The Fundamental Asynchronous Stimulus Timing (FAST) is a novel cochlear implant sound coding strategy. Potential benefits include improved battery life, in addition to improved localization for bilateral patients.
The Fundamental Asynchronous Stimulus Timing (FAST) strategy offers excellent potential as a low power alternative coding strategy to the current default strategy in Nucleus® cochlear implants, Advanced Combination Encoder (ACE). Additionally, FAST offers potential bilateral benefits - localization and listening in spatially separated noise - because it has been shown in acute, controlled studies to provide more access to interaural timing difference (ITD) cues (Smith, 2010).Previous research with experienced cochlear-implant recipients has shown issues with conversion from ACE to FAST. The FAST strategy typically sounds very different in quality, and acclimatization can be lengthy. This extended adaptation time makes it difficult to show conclusively that FAST is non-inferior to ACE for speech understanding. A potential barrier to evaluating performance with FAST in current cochlear-implant recipients is the extensive amount of prior experience that many recipients have using ACE. Hence, there is a distinct need to evaluate FAST in newly implanted recipients.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
11
Commercially available Cochlear™ Nucleus® CI24RE with Contour Advance™ Electrode or Cochlear™ Nucleus® CI512 cochlear implant with FAST sound coding strategy using crossover design in newly implanted subjects. Both groups will receive the experimental and control strategy
Commercially available Cochlear™ Nucleus® CI24RE with Contour Advance™ Electrode or Cochlear™ Nucleus® CI512 cochlear implant with FAST sound coding strategy using crossover design in newly implanted subjects. Both groups will receive the experimental and control strategy
University of Colorado Health
Aurora, Colorado, United States
Change in Open Set Monosyllabic Word Recognition Score
Open Set Monosyllabic Word Recognition is a test of 50 words each consisting of 3 individual speech sounds. The subject repeats the word s/he hears to the audiologist. The score is based on the percentage of words correct. The primary outcome measure to is determine if the investigational sound coding strategy (FAST) is non-inferior to commercially approved sound coding strategies (ACE) for word recognition in quiet with percentage of words correct.
Time frame: Visit 1 (baseline), Visit 5 (3 months), Visit 8 (6 months)
Change in Signal-to-Noise Ratio (SRT)
The primary outcome measure to is determine if the investigational sound coding strategy (FAST) is non-inferior to commercially approved sound coding strategies (ACE) for BKB sentences in noise with mean signal-to-noise ratio (SRT) where participants could understand 50% of sentences in noise using ACE and FAST. Lower SRT values indicate better performance. SRT measures are obtained using two types of background noise. One is "Speech-Shaped Noise" which is white noise or tones made to mimic speech. The other is "Four-Talker Noise" which is multiple talkers made to mimic background conversation.
Time frame: Visit 5 (3 Months) and Visit 8 (6 months)
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