Three‐Dimensional Color‐Coded Duplex Sonography for Assessment of the Vertebral Artery Origin and Vertebral Artery Stenoses

Objective . The aim of the study was to assess the potential of 3‐dimensional (3D) color‐coded duplex sonography (CDS) for evaluation of the vertebral artery origin and stenoses in this location. Methods. To compare 2‐dimensional (2D) and 3D CDS, both techniques were performed in 25 healthy volunteers and in 18 patients with 21 stenoses of the vertebral artery origin. Stenoses were graded in line with hemodynamic criteria on 2D CDS and according to North American Symptomatic Carotid Endarterectomy Trial criteria on 3D CDS. In 6 patients, digital subtraction angiography (DSA) was performed additionally. Stenoses were graded according to North American Symptomatic Carotid Endarterectomy Trial criteria and compared with 2D and 3D sonographic data. Results. Overall correlation of both sonographic techniques concerning the grading of the stenoses was good (r = 0.69; P < .01). The interobserver correlation for assessment of stenoses by means of 3D CDS was high (r = 0.94; P < .01). Three‐dimensional CDS correlated excellently with DSA in 3 of 6 patients but showed only intermediate or no correlation in the remaining 3 patients. In contrast, spatial information on the stenotic morphologic characteristics was always very comparable with the results obtained by DSA. Conclusions. Three‐dimensional CDS represents a valuable tool for assessment of the origin of the vertebral artery, allowing important morphologic information on stenoses in this location. For grading of stenoses of the vertebral artery origin, 3D information should be combined with hemodynamic criteria obtained by spectral Doppler imaging in 2D CDS. Three‐dimensional CDS could be a valuable tool before interventional procedures of the proximal vertebral artery, saving time and avoiding iodinated contrast agents.     

Two cases of vasa previa diagnosed prenatally using three‐dimensional ultrasonography

We report two cases in which we describe the impact of sonography (US) in the management of vasa previa. In the first case, with two‐dimensional US, the diagnosis of vasa previa was made at 21 weeks gestation. In the second case, using three‐dimensional US, the diagnosis of vasa previa was made at 19 weeks gestation. An elective Cesarean section was carried out at 34 weeks in both cases. Diagnosis of vasa previa is critical when low‐lying placenta or velamentous insertion of the umbilical cord is detected during the pregnancy. © 2010 Wiley Periodicals, Inc. J Clin Ultrasound 38:389‐392, 2010     

Three‐Dimensional Power Doppler Assessment of Uterine Vascularization in Women With Primary Dysmenorrhea

Objective. The aim of this study was to assess myometrial vascularization with 3‐dimensional (3D) power Doppler angiography (PDA) in women with different grades of primary dysmenorrhea at the moment of maximum menstrual pain in an effort to improve the pathophysiologic knowledge of one of the most common gynecologic conditions. Methods. This was a cross‐sectional study involving 70 voluntary women that studied or worked at the Clinica Universitaria de Navarra between January 2006 and January 2008. All women underwent transvaginal sonographic 3D PDA on the day of maximum pain after the onset of menstruation or during the first 24 to 48 hours of the new cycle if no pain was present. Three groups were defined according to a visual analog scale: no pain to mild dysmenorrhea, moderate dysmenorrhea, and severe dysmenorrhea. Vascularity assessment was done on the basis of 3D vascularity indices: the vascularization index (VI), flow index (FI), and vascularization‐flow index (VFI). Results. The mean VI and VFI for the inner 5 mm of the myometrium and the total myometrium were significantly higher in the women with severe dysmenorrhea than in those with no pain to mild dysmenorrhea (P < .05). The VI, FI, and VFI in the women with moderate dysmenorrhea did not differ significantly from those in the women with severe dysmenorrhea. Conclusions. This study evaluated the use of 3D PDA for assessing uterine and specifically myometrial vascularization. Our data indicate that women with severe dysmenorrhea have increased myometrial vascularization during the early menstrual phase compared with women without pain.     

Usefulness of Renal Volume Measurements Obtained by a 3‐Dimensional Sonographic Transducer With Matrix Electronic Arrays

Objective. The purpose of this study was to examine the feasibility of 3‐dimensional (3D) sonography using a matrix array transducer to measure renal volume. Methods. One hundred consecutive patients with a normal serum creatinine level and kidney appearance on computed tomography (CT) performed within 2 months before sonography were enrolled in this study. Two hundred individual renal volumes were blindly obtained by the ellipsoid formula, the stacked ellipse method, the voxel count method using routine 2‐dimensional (2D) sonographic data, 3D sonographic data using a matrix array transducer, and CT data, respectively. The voxel count method was validated as the reference standard by the water displacement method in 10 cadaveric pig kidneys (r = 0.99; P < .001). Renal volumes determined by 2D and 3D sonography were compared with volumes determined by CT. Results. Volumes determined by 2D sonography were significantly lower than those determined by CT (P < .001) but similar to those determined by 3D sonography (P = .78). The percent volume error of 3D sonography (mean ± SD, ?2.2% ± 3.7%) was significantly lower than that of 2D sonography (?15.7% ± 11.8%) with CT as the standard (P < .001). The correlation coefficient between 3D sonography and CT (r = 0.98; P < .0001) was better than that between 2D sonography and CT (r = 0.83; P < .0001). In addition, Bland‐Altman analysis revealed that the limits of agreement between 3D sonography and CT (?9.7% to 5.1%) were narrower than those between 2D sonography and CT (?45.6% to 9.8%). Conclusions. Three‐dimensional sonography with a matrix array transducer can significantly reduce renal volume measurement errors and offers a reliable means of determining renal volumes.     

Evaluation of Vaginal Cysts and Masses by 3‐Dimensional Endovaginal and Endoanal Sonography

The purpose of this pictorial essay is to describe the utility of 3‐dimensional endovaginal and endoanal sonography in the assessment of vulvovaginal cysts and masses. It is accepted that compared with transabdominal pelvic sonography, transvaginal end‐fire sonography provides improved resolution for visualization of female reproductive organs with fewer artifacts. To visualize the structures that are located in or lateral to the vaginal canal, side‐fire 3‐dimensional endovaginal or endoanal sonography can be used. This special technique has the advantage of maintaining the spatial anatomic relationship of any abnormality in the vagina.