Preseptal and orbital cellulitis: 15-year experience with sulbactam ampicillin treatment.
(2/20)
The infection of the orbita and ocular tissues can result in severe local and systemic complications. We aimed to determine the predisposing factors for preseptal and orbital cellulitis, the clinical and routine laboratory differences between orbital and preseptal cellulitis, and the change in the spectrum of the pathogens and the antibiotics used in the last 10 years. One hundred thirty-nine patients, hospitalized in Hacettepe University Faculty of Medicine Children's Hospital between 1 January 1990 and 31 December 2003 with diagnosis ofperiorbital or orbital cellulitis, were reviewed retrospectively. Ten of the patients (7%) had orbital and 129 (93%) had preseptal cellulitis. The male/female ratio was 1.7:1. The average age (mean+/-standard deviation) was 5.7+/-4 years. The seasonal distribution was most marked in spring and fall periods. When compared with preseptal cellulitis, the mean blood cell count, erythrocyte sedimentation rate and C-reactive protein levels were significantly higher in patients with orbital cellulitis. Staphylococcus aureus was isolated in 13 (41.9% of total microbiologically confirmed cases), coagulase-negative staphylococcus in 8 (25.8%), and H. influenza type b in 2 patients (6%). Thirty out of 77 clinical sample cultures (39%) were positive. In clinical studies, etiological agents of orbital and preseptal cellulitis could be identified in only 20-30% of cases, so in clinical practice treatment is usually empiric. We observed that sulbactam-ampicillin was a safe and effective choice of treatment in orbital and preseptal cellulitis in our cases. (+info)
MR imaging of orbital inflammatory syndrome, orbital cellulitis, and orbital lymphoid lesions: the role of diffusion-weighted imaging.
(3/20)
An unusual complication after strabismus surgery.
(5/20)
Orbital cellulitis is rarely reported after strabismus surgery; fewer than 10 cases have been reported. Nonetheless, orbital cellulitis is a potentially sight- and life-threatening condition. A high index of suspicion, use of a multidisciplinary approach, early diagnosis, aggressive treatment, and close monitoring are all important means of avoiding potentially irreversible visual loss and systemic complications. We report a case where early use of aggressive treatment to manage a post-strabismus surgery infection led to a good outcome. (+info)
Clival inflammation with cavernous sinus thrombophlebitis and orbital subperiosteal abscess--case report.
(6/20)
A 64-year-old woman presented with a very rare case of three infectious lesions, cavernous sinus thrombophlebitis, clival inflammation, and orbital subperiosteal abscess (SPA), manifesting as abducens palsy. An isolated non-specific mass in upper clivus was initially suspected to be derived from paranasal sinusitis. The clival lesion was approached by an endonasal transsphenoidal route and diagnosed as inflammation. However, progressive enlargement of an orbital mass was recognized, with eyelid erythema and swelling. Magnetic resonance imaging showed massive paranasal sinusitis and an intra-orbital mass, which was proved to be an orbital SPA by open surgery. Cavernous sinus thrombophlebitis might have been caused by primary paranasal sinusitis, and the origin of orbital cellulitis was suspected to be cavernous sinusitis based on the preoperative radiological findings. These unusual lesions should be kept in mind as one of the differential diagnoses. (+info)
Acute periorbital infections: who needs emergent imaging?
(7/20)