In SS, the corneal surface epithelium was irregular and patchy. Anterior keratocytes frequently showed morphologic features of activation. The subbasal nerve fiber bundles revealed abnormal morphology, and the central corneal thickness was reduced by stromal thinning. The findings confirm epithelial, stromal, and neural abnormalities in the corneas of patients with SS.
Immediate allergic reactions are initiated by allergen-induced, specific IgE-mediated mast cell degranulation and involve leukocyte recruitment into the inflamed site. We compared conjunctival signs, symptoms, and in vivo leukocyte rolling and extravasation into sites of inflammation in five patients allergic to birch pollen and in 10 nonallergic controls who received a challenge to birch allergen or histamine. Both the specific allergen in allergic patients and histamine, both in patients and in healthy controls, induced symptoms and signs of an immediate allergic reaction together with leukocyte rolling within the conjunctival blood vessels. However, only allergen, not histamine, caused leukocyte extravasation into the site of inflammation in the allergic patients. Allergen also increased expression of endothelial P-selectin in conjunctival vessels and slowed the rolling of leukocytes which is required for their extravasation from blood circulation into the target tissue. Finally, i.v. heparin strongly reduced the number of slowly rolling cells during allergen- or histamine-induced reactions and this can probably hinder the leukocyte extravasation after allergen exposure. These findings suggest that slow rolling is required for leukocyte extravasation in acute allergic reactions, and it can be inhibited by heparin in vivo in therapeutically relevant conditions.
Hydrocortisone reduces the number of inflammatory leukocytes within tissues, but thus far the site of action on the multistep adhesion cascade leading to leukocyte extravasation has not been identified. We have recently developed a noninvasive in vivo reflected-light confocal microscopy technique to study this at sites of inflammation in human patients. In the present study, we evaluated the effect of preoperative intravenous hydrocortisone treatment on leukocyte trafficking after conjunctival inflammation induced by cataract surgery in human subjects in vivo. The surgery generated leukocyte rolling along the endothelial lining of conjunctival vessels. While preoperative hydrocortisone did not reduce the number of rolling cells, it significantly raised the velocity of individual rolling leukocytes and concomitantly reduced leukocyte emigration into conjunctival tissue. Immunohistology of conjunctival biopsies excised from the individuals studied provided circumstantial evidence that endothelial P-selectin might play a role in the surgery-induced up-regulation of the leukocyte rolling. Furthermore, hydrocortisone reduced surgery-induced P-selectin induction, suggesting a role for this selectin in the regulation of local leukocyte traffic into sites of inflammation in human conjunctiva. Taken together, these results suggest that control of the rolling velocity might be an effective way to adjust leukocyte traffic in vivo in human
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