Szemészet, 1993 (130. évfolyam, 1-4. szám)
1993-05-01 / 2. szám
Szemészet, 130 (1993) 69 szövettani Intézetében, hogy az endothel tenyészetek scanning elektronmikroszkópos vizsgálatainak elvégzésében segítségünkre voltak. Köszönetünket fejezzük ki a Szent-Györgyi Albert OTE Kísérletes Sebészeti Intézet vezetőjének és munkatársainak, hogy számunkra a szövettenyésztéshez szükséges technikai feltételeket biztosították. Irodalom 1. Fujikawa LS, Foster CS, Harnst TJ, LaniganJM, Colvin RB: Fibronectin in healing rabbit corneal wounds Lab Invest 45; 120-126 (1981). 2. Gordon SR: Changes in distribution of extracellular matrix proteins during wound repair in corneal endothelium. J. Histochem Cytochem36, 409-416(1988). 3. Gordon SR, Rothstein H, Harding CV: Studies on corneal endothelial growth and repair IV. Changes in the surface during cell division as revealed by scanning electron microscopy. Eur J. Cell Biol 31, 26-35 (1983). 4. Gospodarowicz D, Greenburg G, Alvarado J: Transplantation of cultured bovine endothelial cells to species with nonregenerative endothelium. Arch. Ophthalmol 97, 2163-2169 (1979). 5. Gospodarowicz D, Greenburg G, Vlodavsky I, Alvarado J, Johnson LK: The identification and localization of fibronectin in cultured corneal endothelial cells: cell surface polarity and physiological implications. Exp. Eye Res29, 485-509 (1979). 6. Grinnell F: Fibronectin and wound healing. J. Cell Biochem 26, 107 (1984). 7. Kay EDP: Expression of types I. and IV. collagen genes in normal and in modulated corneal endothelial cell. Invest Ophthalmol Vis Sei 20, 260-268(1989). 8. Kay EDP: Rabbit corneal endothelial cells modulated by polymorphonuclear leukocytes are fibroblasts. Invest Ophthalmol Vis Sei 27, 891-897 (1986). 9. Lazarides E: Intermediate filaments as mechanical integrators of cellular space. Nature, 283, 249-256 (1980). 10. Lehto VP, Virtanen I, Kurki P: Intermediate filaments anchor the nuclei in nuclear monolayers of cultured human fibroblasts. Nature, 272, 175-177(1978). 11. NayakSK, Samples JR, DegJK, Binder PS: Growth characteristics of primate (baboon) corneal endothelium in vitro. Invest Ophthalmol Vis Sei 27, 607-611(1986). 12. Ogita Y, Nakamura T, Higuchi S, Mori T, Shimo-Oku M: Histochemical studies of mitochondrial activities of cultured corneal endothelial cells of cat during wound healing. Jpn. J. Opht. 34, 200-215 (1990). 13. Osborn M, Debus E, Weber K: Monoclonal antibodies specific for vimentin. Eur J. Cell Biol 34, 137-145 (1984). 14. Risen LA, Binder PS, Nayak SK: Intermediate filaments and their organization in human corneal endothelium. Invest Ophthalmol Vis Sei 28, 1933-1938 (1987). 15. Shamsuddin A KM, Verinder S, Nirankari MD, Purnell DM, Seung H, Chang MS: Is the corneal posterior layer truly endothelial? Ophthalmology 93, 1298-1303 (1986). 16. Süveges I: Di Rolle der Endothelzellen beim akuten Keratoconus. Klin. Mbl. Augenheilk. 179, 404-405 (1981). 17. Tripathi RC, Tripathi BJ: Keratocytes, and scleral fibroblasts in primary cell culture. A comparative study of growth characteristics, morphology, and phagocytic activity by light and scanning electron microscopy. Exp. Eye Res35, 611-624 (1982). 18. Van Horn DL, Hyndiuk RA: Endothelial wound repair in primate cornea. Exp. Eye Res 21, 113-124 (1975). 19. Yue M, Pistsov E, Sadovnikova, Danilov SM: Human corneal endothelial cells. Isolation, characterization and long-term cultivation Exp. Eye Res 47, 403^114 (1988). 20. YueBYJT, Sugar J, GilboyJE, Elvárt J: Growth of human corneal endothelial cells in culture. Invest Ophthalmol Vis Sei 30, 248-253 (1989). 21. Wolosewick JJ, Porter KR: Microtrabecular lattice of the cytoplasmic ground substance: artifact or reality. J. Cell Biol 82, 114-139 (1979). Cím: Dr. Mohay Judit Szent-Györgyi Albert Orvostudományi Egyetem Szemészeti Klinika 6720 Szeged, Korányi fasor 10.
