L A Sether scite author profile

Zones of high and low signal intensity on magnetic resonance (MR) images of articular cartilage were correlated with the four histologic zones normally found in such cartilage. Grossly normal articular cartilage from knees and ankles of a fresh cadaver were used in the study. The three zones identified on MR images included a low-intensity zone near the articular surface, a zone of higher signal intensity next to that, and a second zone of low intensity that was deep to the two others. The location of the superficial low-intensity zone corresponded to dense, tangentially oriented layers of collagen in the superficial histologic zone. Higher signal intensity deep to the superficial low-intensity zone correlated with cartilage in the transitional zone. The deep low-intensity zone correlated with a combination of deep radiate and calcified cartilage and cortical bone. Results of this study indicate that, with high resolution, MR imaging may demonstrate three zones of differing signal intensity in articular cartilage. The superficial low-intensity zone may be a useful marker of the surface of normal articular cartilage.

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The Primate Globus Pallidus and its Feline and Avian Homologues: A Golgi and Electron Microscopic Study

Fox

Hillman

Siegesmund

et al. 1966

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Intervertebral disk: normal age-related changes in MR signal intensity.

Sether¹,

Yu²,

Haughton³

et al. 1990

Radiology

107

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The effect of age on the signal intensity of normal lumbar intervertebral disks was studied. Twenty-seven cadavers ranging in age from newborn to 79 years were studied with use of a 1.5-T magnetic resonance (MR) imager within 48 hours of death. The signal intensity in the central area of the disk was measured on a sagittal image obtained with a long repetition time (TR) and a long echo time (TE) and correlated to the age. A significant correlation between the decrease in signal intensity and age was found, although signal intensity changed less than 6% in 80 years. The decrease in signal intensity is concomitant with decreases in water and glycosaminoglycans and increases in collagen in the disk.

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Criteria for classifying normal and degenerated lumbar intervertebral disks.

Haughton²,

Sether³

et al. 1989

Radiology

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The purpose of this study was to develop criteria for distinguishing normal and degenerated lumbar intervertebral disks. Cryomicrotome sections from and magnetic resonance images of 31 cadavers were reviewed. The immature nucleus pulposus, found up to age 2 years; the transitional nucleus pulposus, found in teenagers; and the adult nucleus pulposus were associated with an intact anulus fibrosus without tears except for small concentric or transverse tears in the periphery of the anulus fibrosus. Discoloration of the nucleus pulposus, diminishing disk height, and diminishing signal intensity were associated consistently with a radial tear of the anulus fibrosus. The severely degenerated nucleus pulposus was associated also with a radial tear or complete disruption of the anulus fibrosus. The results suggest that intervertebral disk normally progresses from the immature to the transitional to the adult nucleus pulposus. When a radial tear develops in the anulus there is shrinkage and disorganization of fibrocartilage in the nucleus pulposus and replacement of the disk by dense fibrous tissue and cystic spaces.

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Anatomical Details of the Osseous-Cartilaginous Framework of the Nose

Natvig

Sether

Gingrass

et al. 1971

Plastic and Reconstructive Surgery

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L A Sether

Articular cartilage: correlation of histologic zones with signal intensity at MR imaging.

The Primate Globus Pallidus and its Feline and Avian Homologues: A Golgi and Electron Microscopic Study

Intervertebral disk: normal age-related changes in MR signal intensity.

Criteria for classifying normal and degenerated lumbar intervertebral disks.

Anatomical Details of the Osseous-Cartilaginous Framework of the Nose

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