Scientific Publications 2013

Barutchu, A., Freestone, D. R., Innes-Brown, H., Crewther, D. P., & Crewther, S. G. (2013). Evidence for Enhanced Multisensory Facilitation with Stimulus Relevance: An Electrophysiological Investigation. PLoS ONE, 8(1), e52978.

Blamey, P., Artieres, F., Başkent, D., Bergeron, F., Beynon, A., Burke, E., Dillier, N., Dowell, R., Fraysse, B., Gallégo, S., Govaerts, P. J., Green, K., Huber, A. M., Kleine-Punte, A., Maat, B., Marx, M., Mawman, D., Mosnier, I., O’Connor, A. F., O’Leary, S., Rousset, A., Schauwers, K., Skarzynski, H., Skarzynski, P. H., Sterkers, O., Terranti, A., Truy, E., Van de

Heyning, P., Venail, F., Vincent, C., & Lazard, D. S. (2013). Factors affecting auditory performance of postlinguistically deaf adults using cochlear implants: An update with 2251 patients. Audiology Neurootology, 18(1), 36-47.

Fifer, J., Barutchu, A., Shivdasani, M., & Crewther, S. (2013). Verbal and novel multisensory associative learning in adults. F1000Research, 2(34).

Francart, T., & McDrmott, H. (in press). Psychophysics, fitting and signal processing for combined hearing aid and cochlear implant stimulation. Ear and Hearing.

Hersbach, A., Grayden, D., Fallon, J., & McDermott, H. (2013). A beamformer post-filter for cochlear implant noise reduction. Journal of the Acoustical Society of America, 133(4), 2412-2420.

Innes-Brown, H., Marozeau, J. M., Storey, C. M., & Blamey, P. J. (in press). Tone, rhythm, and timbre perception in school-aged children using cochlear implants and hearing aids. Journal of the American Academy of Audiology.

Kaufmann, S. S., David A., Hall, L. T., Perunicic, V., Senn, P., Steinert, S., McGuinness, L. P., Johnson, B. C., Ohshima, T., Caruso, F., Wrachtrup, J., Scholten, R. E., Mulvaney, P., & Hollenberg, L. C. L. (in press). Detection of atomic spin labels in a lipid bi-layer using a single-spin nanodiamond probe. Proceedings of the National Academy of Sciences of the United States of America.

Kerr, R. R., Burkitt, A. N., Thomas, D. A., Gilson, M., & Grayden, D. B. (2013). Delay Selection by Spike-Timing-Dependent Plasticity in Recurrent Networks of Spiking Neurons Receiving Oscillatory Inputs. [Article]. Plos Computational Biology, 9(2).

Landry, T. G., Fallon, J., Wise, A., & Shepherd, R. (in press). Chronic neurotrophin delivery promotes ectopic neurite growth from the spiral ganglion of deafened cochleae without compromising the spatial selectivity of cochlear implants. J Comp Neurol.

Maarefvand, M., Marozeau, J., & Blamey, P. J. (2013). A cochlear implant user with exceptional musical hearing ability. International Journal of Audiology, 52(6), 424-432.

Marozeau, J. M., Innes-Brown, H., & Blamey, P. J. (2013). The effect of timbre and loudness on melody segregation. Music Perception, 30(3), 259-274.

Nayagam, D. A. X., McGowan, C., Villalobos, J., Williams, R. A., Salinas-LaRosa, C., McKelvie, P., Lo, I., Basa, M., Tan, J., & Williams, C. E. (in press). Techniques for processing eyes implanted with a retinal prosthesis for localized histopathological analysis. . Journal of Visualized Experiments.

Needham, K., Minter, R. L., Shepherd, R., & Nayagam, B. A. (2013). Challenges for stem cells to functionally repair the damaged auditory nerve. Expert Opinion on Biological Therapy, 13(1), 85-101.

Rickard, N. A., Smales, C. J., & Rickard, K. L. (2013). A computer-based auditory sequential pattern test for school-aged children. International Journal of Pediatric Otorhinolaryngology, 77, 838–842.

Savage, C. O., Grayden, D. B., Meffin, H., & Burkitt, A. N. (2013). Optimized single pulse stimulation strategy for retinal implants. Journal of Neural Engineering, 10(1).

Varsavsky, A., & McDermott, H. (2013). Application of real-time loudness models can improve speech recognition for cochlear implant users. IEEE in Transactions on Neural Systems & Rehabilitation Engineering, 21(1).

Villalobos, J., Nayagam, D. A. X., Allen, P. J., McKelvie, P., Luu, C. D., Ayton, L., Freemantle, A., McPhedran, M., Basa, M., McGowan, C., Shepherd, R., & Williams, C. E. (2013). A wide-field suprachoroidal retinal prosthesis is stable and well tolerated following chronic implantation. Investigative Ophthalmology and Visual Science.

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