Air/liquid corneal organ culture: a light microscopic study.

Air/liquid organ culture of tissues with stratified epithelial layers has been shown to encourage tight packing of cells and promote cellular differentiation. In this study human corneas cultured in a air/liquid environment were compared to paired, conventionally-cultured corneas to determine if the long-term morphology could be improved. Fourteen paired human corneas were cultured at 37 degrees C in covered culture dishes for 1 to 3 weeks. Air/liquid cultured corneas were placed epithelial-side up in a fixed position and culture medium was added to a level so that during rocking the corneal epithelia were intermittently exposed to air/liquid environments. Mate corneas were cultured using the conventional method. In this method corneas are fully submerged, epithelial-side down, in culture medium. After 3 weeks of culture significantly less epithelial intercellular edema was noted for the air/liquid cultures (p = 0.033), compared to conventional cultures. Significant improvements in cellular structure of the endothelial layers, after 1 and 3 weeks incubation (p = 0.029 and 0.000) and stromal layers, after 3 weeks in culture (p = 0.024), were also noted. We have shown that slight modifications of the organ culture environment lead to improvements in corneal morphology. Air/liquid corneal organ culture has promise for use in corneal wound healing studies and long-term culture.

[1]  J. Sugar,et al.  An ultrastructural and histochemical study of long-term wound healing after radial keratotomy. , 1987, American journal of ophthalmology.

[2]  D. Maccallum,et al.  Fine structure of subcultivated stratified squamous epithelium grown on collagen rafts. , 1980, Experimental cell research.

[3]  Doughman Dj Prolonged donor cornea preservation in organ culture: long-term clinical evaluation. , 1980 .

[4]  J. W. Huff,et al.  Contact lens-induced edema in vitro. Ion transport and metabolic considerations. , 1990, Investigative ophthalmology & visual science.

[5]  P. Medawar The cultivation of adult mammalian skin epithelium in vitro. , 1948, The Quarterly journal of microscopical science.

[6]  J. Friend,et al.  Biochemical Aspects of Contact Lens Wear , 1975 .

[7]  M. Zimny,et al.  Effects of soft contacts of differing thickness on corneal wound healing in rabbits. , 1989, Investigative ophthalmology & visual science.

[8]  R. Wyszynski,et al.  Lysosomal enzyme levels in corneal storage media. K-Sol versus McCarey-Kaufman. , 1988, Ophthalmology.

[9]  K. Adler,et al.  A new chamber system for maintaining differentiated guinea pig respiratory epithelial cells between air and liquid phases , 1987 .

[10]  D. Doughman,et al.  Ultrastructure of human organ-cultured cornea. II. Stroma and epithelium. , 1975, Archives of ophthalmology.

[11]  J. D. Gregory,et al.  Organ culture of rabbit cornea: morphological analyses. , 1988, Current eye research.

[12]  O. A. Trowell A modified technique for organ culture in vitro. , 1954, Experimental cell research.

[13]  D. Doughman,et al.  The ultrastructure of human organ-cultured cornea. I. Endothelium. , 1974, Archives of ophthalmology.