CORE A: LABORATORY COMPUTING &BIOSTATISTICS CORE The purpose of this core is to increase the productivity of ongoing research at BTNRH by providing easier access to professionals with expertise related to laboratory computing and biostatistics. Most of the research projects that constitute the research base for this core require the presentation and/or acquisition of digitized waveforms. Some of these research projects elicit behavioral, acoustical, and electrophysiological responses for the same auditory stimuli. In many instances, similar hypotheses are being evaluated using different approaches. The parallel nature of these research efforts produces considerable overlap in hardware and software needs. Our existing Laboratory Computing Facility is staffed by full-time technicians who split their effort between this Core and individual ROIs. These technicians provide many of the hardware and software needs of the research base, thereby enhancing productivity in these research projects. By maintaining familiarity with ongoing data acquisition efforts of the research base, Core technicians are in an ideal position to identify common needs and promote a cooperative interaction among investigators. Software developed by Core technicians is made available to researchers at other institutions at no cost. Our proposed Biostatistics Resource will provide onsite access a to a PhD statistician who will provide advice on the implementation of modern statistical methods. The Laboratory Computing &Biostatistics Core allows BTNRH to maintain a higher level of computing-related and statistical expertise than would otherwise be possible through the independent efforts of individual laboratories. The immediate accessibility of this expertise allows our investigators to have greater focus on scientific issues and pursue their research projects more efficiently. As part of the expanded Core Center for Communication Disorders, services will be provided to members of the research base at neighboring institutions.
This Core makes health-related research studies more productive by providing computer support and statistical consultation specific to the conduct of research. Because these support services can be provided more efficiently by a centralized Core, the Core accelerates progress in the research programs that it supports.
|Trevino, Andrea C; Jesteadt, Walt; Neely, Stephen T (2016) Modeling the Individual Variability of Loudness Perception with a Multi-Category Psychometric Function. Adv Exp Med Biol 894:155-64|
|GarcÃa, Paula B; Rosado Rogers, Lydia; Nishi, Kanae (2016) Testing Speech Recognition in Spanish-English Bilingual Children with the Computer-Assisted Speech Perception Assessment (CASPA): Initial Report. Ear Hear 37:492-4|
|Brennan, Marc; McCreery, Ryan; Kopun, Judy et al. (2016) Masking Release in Children and Adults With Hearing Loss When Using Amplification. J Speech Lang Hear Res 59:110-21|
|Sieck, Nicole E; Rasetshwane, Daniel M; Kopun, Judy G et al. (2016) Multi-tone suppression of distortion-product otoacoustic emissions in humans. J Acoust Soc Am 139:2299|
|Trevino, Andrea C; Jesteadt, Walt; Neely, Stephen T (2016) Development of a multi-category psychometric function to model categorical loudness measurements. J Acoust Soc Am 140:2571|
|Baudhuin, Jacquelyn L; Hughes, Michelle L; Goehring, Jenny L (2016) A Comparison of Alternating Polarity and Forward Masking Artifact-Reduction Methods to Resolve the Electrically Evoked Compound Action Potential. Ear Hear 37:e247-55|
|Joshi, Suyash Narendra; WrÃ³blewski, Marcin; Schmid, Kendra K et al. (2016) Effects of relative and absolute frequency in the spectral weighting of loudness. J Acoust Soc Am 139:373-83|
|VanDam, Mark; Oller, D Kimbrough; Ambrose, Sophie E et al. (2015) Automated Vocal Analysis of Children With Hearing Loss and Their Typical and Atypical Peers. Ear Hear 36:e146-52|
|Hughes, Michelle L; Baudhuin, Jacquelyn L; Goehring, Jenny L (2015) Effect of electrode impedance on spread of excitation and pitch perception using electrically coupled "dual-electrode" stimulation. Ear Hear 36:e50-6|
|Brennan, Marc A; McCreery, Ryan W; Jesteadt, Walt (2015) The influence of hearing-aid compression on forward-masked thresholds for adults with hearing loss. J Acoust Soc Am 138:2589-97|
Showing the most recent 10 out of 146 publications