Design and analysis of keratoconus tissue microarrays.

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The aim was to produce 2 tissue microarrays (TMAs ) for keratoconus (KC ) corneas and to evaluate the expression of stress-related markers , epidermal growth factor receptor (EGFR ), and 8 -oxo-2 '-deoxyguanosine (8 -OHdG ), in KC corneas .The corneal buttons of 66 patients with KC were included in both TMAs ; 10 Fuchs endothelial corneal dystrophy (FECD ), 20 normal autopsy corneas , and 32 nonocular tissue cores served as controls . The expression of immunolabeling for EGFR and 8 -OHdG in KC corneas was compared with those of the controls by TMAJ software using an H-score index . To further interpret our findings , pig eyes under different preservation conditions were stained for the same markers .With 2 TMAs , we designed an effective model to investigate KC corneas at the protein level . The EGFR in epithelial cells showed significant upregulation in KC specimens compared with that in FECD controls (P = 0 .009 ), and this was also higher in autopsy controls compared with that in KC corneal samples (P = 0 .0002 ). The 8 -OHdG in epithelial cells was elevated in KC samples compared with that in the FECD specimens (P = 0 .03 ), whereas autopsy controls showed higher levels compared with those shown by the KC corneal samples (P < 0 .0001 ). Immunohistochemical staining intensities for both markers in pig corneas correlated with increased time to fixation .TMAs simultaneously enable efficient , high -throughput analysis of tissue samples . The upregulation of EGFR and 8 -OHdG protein levels in KC epithelium compared with FECD controls implicates oxidative stress in KC corneas . The expression of these stress markers is increased depending on the time to preservation , which may explain the increased levels of these markers in autopsy control corneas .