Ultrasound to Evaluate Neonatal Spinal Dysraphism: A First-Line Alternative to CT and MRI.

The embryologic development of the spinal cord is a remarkably complex process. Spinal abnormalities can occur in isolation or be part of a clinical syndrome commonly summarized as spinal dysraphism. Proper evaluation of spinal malformations with imaging is required for early diagnosis prior to counseling and selection of postnatal treatment options. The preferred imaging modality of the spine in newborns up to 3 months of age are ultrasound (US) and magnetic resonance imaging (MRI). The diagnostic workup should preferably start with the safe, minimal invasive (no need for sedation), cost-effective, and bedside US as a screening procedure. On the other hand, need for sedation, thermal instability of infants, and high cost make the use of spinal MRI impracticable for screening purposes. US is also a well-established imaging modality to investigate the spinal cord and canal during pregnancy. It is critical to follow a strict protocol in an attempt to precisely identify all imaging findings, one should be familiar with the normal ultrasonographic appearance of bony and soft tissue structures in the various planes and one should be able to correlate the abnormal findings with spinal cord embryology as it aids in identifying the etiology. US should be considered as a first-line imaging for neonates suspected of spinal anomalies. In this article, we discuss up-to-date US technique of the spine, the most frequently encountered neonatal spinal malformations seen with US and correlate these findings with the relevant embryologic processes.

Advanced Pediatric Neurosonography Techniques: Contrast-Enhanced Ultrasonography, Elastography, and Beyond.

Recent technical advances in neurosonography continue broadening the diagnostic utility, sensitivity, and specificity of ultrasound for detecting intracranial abnormalities bed side. The clinical and functional applications of neurosonography have significantly expanded since the 1980s when transcranial Doppler sonography first allowed anatomic and hemodynamic delineation of the intracranial vessels through the thin temporal skull. In the past few years, contrast-enhanced ultrasonography, elastography, 3D/4D reconstruction tools, and high-resolution microvessel imaging techniques have further enhanced the diagnostic significance of neurosonography. Given these advances, a thorough familiarity with these new techniques and devices is crucial for a successful clinical application allowing improved patient care. It is essential that future neurosonography studies compare these advanced techniques against the current "gold standard" computed tomography and magnetic resonance imaging to assure the accuracy of their diagnostic potential. This review will provide a comprehensive update on currently available advanced neurosonography techniques.

Lumps and Bumps of the Neck in Children-Neuroimaging of Congenital and Acquired Lesions.

Neck masses present as palpable lumps and bumps in children with acquired lesions more common than congenital ones. Assessment of the anatomical site of origin, signal, and contrast enhancement characteristics may help define the etiology of the lesions, eg, developmental, inflammatory, vascular, or neoplastic. The age of the patient along with detailed clinical history and physical exam findings are important element to narrow down the differential diagnosis. The correct final diagnosis is essential to guide treatment as well as the urgency of intervention. The objective of this review is to define the characteristic location, classic and differentiating imaging features of the most frequent congenital and acquired cervical lumps and bumps in the pediatric population.

Neonatal head ultrasonography today: a powerful imaging tool!

Head ultrasonography (HUS) remains an important tool in the initial evaluation of intracranial abnormalities in infants. In experienced hands, HUS is an outstanding tool to detect brain abnormalities in preterm and full-term infants, to follow the progression of these lesions, and to describe the maturation of the infant brain. We believe it is a safe and cost-efficient alternative to magnetic resonance imaging and computerized tomography in many cases. In this article we discuss the HUS techniques that are currently available and are now the standard of care, how to perform them, and what to look for. We describe a variety of findings that may be encountered including hemorrhagic complications of prematurity, hypoxic ischemic brain injury, neonatal stroke, infections, malformations, neoplasms, and a few more rare neonatal pathologies.