June 1974
Volume 13, Issue 6
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Articles  |   June 1974
The Nature of Chorioretinal Lesions Produced by the Gallium Arsenide Laser
Author Affiliations
  • DOLPH O. ADAMS
    Joint AMRDC-AMC Laser Safety Team, Frankford Arsenal, Philadelphia, Pa. 19137; Department of Pathology, Duke University Medical Center, Durham, N. C. 27706
  • D. J. LUND
    Joint AMRDC-AMC Laser Safety Team, Frankford Arsenal, Philadelphia, Pa. 19137
  • PAUL D. SHAWALUK
    Joint AMRDC-AMC Laser Safety Team, Frankford Arsenal, Philadelphia, Pa. 19137
Investigative Ophthalmology & Visual Science June 1974, Vol.13, 471-475. doi:
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      DOLPH O. ADAMS, D. J. LUND, PAUL D. SHAWALUK; The Nature of Chorioretinal Lesions Produced by the Gallium Arsenide Laser. Invest. Ophthalmol. Vis. Sci. 1974;13(6):471-475.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

Technical modifications of the gallium arsenide laser have recently permitted its emission of sufficient power to produce ocular damage. The emitted radiation at 8,600 A is in the visible spectrum and, hence, primarily damages the retina. Ophthalmoscopically, the lesions are toroids of well-defined opacity surrounding small central circles of lesser opacity. The lesions are histopathologically characterized by extensive damage to pigment epithelium and outer retina. The damage is irregular, consisting of extensive damage at the periphery of the burns accompanied by relative sparing of the centers. Furthermore, damaged areas are circular despite an elliptical beam emitted from the laser. The lesions resolve by phagocytic removal of destroyed retina and by reconstitution of pigment epithelium; significant gliosis does not occur. These findings suggest the gallium arsenide laser damages the retina by thermal means, though producing peculiar lesions that are both circular and uneven.

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