Primary conjunctival sporotrichosis in three cats from Northeastern Brazil.

INTRODUCTION: Classically, sporotrichosis occurs as a chronic granulomatous lymphocutaneous infection. The extracutaneous form is uncommon and may affect the eye without cutaneous involvement. The most frequent form of ocular sporotrichosis reported in humans is a granulomatous conjunctivitis. There are no previous reports on primary ocular sporotrichosis in cats. PROCEDURES: Three mixed breed cats rescued from shelters were referred by the veterinarian for ophthalmic evaluation with a complaint of conjunctivitis nonresponsive to treatment with no evidence of skin disease or systemic disease. Complete ophthalmic examination, conjunctival cytology, and microbiological analysis were performed. RESULTS: Ophthalmic examinations revealed epiphora, purulent ocular discharge, conjunctival hyperemia, and a mass in the palpebral conjunctiva. Conjunctival cytology revealed segmented and degenerated neutrophils, conjunctival epithelial cells, and an abundant number of round and oval cells compatible with Sporothrix spp. Microbiological culture was performed and confirmed the presence of fungi from the Sporothrix schenckii complex. All animals were treated with oral itraconazole; two animals received topical itraconazole in association with oral treatment. Case 1 was refractory to treatment, and iodate potassium was combined with itraconazole therapy without resolution at the time of this publication. Cases 2 and 3 had complete resolution of conjunctival lesions with four months of oral and topical itraconazole therapy. CONCLUSION: Conjunctival sporotrichosis should be considered as a differential diagnosis of conjunctivitis in cats from endemic regions. Conjunctival cytology is an important tool that can aid early diagnosis.

Pulvinar Modulates Synchrony across Visual Cortical Areas.

The cortical visual hierarchy communicates in different oscillatory ranges. While gamma waves influence the feedforward processing, alpha oscillations travel in the feedback direction. Little is known how this oscillatory cortical communication depends on an alternative route that involves the pulvinar nucleus of the thalamus. We investigated whether the oscillatory coupling between the primary visual cortex (area 17) and area 21a depends on the transthalamic pathway involving the pulvinar in cats. To that end, visual evoked responses were recorded in areas 17 and 21a before, during and after inactivation of the pulvinar. Local field potentials were analyzed with Wavelet and Granger causality tools to determine the oscillatory coupling between layers. The results indicate that cortical oscillatory activity was enhanced during pulvinar inactivation, in particular for area 21a. In area 17, alpha band responses were represented in layers II/III. In area 21a, gamma oscillations, except for layer I, were significantly increased, especially in layer IV. Granger causality showed that the pulvinar modulated the oscillatory information between areas 17 and 21a in gamma and alpha bands for the feedforward and feedback processing, respectively. Together, these findings indicate that the pulvinar is involved in the mechanisms underlying oscillatory communication along the visual cortex.