Nanoporous silica coatings as a drug delivery system for ciprofloxacin: outcome of variable release rates in the infected middle ear of rabbits.

HYPOTHESIS

The present study was performed to examine the impact of the release rate of ciprofloxacin from prostheses coated with nanoporous silica layers on the outcome of an acute bacterial infection of the middle ear of rabbits.

BACKGROUND

Middle ear prostheses are often implanted in an infectious environment because of chronic otitis media and cholesteatoma. Bacterial colonization leads to healing disorders after surgery and may lead to the extrusion of the implants. Nanoporous silica layers appear promising as a drug delivery system for antibiotics placed on implants. Before clinical applications can be envisioned, it is necessary to find an optimal release rate.

METHODS

White New Zealand rabbits were provided unilaterally with either a "slow release" or a "burst release" ciprofloxacin-containing middle ear Bioverit II prosthesis. After implantation, the middle ears were infected with a solution of Pseudomonas aeruginosa. Afterwards, animals were monitored clinically and, after 3 months, sacrificed to perform necropsy and microbiologic examinations.

RESULTS

In the "slow release" group, 7 of 12 animals had to be euthanized preterm because of their poor clinical condition compared with 2 of 12 animals of the "burst release" group (p < 0.05). Clinical and microbiologic examination also showed a better outcome for animals of the burst release group.

CONCLUSION

A burst release of ciprofloxacin from middle ear implants is important to combat a perioperative infection with Ps. aeruginosa in the middle ear model of the rabbit.