Three‐Dimensional Vascular Indices Calculated Using Conventional Power Doppler and High‐Definition Flow Imaging

Objective. The purpose of this study was to determine whether there are differences in 3‐dimensional (3D) vascular indices when calculated using high‐definition flow imaging (HDF) and power Doppler imaging (PD). Methods. Twenty‐five consecutive asymptomatic premenopausal women (mean age, 31 years; range, 28–33 years) without a history of gynecologic disease who attended routine gynecologic checkups were included in the study. All women had regular menstrual cycles, and none had uterine or myometrial disease detected on basal transvaginal sonography. All women underwent 3D transvaginal sonography. In each patient, a first volume using conventional PD was obtained, immediately followed by a second volume using HDF. Volumes were stored and subsequently analyzed for calculating 3D vascular indices (vascularization index [VI], flow index [FI], and vascularization‐flow index [VFI]) from the endometrium. Results. The median VI, FI, and VFI were significantly higher when calculated using HDF compared with conventional PD (P < .05). Conclusions. Three‐dimensional vascular indices calculated using HDF are higher than those calculated using conventional PD.     

Three‐Dimensional Power Doppler Vascular Sonographic Sampling for Predicting Ovarian Cancer in Cystic‐Solid and Solid Vascularized Masses

Objective. The purpose of this study was to explore the role of 3‐dimensional (3D) power Doppler (PD) sonography to discriminate between benign and malignant cystic‐solid and solid vascularized adnexal masses and to define cutoff values for 3D PD indices to be used in a clinical setting. Methods. A total of 143 consecutive women (mean age, 50.4 years; range, 17–82 years) with diagnoses of cystic‐solid or solid vascularized adnexal masses on B‐mode and 2‐dimensional PD sonography were evaluated by 3D PD sonography before surgery. Three‐dimensional PD sonography was used to assess vascularization within papillary projections and solid areas with a virtual organ computer‐aided analysis program. Three‐dimensional PD vascular indices (vascularization index [VI], flow index [FI], and vascularization‐flow index [VFI]) were automatically calculated. A definitive histologic diagnosis was obtained in each case. Results. A total of 113 masses (74%) were malignant, and 39 (26%) were benign. Morphologic evaluation revealed 30 unilocular solid masses (19.7%), 43 multilocular solid masses (28.3%), and 79 mostly solid masses (52%). The mean VI (9.365% versus 3.3%; P < .001), FI (34.318 versus 28.794; P < .001), and VFI (3.233 versus 1.15; P < 0.01) were significantly higher in malignant tumors. No differences were found in the resistive index, pulsatility index, and peak systolic velocity. Receiver operating characteristic analysis revealed an area under the curve of 0.77 (95% confidence interval, 0.69–0.85), 0.71 (0.60–0.81), and 0.75 (0.66–0.83) for the VI, FI and VFI, respectively. For reducing the false‐positive rate by almost one‐third, sensitivity values for the VI (cutoff, 1.556%), FI (25.212), and VFI (0.323) were 92%, 95%, and 93%, respectively. Conclusions. Three‐dimensional PD vascular indices could be helpful for reducing the false‐positive rate in cystic‐solid and solid vascularized adnexal masses.     

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.     

三维能量多普勒超声与血管造影对比观察肿瘤血管

目的：与血管造影对比。评价三维能量多普勒超声在观察肿瘤血上的可靠性和对肿瘤定性诊断的准确性。方法：58例经病理证实的腹部肿瘤患者接受三维能量多普勒超声检查,其中肝细胞性肝癌25例。肾癌5例。肝转移癌16例,肝血管瘤8例,肾血管瘤4例。58例中28例在一周内进行血管造影。结果：三维多普勒超声显示出肿瘤周连粗大、弯曲的供血动脉向肿瘤内部延伸,在肝转移瘤病例,可见肿瘤周边正常粗细的敌国管受压变形、移位并环绕肿瘤,在肝血管瘤,表现为肿瘤内部无明显血管,肿瘤周围可见部分血管环绕。结论：肿瘤三维能量多普勒超声图像与篾这造影动脉期图像非常相似,能准确显示肿瘤内部及周连的血流情况。三维能量多普勒超声显示肿瘤积压流的明显差异有助于鉴别肿瘤的性质。     

Comparison of 3‐ and 2‐Dimensional Sonographic Techniques for Counting Ovarian Follicles

