Effects of inner ear trauma on the risk of pneumococcal meningitis.

OBJECTIVE To examine the risk of pneumococcal meningitis in healthy rats that received a severe surgical trauma to the modiolus and osseous spiral lamina or the standard insertion technique for acute cochlear implantation. DESIGN Interventional animal studies. SUBJECTS Fifty-four otologically normal adult Hooded-Wistar rats. INTERVENTIONS Fifty-four rats (18 of which received a cochleostomy alone; 18, a cochleostomy and acute cochlear implantation using standard surgical techniques; and 18, a cochleostomy followed by severe inner ear trauma) were infected 4 weeks after surgery with Streptococcus pneumoniae via 3 different routes (hematogenous, middle ear, and inner ear) to represent all potential routes of bacterial infection from the upper respiratory tract to the meninges in cochlear implant recipients with meningitis. RESULTS Severe trauma to the osseous spiral lamina and modiolus increased the risk of pneumococcal meningitis when the bacteria were given via the middle or inner ear (Fisher exact test, P<.05). However, the risk of meningitis did not change when the bacteria were given via the hematogenous route. Acute electrode insertion did not alter the risk of subsequent pneumococcal meningitis for any route of infection. CONCLUSIONS Severe inner ear surgical trauma to the osseous spiral lamina and modiolus can increase the risk of pneumococcal meningitis. Therefore, every effort should be made to ensure that cochlear implant design and insertion technique cause minimal trauma to the bony structures of the inner ear to reduce the risk of pneumococcal meningitis.

[1]  M. Wassef [Pathology of the ear]. , 2009, Annales de pathologie.

[2]  R. Shepherd,et al.  Threshold shift: Effects of cochlear implantation on the risk of pneumococcal meningitis , 2007, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.

[3]  R. Shepherd,et al.  Pneumococcal Meningitis Threshold Model: A Potential Tool to Assess Infectious Risk of New or Existing Inner Ear Surgical Interventions , 2006, Otology & neurotology : official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology.

[4]  R. Shepherd,et al.  Pneumococcal Meningitis: Development of a New Animal Model , 2006, Otology & neurotology : official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology.

[5]  Robert K. Shepherd,et al.  Cochlear implantation in rats: A new surgical approach , 2005, Hearing Research.

[6]  Stephen J. Rebscher,et al.  A temporal bone study of insertion trauma and intracochlear position of cochlear implant electrodes. II: Comparison of Spiral Clarion™ and HiFocus II™ electrodes , 2005, Hearing Research.

[7]  T. Lenarz,et al.  International consensus on meningitis and cochlear implants , 2005, Acta oto-laryngologica.

[8]  J Thomas Roland,et al.  Meningitis in Cochlear Implant Recipients: The North American Experience , 2004, Otology & neurotology : official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology.

[9]  Owen Devine,et al.  Risk of bacterial meningitis in children with cochlear implants. , 2003, The New England journal of medicine.

[10]  F. Linthicum,et al.  Temporal bone fracture and latent meningitis: temporal bone histopathology study of the month. , 2003, Otology & neurotology : official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology.

[11]  G. Bredberg,et al.  Meningitis following Cochlear Implantation: Pathomechanisms, Clinical Symptoms, Conservative and Surgical Treatments , 2002, ORL.

[12]  R. Snyder,et al.  Chronic electrical stimulation by a cochlear implant promotes survival of spiral ganglion neurons after neonatal deafness , 1999, The Journal of comparative neurology.

[13]  J. Nadol,et al.  Patterns of neural degeneration in the human cochlea and auditory nerve: implications for cochlear implantation. , 1997, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.

[14]  R. Shepherd,et al.  Cochlear pathology following reimplantation of a multichannel scala tympani electrode array in the macaque. , 1995, The American journal of otology.

[15]  R. Hinojosa,et al.  Temporal bone histopathology: residents' quiz. , 1990, American journal of otolaryngology.

[16]  William F. House,et al.  Cochlear Implants: Histopathologic Findings Related to Performance in 16 Human Temporal Bones , 1991, The Annals of otology, rhinology, and laryngology.

[17]  William F. House,et al.  Electrode Insertion Trauma in Cochlear Implantation , 1991, The Annals of otology, rhinology, and laryngology.

[18]  F. Linthicum,et al.  Histologic Evaluation of Temporal Bones with Cochlear Implants , 1983, The Annals of otology, rhinology, and laryngology.

[19]  W. House,et al.  Otopathological findings in a patient with bilateral cochlear implants. , 1982, The Annals of otology, rhinology & laryngology. Supplement.

[20]  J. Holmquist,et al.  Frequency of Pathologic Changes in the Middle Ear , 1980, The Annals of otology, rhinology & laryngology. Supplement.

[21]  D Sutton,et al.  Comparison of Cochlear Histopathology following Two Implant Designs for Use in Scala Tympani , 1980, The Annals of otology, rhinology & laryngology. Supplement.

[22]  R. Schindler,et al.  Symposium: Cochlear implant, 1978—fact or supposition. Traumatic intracochlear electrode implantation , 1979 .

[23]  M. Merzenich,et al.  Multielectrode intracochlear implants. Nerve survival and stimulation patterns. , 1977, Archives of otolaryngology.

[24]  A. Pollak,et al.  Temporal bone histopathology: residents' quiz. Otogenic pneumococci meningitis after transverse temporal bone fracture during childhood. , 1991, American Journal of Otolaryngology.

[25]  Pollak Am,et al.  Temporal bone histopathology: residents' quiz. Otogenic pneumococci meningitis after transverse temporal bone fracture during childhood. , 1991, American journal of otolaryngology.

[26]  G M Clark,et al.  The histopathology of the human temporal bone and auditory central nervous system following cochlear implantation in a patient. Correlation with psychophysics and speech perception results. , 1988, Acta oto-laryngologica. Supplementum.

[27]  R. Schindler,et al.  Traumatic intracochlear electrode implantation. , 1979, The Laryngoscope.