The High Rate CIS Auditory Brainstem Implant for Restoration of Hearing in NF-2 Patients

Robert Behr; Joachim Müller; Wafaa Shehata-Dieler; Hans-Peter Schlake; Jan Helms; Klaus Roosen; Norfrid Klug; Bernd Hölper; Artur Lorens

doi:10.1055/s-2006-950390

Skull Base 2007; 17(2): 91-107
DOI: 10.1055/s-2006-950390

ORIGINAL ARTICLE

The High Rate CIS Auditory Brainstem Implant for Restoration of Hearing in NF-2 Patients

Robert Behr¹ , Joachim Müller³ , Wafaa Shehata-Dieler³ , Hans-Peter Schlake² , Jan Helms³ , Klaus Roosen² , Norfrid Klug⁴ , Bernd Hölper¹ , Artur Lorens⁵

¹Department of Neurosurgery, Klinikum Fulda gAG, Academic Hospital of the University of Marburg, Fulda, Germany
²Department of Neurosurgery, University of Würzburg, Würzburg, Germany
³Department of Otorhinolaryngology, University of Würzburg, Würzburg, Germany
⁴Department of General Neurosurgery, University of Cologne, Cologne, Germany
⁵Institute of Physiology and Pathology of Hearing, Warsaw, Poland

Abstract

ABSTRACT

Aim: Hearing preservation is one of the major goals of acoustic neuroma surgery. In NF-2 patients, bilateral hearing loss is frequently caused by the disease or results from its treatment. Several implant devices for electrical stimulation of the cochlear nucleus have been developed to restore serviceable hearing in these patients. We report our experience and results using a high rate continuous interleaved sampling (CIS) auditory brainstem implant (ABI). Methods: Between June 1997 and May 2004, 24 NF-2 patients were managed by our group. In 20 patients an ABI was implanted successfully. The cochlear nucleus was located using anatomical landmarks and E-ABR recordings after resection of the neuroma via a retrosigmoid approach in the semi-sitting position. The 12-channel stimulating electrode array was inserted and fixed in the lateral recess. There were no surgical complications related to implantation apart from pseudomeningo that were managed by lumbar drainage. Results: In one patient the electrode array became dislocated and this necessitated revision surgery which was successful. One patient failed to gain benefit from the implant. Overall, 70% of electrodes were found to be serviceable for auditory stimulation, 5.3% of electrodes were primarily nonauditory, and in 7.8% side effects during stimulation were observed. Lip reading was improved by more than 100% as a result of the additional auditory input. For many patients, comprehension of open speech was restored to a useful level. Almost all patients were able to perceive environmental sounds and tinnitus was masked. Conclusions: Restoration of hearing using ABIs in NF-2 patients is a safe and promising procedure for those who would otherwise be totally deaf. The high rate CIS speech processing strategy has proven to be very useful and effective in direct cochlear nucleus stimulation.

KEYWORDS

Cochlear nucleus stimulation - auditory brainstem implant - neurofibromatosis - acoustic neurinoma surgery - high rate CIS stimulation