Objective. The purpose of this study was to compare 3‐dimensional (3D) and 2‐dimensional (2D) ovarian follicle counts and 3D counts using stored volumes between experienced and inexperienced operators. Methods. Follicles larger than 5 mm were counted on 1 randomly selected ovary. Two‐dimensional follicle counts were compared with stored 3D volumes by the same experienced operator (registered diagnostic medical sonographer [RDMS]). Counts using 3D stored data were compared between the experienced operator and inexperienced operator (principal investigator [PI]). The mean difference in follicle counts was computed, and a 1‐sample Student t test was performed to test the hypothesis that the mean of the differences was 0. Comparison of the 2 methods and observers by Bland‐Altman plots was used to determine any systematic differences based on the total number of follicles per selected ovary. Results. Mean differences differed from 0 (P < .005) for all 3 comparisons: 2D RDMS versus 3D RDMS, 2D RDMS versus 3D PI, and 3D RDMS versus 3D PI. For the comparison of 2D versus 3D counts done by the RDMS, 5 ovaries (10%) had a difference of more than 5 follicles counted; for the 2D RDMS versus 3D PI, 11 ovaries (22%) had a difference of more than 5 follicles; for the 3D RDMS versus 3D PI, 8 ovaries (16%) had a difference of more than 5 follicles. Mean differences in counts ranged 0.29 to 1.04 for ovaries with 10 or fewer follicles compared with 3.94 to 9.00 for ovaries with more than 10 follicles. Conclusions. Follicle counts using 3D volumes were similar to 2D counts, and 3D follicle counts done by an inexperienced operator were similar to counts done by an experienced sonographer.     

Influence of Gain Adjustment on 3‐Dimensional Power Doppler Indices and on Spatiotemporal Image Correlation Volumetric Pulsatility Indices Using a Flow Phantom

Spatiotemporal image correlation can be used to acquire 3‐dimensional power Doppler information across a single cardiac cycle. Assessment and comparison of the systolic and diastolic components of the data sets allow measurement of the recently introduced “volumetric pulsatility index” (vPI) through algorithms comparable with those used in 2‐dimensional Doppler waveform analysis. The vPI could potentially overcome the dependency on certain machine settings, such as power, color gain, pulse repetition frequency, and attenuation, since these factors would affect the power Doppler signal equally throughout the cardiac cycle. The objective of this study was to compare the effect of color gain on the vascularization index (VI), vascularization‐flow index (VFI), and vPI using an in vitro flow phantom model. We separated gains into 3 bands: ?8 to ?1 (no noise), ?1 to +5 (low noise), and +5 to +8 (obvious noise). The vPI was determined from the 3‐dimensional VI or VFI using the formula vPI = (maximum ? minimum)/mean. Using no‐noise gains, we observed that although the VI and VFI increased linearly with gain, the vPI was substantially less dependent on this adjustment. The VI and VFI continued to increase linearly with gain, whereas the vPI decreased slightly using low‐noise gains. When gain was increased above the lower limit of obvious noise (+5), the VI and VFI increased noticeably, and there were marked reductions in both vPI values. We conclude that the vPI is less affected by changes in color gain than the VI and VFI at no‐noise gains.     

Three‐Dimensional Sonographic Characteristics of Deep Endometriosis

Objective. The purpose of this presentation is to investigate the potential role of 3‐dimensional (3D) sonography in the assessment of deep endometriosis. Methods. Cases of deep endometriosis are presented to illustrate the spectrum of appearances obtained with 3D sonography. In addition, we evaluate the possible role of other functions included in 3D equipment, such as the niche mode and tomographic ultrasound imaging (TUI). Results. Three‐dimensional image rendering could allow a good analysis of the endometriotic nodule; in fact, in all presented cases, this reconstruction seems to clearly show the irregular shapes and borders of the lesions. This technique allows unrestricted access to an infinite number of viewing planes, which can be very useful for correctly locating lesions within the pelvis and evaluating the relationship with other organs. The stored 3D volumes can be reassessed and compared by the same or different examiners over time. This characteristic may be relevant for monitoring the effect of medical therapies over time. In the niche mode, sonographic imaging is represented as a “cut‐open” view of the internal aspect of the nodule and its surrounding tissue. This additional function, which is associated with TUI, could be particularly useful for evaluation of the extension of a nodule in the rectovaginal septum, the depth of infiltration, and the relationship with the rectosigmoid junction or ureter. Conclusions. In the near future, 3D sonography in deep infiltrating endometriosis could be an interesting mode of research with positive effects in everyday clinical practice.     

Reproducibility of Placental Volume and Vasculature Indices Obtained by 3‐Dimensional Power Doppler Sonography

Objective. The purpose of this study was to evaluate the reproducibility of 3‐dimensional (3D) power Doppler assessment of placental volumes and vascularization before adopting these in routine evaluation of normal and complicated pregnancies. Methods. A prospective study was performed on 30 normal singleton pregnancies from 11 to 14 weeks. To evaluate placental vascularization, 3D power Doppler sonography was applied to obtain a placental volume, and the volume acquired was analyzed using virtual organ computer‐aided analysis. Two consecutive measurements were taken from each patient by two observers blinded to each other's and the individual's previous measurement. This yielded a total of 60 data set pairs. The placental volume, vascularization index, flow index, and vascularization‐flow index (VFI) were calculated. Normal distribution of the data was confirmed with the Kolmogorov‐Smirnov test. Intraobserver and interobserver correlations were evaluated. Bland‐Altman plots and statistics were used to compare the 95% limits of agreement between measurements. Results. All 3D power Doppler placental volumes and vascular indices showed intraobserver correlations of 0.80 or higher. Similar excellent interobserver correlations were seen for all indices with the exception of the VFI, which showed a lower but acceptable correlation. The Bland‐Altman analyses indicated good reproducibility of the evaluated placental indices. Conclusions. Our findings provide validation of the technique, showing good reproducibility of the 3D power Doppler parameters when applied to studies of the placental volume and vascular tree.     

