Neuroimaging clinics of North America
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Knowledge of relevant anatomy and underlying mechanisms of traumatic injury is essential for understanding the radiologic findings in craniofacial trauma and their clinical importance. Craniofacial anatomy is diverse, and as a result of this anatomic diversity, physicians from numerous different specialties scrutinize similar imaging sets, looking for different pathologic abnormalities within the same anatomic regions. Radiologists familiar with the chief concerns of this anatomically diverse region can help expedite the decision-making process by keeping those concerns in mind when they report their findings. This review provides an overview of situations wherein surgical management may be indicated.
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Temporal bone trauma is commonly seen in patients with craniofacial injury and can be detected using multidetector computed tomography. A thorough understanding of the different types of temporal bone fracture patterns is needed to accurately describe the trajectory of injury as well as anticipated complications. Fractures should be described based on direction, segment of temporal bone involved, as well as involvement of the otic capsule. More importantly, the radiologist plays an integral role in identifying complications of temporal bone injury, which often have significant clinical implications.
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Basilar skull fractures are a relatively frequent occurrence in significant head trauma, and their detection is important, as even linear nondisplaced fractures can be associated with critical complications. The management of skull base fractures depends on the location and extent of these associated complications. This article reviews skull base anatomy; morphology of the common fracture patterns within the anterior, central, and posterior skull base; associated complications; imaging findings; and possible pitfalls in imaging of skull base trauma.
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This article reviews the importance of particular radiologic findings related to facial trauma and their implications for clinical and surgical management. An emphasis is placed on critical imaging signs that warrant immediate surgical attention.
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Significant progress has been made recently in the recognition, screening, diagnosis, and treatment of blunt cerebrovascular vascular injury (BCVI). Although controversy still exists as to optimal screening algorithms and best diagnostic modality, the vital and growing role of noninvasive imaging in identifying patients at high risk for BCVI and in characterizing the injury itself has been clearly established. There has been promising early work in stratifying BCVI patients into risk categories by initially evaluating them with high-resolution head, maxillofacial, and cervical computed tomographic examinations with the ultimate goal of maximizing diagnostic yield and enabling prompt initiation of therapy.