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REFERENCES

1 Hitselberger W E, House W F, Edgerton B J et al.. Cochlear nucleus implant. Otolaryngol Head Neck Surg. 1984; 92 52-54
2 Matthies C, Samii M. Management of 1000 vestibular schwannomas (acoustic neuromas): clinical presentation. Neurosurgery. 1997; 40 1-9
3 Helms J, Müller J. Die Auswahl eines Cochlea-Inplants und die Ergebnisse der Implantation [Selection of a cochlear implant and results of implantation]. Laryngorhinootologie. 1999; 78 12-13
4 Helms J, Müller J, Schön F et al.. Evaluation of performance with the Combi 40 cochlear implant in adults: a multicentric clinical study. ORL J Otorhinolaryngol Relat Spec. 1997; 59 23-35
5 Kovacs R, Janka M, Hochmair E et al.. A new electrode design for the stable placing of a brainstem electrode. Paper presented at: Proc. ICI 97, NYU-Medical Center 1997 New York, NY;
6 Wilson B S, Finley C C, Lawson D T, Wolford R D, Eddington D K, Rabinowitz W M. Better speech recognition with cochlear implants. Nature. 1991; 352 236-238
7 Schlake H-P, Goldbrunner R, Milewski C et al.. Technical developments in intra-operative monitoring for the preservation of cranial motor nerves and hearing in skull base surgery. Neurol Res. 1999; 21 11-24
7a Heller O. Hörfeldaudiometrie mit dem verfahren der kategorienunterteilung (KU). Psychol Beitr. 1985; 27 478-493
7b Moser L M, Hellbrück J. The functional gain of hearing aids measured with a psycho-acoustical scaling test. Paper presented at: XVII International Congress of Audiology 1984 Santa Barbara, CA;
7c Laszig R, Sollmann W P, Marangos N et al.. Nucleus 20-channel and 21-channel auditory brain stem implants: first European experiences. Ann Otol Rhinol Laryngol Suppl. 1995; 166 28-30
7d Laszig R, Marangos N, Sollmann W P et al.. Initial results from the clinical trial of the nucleus 21-channel auditory brain stem implant. Am J Otol. 1997; 18 160
7e Otto S R, Brackmann D E, Hitselberger W E et al.. Multichannel auditory brainstem implant: update on performance in 61 patients. J Neurosurg. 2002; 96 1063-1071
7f Nevinson B, Laszig R, Sollmann W P et al.. Results from a European clinical investigation of the nucleus multichannel auditory brainstem implant. Ear Hear. 2002; 23 170-183
8 Otto S, Staller S. Multichannel auditory brainstem implant: case studies comparing fitting strategies and results. Ann Otol Rhinol Laryngol Suppl. 1995; 166 36-39
9 Kessler D K. The Clarion multi-strategy cochlear implant. Ann Otol Rhinol Laryngol Suppl. 1999; 177 8-16
10 Kessler D K, Loeb G E, Barlo M J. Distribution of speech recognition results with the Clarion cochlear prosthesis. Otol Rhinol Laryngol Suppl 1995; 166 283-285
11 Skinner M W, Clark G M, Whitford L A et al.. Evaluation of a new spectral peak coding strategy for the Nucleus 22 Channel Cochlear Implant System. Am J Otol. 1994; 15(suppl 2) 15-27
12 Kiefer J, Müller J, Pfennigdorf T et al.. Speech understanding in quiet and in noise with the CIS speech coding strategy (MED-EL Combi 40) compared to the multipeak and spectral peak strategies (Nucleus). ORL J Otorhinolaryngol Relat Spec. 1996; 58 127-135
13 Colletti V, Fiorino F, Miorelli V et al.. Auditory brainstem implant as a salvage treatment after unsuccessful cochlear implantation. Otol Neurotol. 2004; 25 485-496
14 Colletti V, Carner M, Fiorino F et al.. Hearing restoration with auditory brainstem implant in three children with cochlear nerve aplasia. Otol Neurotol. 2002; 23 682-693
15 Colletti V, Carner M, Miorelli V et al.. Auditory brainstem implant in post traumatic cochlear nerve avulsion. Audiol Neurootol. 2004; 9 247-255
16 Brackmann D E, Hitselberger W E, Nelson R A et al.. Auditory brainstem implant: I. Issues in surgical implantation. Otolaryngol Head Neck Surg. 1993; 108 624-633
17 Lang J, Schäfer K. Ueber Form, Gröesse und Variabilität des Plexus chorioideus ventriculi IV [Form, size and variations of the plexus chorioideus ventriculi IV]. Gegenhaurs Morphol Jahrb. 1977; 123 727-741
18 Alexander L. Hyperplasien des Recessus lateralis ventriculi 4. Anat Anz. 1926; 61 479-487
19 Hess C. Das Foramen Magendi und die Oeffnungen an den Recessus lateralis des IV. Ventrikels. Gegenbaurs Morphol Jahrb. 1885; 10 578-602
20 Retzius G M. Das Menschenhirn: Studien in der makroskopischen Morphologie. Stockholm, Sweden; Kgl Buchdr PA Norstedt & Söner 1896
21 Zuzuki T. Der Rezessus lateralis und das Foramen Luschkae des vierten Ventrikels bei Japanern. Anat Anz. 1939; 88 145-160
22 Bourk T R, Mielcarz J P, Norris B E. Tonotopic organization of the anteroventral cochlear nucleus of the cat. Hear Res. 1981; 4 215-241
23 Dublin W B. The cochlear nucleus revisited. Otolaryngol Head Neck Surg. 1982; 90 744-760
24 Rauschecker J P, Shannon R V. Sending sound to the brain. Science. 2002; 295 1025-1029
25 McCreery D B, Shannon R V, Moore J K et al.. Accessing the tonotopic organization of the ventral cochlear nucleus by intranuclear microstimulation. IEEE Trans Rehabil Eng. 1998; 6 391-399
26 Spieth Nuber C for House Ear Institute .First successful use of penetrating microelectrodes in human brainstem restores some hearing to deaf patient. Available at: http://www.hei.org/news/pabi/040115pabi.htm Accessed June 16, 2004
27 Lenarz T, Moshrefi M, Matthies C et al.. Auditory brainstem implant: part I. Auditory performance and its evolution over time. Otol Neurotol. 2001; 22 823-833
28 Lenarz T, Matthies C, Lesinski-Schiedat et al.. Auditory brainstem implant: part II. Subjective assessment of functional outcome. Otol Neurotol. 2002; 23 694-697
29 Teissl C, Kremser C, Hochmair E et al.. Cochlear implants: in vitro investigation of electromagnetic interference at MR imaging-compatibility and safety aspects. Radiology. 1998; 208 700-708

Robert BehrM.D. Ph.D.

Department of Neurosurgery, Klinikum Fulda gAG, Academic Hospital of the University of Marburg, Pacelliallee 4

36043 Fulda, Germany

eMail: r.behr.neurochir@klinikum-fulda.de