing constitutes an essential part of infertility work-up. Hysterosalpingo-foam-sonography (HyFoSy) is currently one of the best tests for assessing tubal patency. The objective of our study was to evaluate the post-procedure rate of spontaneous pregnancy among infertile women submitted for an HyFoSy exam with ExEm foam and the factors associated with this.

The Rule of 10: a simple 3D ultrasonographic method for the diagnosis of T-shaped uterus.

Purpose: To investigate and propose a new simple tridimensional (3D) ultrasonographic method to diagnose a T-shaped uterus (Class U1a).

Methods: A multicenter non-experimental case-control diagnostic accuracy study was conducted between January 2018 and December 2019, including 50 women (cases) diagnosed with T-shaped uterus (U1a class) and 50 women with a "normal uterus" (controls). All the enrolled women underwent 3D ultrasound, drawing four lines and recording the length of three of them as follow: draw and measure the interostial line (R0); draw from the midpoint of R0 a perpendicular line length 20 mm; draw and measure in the uterine cavity a line parallel to R0 at 10 mm below R0 (R10) and a second line parallel to R0 at 20 mm below R0 (R20).

Real-Life Diagnostic Accuracy of MRI in Prenatal Diagnosis.

There is some controversy about the value of fetal MRI in prenatal diagnosis, and most of the studies examine its accuracy in central nervous system (CNS) pathology. The objective of this retrospective study was to assess the diagnostic accuracy and usefulness of fetal MRI in the prenatal diagnosis of central nervous system (CNS) pathology and non-CNS pathology. Patients referred to the Radiology Department between 2007 and 2018 for a fetal MRI after detection of an anomaly in the fetal ultrasound, a high-risk pregnancy, or an inconclusive fetal ultrasound ( = 623) were included in the study.

First-trimester sonographic diagnosis of sirenomelia: A multicenter series of 12 cases and review of the literature.

Objective: To determine the key sonographic features for the diagnosis of sirenomelia in the first trimester of pregnancy.

Methods: Cases of sirenomelia from several prenatal diagnosis centers were retrospectively identified and reviewed. The diagnosis was established through the detection of fused lower limbs.

Fetal intracranial hemorrhage. Prenatal diagnosis and postnatal outcomes.

Objective: To present our experience with 14 cases of fetal intracranial hemorrhage (ICH).

Methods: Cases of fetal ICH detected in our institution between 2005 and 2016 by ultrasonography. Maternal characteristics, ultrasound and MRI findings, and postnatal outcome were noted.

Brainstem-vermis and brainstem-tentorium angles: 3D ultrasound study of the intra- and inter-observer agreement.

Objective: The brainstem-vermis angle (BVA) and the brainstem-tentorium angle (BTA) have been proposed to quantify vermian and tentorial alterations associated to fetal posterior fossa malformations. Our objective is to evaluate the intra- and inter-observer agreement for the measurement of these angles during the prenatal ultrasound scan.

Methods: Fifteen 3 D sets from fetuses with posterior fossa pathology were processed by multiplanar navigation.

Biparietal diameter-to-crown-rump length disproportion in first-trimester fetuses with holoprosencephaly.

Objectives: To determine whether the biparietal diameter measurement is altered in first-trimester fetuses with holoprosencephaly.

Methods: Cases of holoprosencephaly were collected retrospectively from 4 fetal medicine centers, and first-trimester biparietal diameter measurements were reviewed. The diagnosis of holoprosencephaly was established sonographically by the detection of abnormal choroid plexus morphologic characteristics (absent "butterfly" sign) and the identification of a monoventricular cerebral cavity on axial views of the fetal brain.

MR imaging of thoracic abnormalities in the fetus.

