The advent of the microscope in the operating room revolutionized neurosurgery. We traced the origin and evolution of this important invention from the first magnifying lens to its practical application in neurosurgery. The concept of magnification evolved from unexplained observations in ancient times to the invention of the microscope by the late 16th century. In the subsequent 3 centuries, scientists made technical advances that greatly improved the power and utility of the microscope. By the early 20th century, otolaryngologists became the first surgeons to use the microscope in clinical surgery. After World War II, ophthalmologists and vascular and plastic surgeons began using the microscope in the operating room, making further technical improvements. It was a relatively small group of pioneering neurosurgeons in the late 1950s and 1960s who transformed microneurosurgery from a revolutionary and unorthodox "experiment" into the standard of care in much of modern neurosurgery.
We emphasize the importance of a high index of suspicion, the potentially rapid and fatal course of the disease process, and the subsequent need for antibiotic therapy and selective surgery.
This case provides supporting evidence for the traumatic etiology of spinal intradural arachnoid cyst. The development of an intradural spinal arachnoid cyst should be included as a possible complication of lumbar puncture.
We review the biomechanics of the pediatric cervical spine and the clinical findings that pertain to SCIWORA (spinal cord injury without radiographic abnormality) in order to provide a more thorough understanding of this pediatric phenomenon of closed spinal trauma with significant neurologic sequelae but without bony injury. The unique hypermobility and ligamentous laxity of the pediatric bony cervical and thoracic spine predispose to a SCIWORA-type injury. In SCIWORA, the unusually elastic biomechanics of the pediatric bony spine allow deformation of the musculoskeletal structures beyond physiologic extremes, permitting direct cord trauma followed by spontaneous reduction of the bony spine. Potential mechanisms of the SCIWORA include hyperextension/flexion, longitudinal distraction, and ischemic injury of the spinal cord.
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