Joel R. Perloff scite author profile

The purpose of this study was to evaluate whether bacterial biofilms exist on the sinus mucosa surfaces of human subjects with recalcitrant chronic sinusitis. Scanning electron microscopy was used to evaluate patients with continued symptoms of chronic sinusitis despite prior appropriate medical and surgical management. Morphologic structures that confirm the presence of bacterial biofilms were identified on the sinus mucosa of patients infected with Pseudomonas aeruginosa, a known biofilm former. The presence of bacterial biofilms may explain the recalcitrant nature of some forms of chronic sinusitis.

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Bone Involvement in Sinusitis: An Apparent Pathway for the Spread of Disease

Perloff

et al. 2000

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Objectives/Hypothesis: To study the effects of bone involvement in experimentally induced sinusitis and the effect of involved bone on the overlying mucosa. Study Design: Animal study. Methods: Sinusitis was induced unilaterally with Pseudomonas aeruginosa in the maxillary sinus of 19 New Zealand white rabbits. At 6 weeks, the pathogenic organism was confirmed by culture, and a segment of the bone from the medial wall of the sinus implanted in a submucosal pocket in the opposite sinus. The rabbits were killed at predetermined time intervals up to 13 weeks from sinusitis induction, and en bloc sinus sections were decalcified and stained. Results: The implanted bone reabsorbed partially or totally in all specimens. However, the study revealed clear histological evidence of bone involvement adjacent to the infected sinuses and the bony changes extended to the noninfected side in all specimens. The histological findings were identical to those seen in chronic osteomyelitis. Conclusions: This study demonstrates the ability for pseudomonal sinusitis, at least in the presence of surgical intervention, to involve bone at a distance from the site of primary infection in the absence of intervening mucosal disease. If confirmed with additional organisms and models, these findings have significant implications for the therapeutic management of chronic sinus disease.

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The Role of Bone in Chronic Rhinosinusitis

et al. 2002

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Evidence of Bacterial Biofilms on Frontal Recess Stents in Patients with Chronic Rhinosinusitis

Perloff

Palmer

2004

American Journal of Rhinology

105

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Evidence of Bacterial Biofilms in a Rabbit Model of Sinusitis

Perloff

Palmer

2005

American Journal of Rhinology

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Joel R. Perloff

Evidence of Bacterial Biofilms in Human Chronic Sinusitis

Bone Involvement in Sinusitis: An Apparent Pathway for the Spread of Disease

The Role of Bone in Chronic Rhinosinusitis

Evidence of Bacterial Biofilms on Frontal Recess Stents in Patients with Chronic Rhinosinusitis

Evidence of Bacterial Biofilms in a Rabbit Model of Sinusitis

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