Four patients who had received chymopapain injections for treatment of herniated lumbar disks were evaluated by computed tomography (CT) because of persistent low back pain and suspicion of infection. Irregularity of the vertebral end-plate and a mottled appearance of the vertebral bodies suggested the diagnosis of disk-space infection in all four cases. CT-guided biopsy of the disk space was performed in each case, and bacterial cultures demonstrated staphylococcal infections, which were treated accordingly. Diskitis secondary to chymopapain injection is rare because of the precautions that are usually taken. No antibiotics are used routinely with such injections, although systemic antibiotics have been used in diabetics for prophylaxis.
Trauma from high-speed motor vehicle accidents is a leading cause of death and disability. Most of these injuries could be prevented if the driver and occupants of motor vehicles wore seat belts or used other restraining devices. The injuries produced when an unrestrained occupant of a motor vehicle is ejected from that vehicle or impacts on a hostile surface at high speed occur in a reproducible pattern. The types of injuries sustained by drivers and front seat passengers are different and specific enough to allow one to identify drivers and passengers with confidence. Because of severe life-threatening injuries to the central nervous system, and thoracic and abdominal viscera, other serious injuries may be overlooked. Knowledge of the mechanism of injury and the role of the victim (i.e., driver or passenger) should lead to the prompt radiographic evaluation of all areas at risk. Our findings are based on a study of 250 drivers and 250 front seat passengers involved in motor vehicle accidents. We found distinct common injury patterns and radiographic findings in drivers and front seat passengers.
Spiral computed tomography (CT) performed during arterial portography offers several advantages compared with portographic studies based on conventional CT technique. Because all hepatic images are derived from a volume data set acquired during a single 24-32-second breath hold timed to coincide with the phase of peak hepatic enhancement, motion artifacts and section misregistration are eliminated and high liver-to-lesion attenuation value differences are present on all sections. These factors, in conjunction with the ability to retrospectively acquire thin, overlapping axial sections, result in improved lesion detection. The ability to produce high vein-to-liver attenuation value differences and two-dimensional multiplanar reconstructions simplifies the identification of hepatic segments and therefore lesion localization. A limitation of all CT portographic methods is the frequent occurrence of nontumorous perfusion defects that, in most cases, demonstrate characteristic locations and appearances. Performing delayed CT following portography is one method by which such pseudolesions may be characterized and differentiated from focal pathologic entities.