Three‐Dimensional Sonography in the Evaluation of Primary Hyperparathyroidism

Three‐dimensional sonography is useful in the preoperative evaluation of patients with primary hyperparathyroidism. In this pictorial essay, we review the characteristic spectrum of grayscale and Doppler appearances of parathyroid glands on 2‐dimensional sonography and demonstrate the additional benefits of 3‐dimensional scanning.     

Three-dimensional power Doppler vascular sampling: a new method for predicting ovarian cancer in vascularized complex adnexal masses.

OBJECTIVE: The purpose of this study was to explore the role of a new concept ("vascular sampling") as a third step to discriminate benign and malignant lesions in B-mode and color Doppler sonographically suggestive adnexal masses. METHODS: Forty-five women (mean age, 52.3 years; range, 17-82 years) with the diagnosis of complex adnexal masses on B-mode sonography were evaluated using 3-dimensional power Doppler sonography. Four women had bilateral masses. After a morphologic reevaluation was done, color pulsed Doppler sonography was used to obtain flow velocity waveforms, and velocimetric indices were calculated (resistive index, pulsatility index, and peak systolic velocity). Thereafter, 3-dimensional power Doppler sonography was used to assess vascularization of highly suggestive areas (gross papillary projections, solid areas, and thick septations), meaning a focused assessment ("sampling") of a suggestive area of the tumor. With a virtual organ computer-aided analysis program, vascular indices (vascularization index, flow index, and vascular flow index) were automatically calculated. A definitive histologic diagnosis was obtained in each case. RESULTS: Forty masses (82%) were malignant and 9 (18%) were benign. Morphologic evaluation revealed 10 (20%) unilocular solid masses, 20 (41%) multilocular solid masses, and 19 (39%) mostly solid masses. Blood flow was found in all cases. Median vascularization index (15.5% versus 8.2%; P = .002), flow index (33.6 versus 20.8; P = .007), and vascular flow index (5.2 versus 2.3; P = .001) were significantly higher in malignant tumors. No differences were found in resistive index (0.43 versus 0.45; P = .770), pulsatility index (0.62 versus 0.65; P = .694), and peak systolic velocity (15.6 versus 12 cm/s; P = .162). CONCLUSIONS: Three-dimensional power Doppler vascular sampling seems to be a promising tool for predicting ovarian cancer in vascularized complex adnexal masses. It could be better than conventional color pulsed Doppler imaging.     

Use of 3‐Dimensional Sonography for Prenatal Evaluation and Follow‐up of Fetal Goitrous Hypothyroidism

Objective. Fetal goitrous hypothyroidism is a rare and potentially lethal condition. Consequently, its early diagnosis and treatment improve prognosis. Thyroid hormone measurement in either fetal serum or amniotic fluid implies important risks. Here we present a fetal goiter and the follow‐up procedure, both done by the traditional method and by using 3‐dimensional power Doppler (3DPD) imaging and virtual organ computer‐aided analysis (VOCAL). Methods. A single well‐documented case of fetal goiter was followed weekly from 22 weeks until delivery. Amniocentesis for thyrotropin (TSH) and free thyroxine (T₄) measurement as well as levothyroxine injections were performed at every control. In addition to amniocentesis, every control involved a sonographic evaluation, which included standard measurements of the gland and the capture of volume image sets in gray scale and 3DPD. Volume calculation of the gland was done using VOCAL software. Vascularization of the gland was evaluated by the vascularization index (VI) included in the software. Results. With treatment, TSH levels decreased progressively until normalization. Free T₄ levels increased toward the end of gestation. Sonographic measurements of the gland volume to estimated fetal weight ratio decreased across treatment as levels of TSH did. The VI clearly depicted the vascular regression of the goiter, decreasing throughout treatment in a consistent way until 24 hours before delivery. Conclusions. Gray scale and 3DPD evaluations of the thyroid gland have been validated under similar circumstances and might be reliable complements to the invasive methods used in the management of this fetal condition.     

Three‐Dimensional Sonography of Biliary Tract Disorders

In this pictorial essay, we review the 3‐dimensional sonographic appearance of the normal gallbladder and biliary tree, as well as the appearance of congenital and acquired biliary tract disorders. Using examples, we demonstrate the advantage of 3‐dimensional scanning compared with 2‐dimensional sonography and, even in certain cases, magnetic resonance cholangiopancreatography.