Trauma of the spine and spinal cord: imaging strategies

Traumatic injuries of the spine and spinal cord are common and potentially devastating lesions. We present a comprehensive overview of the classification of vertebral fractures, based on morphology (e.g., wedge, (bi)concave, or crush fractures) or on the mechanism of injury (flexion-compression, axial compression, flexion-distraction, or rotational fracture-dislocation lesions). The merits and limitations of different imaging techniques are discussed, including plain X-ray films, multi-detector computed tomography (MDCT), and magnetic resonance imaging (MRI) for the detection. There is growing evidence that state-of-the-art imaging techniques provide answers to some of the key questions in the management of patients with spine and spinal cord trauma: is the fracture stable or unstable? Is the fracture recent or old? Is the fracture benign or malignant? In summary, we show that high-quality radiological investigations are essential in the diagnosis and management of patients with spinal trauma

Whole-Body MRI in Pediatric Oncology

Whole-body imaging plays a crucial role in the diagnosis and follow-up of pediatric malignancies, as tumor spread may involve different anatomical regions. Until recently, ultrasonography (US) and computed tomography (CT) have been the imaging technique of choice in children with cancer, but nowadays there is an increasing interest in the use of functional imaging techniques like single-photon emission computed tomography (SPECT) and positron emission tomography (PET). By combining these latter techniques with CT, it becomes possible to simultaneously acquire imaging data on the biological behavior of tumor as well as the anatomical localization and extent of tumor spread. Because of the small but not negligible risk of radiation-induced secondary cancers and the significantly improved overall survival rates of children with cancer, there is an increasing interest in the use of radiation-free imaging techniques such as magnetic resonance imaging (MRI). MRI allows for acquiring images with a high spatial resolution and excellent soft tissue contrast throughout the body. Moreover, recent technological advances have resulted in fast diagnostic sequences for whole-body MR imaging, including functional techniques such as diffusion-weighted imaging (DWI). In this chapter, the current status of the technique, major clinical applications, and future perspectives of whole-body MRI in children with cancer will be discussed