par Vrensen, Gijs F J M G.;Willekens, Ben L J C B.;Mataw, I.;Van Geertruyden, Marthe 
;Swinnen, Melissa
Référence Graefe's archive for clinical and experimental ophthalmology, 219, 2, page (80-91)
Publication Publié, 1982-08
;Swinnen, MelissaRéférence Graefe's archive for clinical and experimental ophthalmology, 219, 2, page (80-91)
Publication Publié, 1982-08
Article révisé par les pairs
| Résumé : | The destructive effect of nonperforating argon laser coagulations in the brown irides of rabbits was studied with quantitative histological methods. Power, spot size, and exposure time were systematically varied. The lateral and axial extensions of the crater and the denaturation of the adjacent tissue were studied. The main conclusions are: (1) the extent of tissue damage is significantly correlated with power and spot size, though the correlation is not proportional; (2) the lateral extension of the tissue reaction is far more pronounced than the axial extension; (3) increase in exposure time is effective up to 0.2 s, though a further increase up to 0.5 s does not enhance the tissue reaction. It is discussed that for conventionally switched lasers the main determinant for the final extension of the lesion is the density and distribution of the pigment granules within the iris. The radial distribution of the protrusions of the melanocytes in brown irides of the rabbits used in this study favors the lateralization of the tissue reaction. The nonlinearity of the tissue reaction and exposure time might be due to the fact that after initial damage in early phases of irradiation (e.g., up to 50 or 100 ms, the absorbed laser energy is dissipated in already destroyed tissue. Some practical aspects for iridectomy are discussed. © 1982 Springer-Verlag GmbH & Co. KG, Berlin Heidelberg. |
