High resolution computed tomography in evaluation of the temporal bone

High resolution computed tomography (CT) has been a mainstay in the preoperative evaluation of odontogenic lesions. Unsurpassed bony detail is complemented by exquisite delineation of t h e soft tissue mass itself. Our experience with these lesions is presented. Selected illustrations are supplement

## Abstract Special methods have been developed to use computed tomography (CT) for 3‐dimensional imaging of both fossil and extant bones. Most commercial CT scanners cannot display the internal structure of fossils because the very high density is beyond the upper limits of the normal CT number sc

Normal and pathologic anatomy of the soft tissues of the neck is clearly delineated with high resolution computed tomography (CT). The CT densities of soft tissues, fat, and enhanced blood vessels are strikingly different from each other and, therefore, mass lesions are clearly discernable. Often, a

## Abstract ## Objective To define the nature of structural bone changes in patients with rheumatoid arthritis (RA) compared with those in healthy individuals by using the novel technique of high‐resolution microfocal computed tomography (micro‐CT). ## Methods Fifty‐eight RA patients and 30 heal

A ll genetic and environmental factors, diseases, and therapeutic agents influencing the material composition and structure of bone do so via a final common pathway: bone modeling and remodeling. (1) This cellular machinery fashions and refashions bone throughout life by adding and removing bone mat