A new cerebral disorder, described in three unrelated children, has recognizable clinical, radiologic, and neuropathologic findings. The onset occurs from early infancy to adolescence with slowing of cognitive performance, rare convulsive seizures, and a mixture of extrapyramidal, cerebellar, and pyramidal signs. CT shows progressive calcifications in the basal and cerebellar gray nuclei and the central white matter. MRI reveals diffuse abnormal signals of the white matter on T2-weighted sequences. A special feature is the development of parenchymal cysts in the cerebellum and the supratentorial compartment, leading to compressive complications and surgical considerations. Neuropathologic examination of surgically removed pericystic samples reveals angiomatous-like rearrangements of the microvessels, together with degenerative secondary changes of other cellular elements. Both the anatomic findings and the course of the disease suggest a constitutional, diffuse cerebral microangiopathy resulting in microcystic, then macrocystic, parenchymal degeneration.
In L-CDH, SP as described represents a simple indirect measurement of intrathoracic position and quantification of liver.
PurposeTo evaluate the accuracy of ultrasonography and magnetic resonance imaging (MRI) in the diagnosis of placenta accreta and to define the most relevant specific ultrasound and MRI features that may predict placental invasion.Material and MethodsThis study was approved by the institutional review board of the French College of Obstetricians and Gynecologists. We retrospectively reviewed the medical records of all patients referred for suspected placenta accreta to two university hospitals from 01/2001 to 05/2012. Our study population included 42 pregnant women who had been investigated by both ultrasonography and MRI. Ultrasound images and MRI were blindly reassessed for each case by 2 raters in order to score features that predict abnormal placental invasion.ResultsSensitivity in the diagnosis of placenta accreta was 100% with ultrasound and 76.9% for MRI (P = 0.03). Specificity was 37.5% with ultrasonography and 50% for MRI (P = 0.6). The features of greatest sensitivity on ultrasonography were intraplacental lacunae and loss of the normal retroplacental clear space. Increased vascularization in the uterine serosa-bladder wall interface and vascularization perpendicular to the uterine wall had the best positive predictive value (92%). At MRI, uterine bulging had the best positive predictive value (85%) and its combination with the presence of dark intraplacental bands on T2-weighted images improved the predictive value to 90%.ConclusionUltrasound imaging is the mainstay of screening for placenta accreta. MRI appears to be complementary to ultrasonography, especially when there are few ultrasound signs.
Adnexal torsion is the fifth most common gynecologic surgical emergency, requiring clinician and radiologist awareness. It involves the rotation of the ovarian tissue on its vascular pedicle leading to stromal edema, hemorrhagic infarction, and necrosis of the adnexal structures with the subsequent sequelae. Expedient diagnosis poses a difficult challenge because the clinical presentation is variable and often misleading. Adnexal torsion can mimic malignancy as it can take a subacute, intermittent, or chronic course, and thereby can be complicated to diagnose. The torsion may occur in the normal ovary but is usually secondary to a preexisting adnexal mass. Early surgery is necessary to avoid irreversible adnexal damage and to preserve ovarian function especially in children and young women. Pelvic ultrasound forms the foundation of diagnostic evaluation due to its ability to directly and rapidly evaluate both ovarian anatomy and perfusion. Moreover, it is a noninvasive and accessible technique. However, the color Doppler appearance of the ovary should not be relied upon to rule out torsion because a torsed ovary or adnexa may still have preserved arterial flow due to the dual blood supply. MR and CT may be used as problem-solving tools needed after the ultrasound examination but should not be the first-line imaging modalities in this setting due to ionizing radiation and potential time delay in diagnosis. The goal of this article is to review the adnexal anatomy, to familiarize radiologists with the main imaging features, and to discuss the main mimickers and the most common pitfalls of adnexal torsion. Main points Adnexal torsion is an uncommon gynecological disorder caused by partial or complete rotation of the ovary and/or the Fallopian tube about the infundibulopelvic ligament. The ovaries receive a dual blood supply from the ovarian artery and uterine artery. The lack of pathognomonic symptoms and specific findings on physical examination makes this entity difficult to diagnose. Since the right adnexa are most commonly involved, symptoms may mimic acute appendicitis. Persistence of adnexal vascularization does not exclude torsion. In the pediatric age group, gray-scale ultrasound is the best modality of choice. Obtaining CT and/or MR images should not delay treatment in order to preserve ovarian viability.
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