In recent years, with the development of ultrafast sequences, magnetic resonance (MR) imaging has been established as a valuable diagnostic modality complementary to ultrasonography (US). MR imaging offers several technical advantages over US, including a larger field of view, fewer limitations due to maternal habitus, and the ability to visualize fetal anatomy regardless of fetal presentation. The authors discuss the most frequently found thoracic abnormalities, including congenital diaphragmatic hernia, congenital cystic adenomatoid malformation, bronchopulmonary sequestration, bronchogenic cyst, congenital high airway obstruction syndrome, and bronchial obstruction by a mucus plug, specifically with respect to the effect of fetal MR imaging on diagnosis and treatment.

First-trimester assessment of the fetal palate: a novel application of the Volume NT algorithm.

We describe a new technique that can facilitate the first-trimester examination of the fetal palate using the Volume NT algorithm (Samsung Medison, Seoul, Korea), a program that automatically detects the exact midsagittal plane of the head and is primarily designed for semiautomatic measurement of the nuchal translucency thickness. Three-dimensional (3D) data sets from the fetal face were captured with Volume NT and subsequently reformatted with the Oblique View software to obtain orthogonal views of the primary and secondary palate in coronal and axial planes, respectively. By testing this method in selected 3D data sets obtained retrospectively (n = 12) and prospectively (n = 28), we were able to extract clinically acceptable views of the fetal palate in all cases.

Fetal magnetic resonance imaging and three-dimensional ultrasound in clinical practice: applications in prenatal diagnosis.

Three-dimensional ultrasound and magnetic resonance imaging are powerful imaging techniques that are used increasingly in evaluating fetal anatomy. In this chapter, we review the main applications of these imaging modalities in current practice and present an overview of the malformations that may benefit from assessment with three-dimensional ultrasound and magnetic resonance imaging.

Fetal magnetic resonance imaging and three-dimensional ultrasound in clinical practice: general aspects.

Ultrasonography is used routinely during pregnancy to screen and diagnose fetal anomalies. Two-dimensional ultrasound is usually adequate in women at low risk for malformations. When technical factors limit optimal evaluation or a malformation is suspected, further imaging with three-dimensional ultrasound and magnetic resonance imaging is becoming increasingly common.

Intracranial translucency at 11-13 weeks of gestation: prospective evaluation and reproducibility of measurements.

Objective: This paper aimed to determine the feasibility of identification and measurement reproducibility of intracranial translucency (IT) in our population.

Methods: This is a prospective study in which five accredited operators attempted to identify and measure the IT during first-trimester sonographic screening for aneuploidy in 990 fetuses. The presence or absence of spina bifida was determined at the time of the second-trimester scan or after birth.

Feasibility of 3-dimensional sonographic examination of the fetal secondary palate during the second-trimester anatomy scan.

Objectives: To determine the feasibility of obtaining adequate 3-dimensional (3D) data sets to examine the fetal secondary palate during the second-trimester anatomy scan.

Methods: During a 3-month period, 3D data sets of the fetal secondary palate were obtained from consecutive women undergoing routine second-trimester scans. Only structurally normal singleton fetuses with a normal upper lip on 2-dimensional (2D) sonography were included.

Antenatally diagnosed renal duplex anomalies: sonographic features and long-term postnatal outcome.

Objectives: The purpose of this study was to assess the diagnostic accuracy and infant outcomes of antenatally detected renal duplex anomalies.

Methods: An observational longitudinal study of cases of renal duplex anomalies diagnosed on prenatal sonography was conducted. Information on the prenatal sonographic findings, antenatal course, and perinatal outcome was obtained by reviewing the sonography reports and delivery records.

First-trimester assessment of the nasal bones using the retronasal triangle view: a 3-dimensional sonographic study.

Objective: The purpose of this study was to evaluate a new sonographic technique for identifying the nasal bones using the retronasal triangle view, ie, the coronal plane at which the palate and frontal processes of the maxilla are simultaneously visualized.

Methods: Three-dimensional (3D) volumes were acquired from women undergoing first-trimester sonographic screening for aneuploidy by 2 accredited operators. Those data sets in which the fetal face was clearly identified were selected for offline analysis by 2 other observers who were unaware of the sonographic or clinical findings.