Remote auditory assessment using Portable Automated Rapid Testing (PART) and participant-owned devices

E. Sebastian Lelo De Larrea-Mancera; Trevor Stavropoulos; Audrey Anna Carrillo; Sierra Cheung; Yue J. He; David A. Eddins; Michelle R. Molis; Frederick J. Gallun; Aaron R. Seitz

doi:10.1121/10.0013221

Remote auditory assessment using Portable Automated Rapid Testing (PART) and participant-owned devices

E. Sebastian Lelo De Larrea-Mancera, Trevor Stavropoulos, Audrey Anna Carrillo, Sierra Cheung, Yue J. He, David A. Eddins, Michelle R. Molis, Frederick J. Gallun, Aaron R. Seitz

Otolaryngology

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Remote testing of auditory function can be transformative to both basic research and hearing healthcare; however, historically, many obstacles have limited remote collection of reliable and valid auditory psychometric data. Here, we report performance on a battery of auditory processing tests using a remotely administered system, Portable Automatic Rapid Testing. We compare a previously reported dataset collected in a laboratory setting with the same measures using uncalibrated, participant-owned devices in remote settings (experiment 1, n = 40) remote with and without calibrated hardware (experiment 2, n = 36) and laboratory with and without calibrated hardware (experiment 3, n = 58). Results were well-matched across datasets and had similar reliability, but overall performance was slightly worse than published norms. Analyses of potential nuisance factors such as environmental noise, distraction, or lack of calibration failed to provide reliable evidence that these factors contributed to the observed variance in performance. These data indicate feasibility of remote testing of suprathreshold auditory processing using participants' own devices. Although the current investigation was limited to young participants without hearing difficulties, its outcomes demonstrate the potential for large-scale, remote hearing testing of more hearing-diverse populations both to advance basic science and to establish the clinical viability of auditory remote testing.

Original language	English (US)
Pages (from-to)	807-819
Number of pages	13
Journal	Journal of the Acoustical Society of America
Volume	152
Issue number	2
DOIs	https://doi.org/10.1121/10.0013221
State	Published - Aug 1 2022

ASJC Scopus subject areas

Arts and Humanities (miscellaneous)
Acoustics and Ultrasonics

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10.1121/10.0013221

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@article{45e388fd04e14df381837cd483cc925d,

title = "Remote auditory assessment using Portable Automated Rapid Testing (PART) and participant-owned devices",

abstract = "Remote testing of auditory function can be transformative to both basic research and hearing healthcare; however, historically, many obstacles have limited remote collection of reliable and valid auditory psychometric data. Here, we report performance on a battery of auditory processing tests using a remotely administered system, Portable Automatic Rapid Testing. We compare a previously reported dataset collected in a laboratory setting with the same measures using uncalibrated, participant-owned devices in remote settings (experiment 1, n = 40) remote with and without calibrated hardware (experiment 2, n = 36) and laboratory with and without calibrated hardware (experiment 3, n = 58). Results were well-matched across datasets and had similar reliability, but overall performance was slightly worse than published norms. Analyses of potential nuisance factors such as environmental noise, distraction, or lack of calibration failed to provide reliable evidence that these factors contributed to the observed variance in performance. These data indicate feasibility of remote testing of suprathreshold auditory processing using participants' own devices. Although the current investigation was limited to young participants without hearing difficulties, its outcomes demonstrate the potential for large-scale, remote hearing testing of more hearing-diverse populations both to advance basic science and to establish the clinical viability of auditory remote testing.",

author = "{Lelo De Larrea-Mancera}, {E. Sebastian} and Trevor Stavropoulos and Carrillo, {Audrey Anna} and Sierra Cheung and He, {Yue J.} and Eddins, {David A.} and Molis, {Michelle R.} and Gallun, {Frederick J.} and Seitz, {Aaron R.}",

note = "Funding Information: This work was funded by National Institute on Deafness and Other Communication Disorders, National Institutes of Health (NIH), Grant No. R01 DC015051. Equipment and engineering support were provided by the University of California, Riverside, Brain Game Center. E.S.L.d.L.-M. was funded by Consejo Nacional de Ciencia y Tecnolog{\'i}a (CONACYT) and UC Mexus. The views expressed are those of the authors and do not represent the views of the NIH, CONACYT, UC Mexus, or the government of the United States. Publisher Copyright: {\textcopyright} 2022 Author(s).",

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AU - Lelo De Larrea-Mancera, E. Sebastian

AU - Stavropoulos, Trevor

AU - Carrillo, Audrey Anna

AU - Cheung, Sierra

AU - He, Yue J.

AU - Eddins, David A.

AU - Molis, Michelle R.

AU - Gallun, Frederick J.

AU - Seitz, Aaron R.

N1 - Funding Information: This work was funded by National Institute on Deafness and Other Communication Disorders, National Institutes of Health (NIH), Grant No. R01 DC015051. Equipment and engineering support were provided by the University of California, Riverside, Brain Game Center. E.S.L.d.L.-M. was funded by Consejo Nacional de Ciencia y Tecnología (CONACYT) and UC Mexus. The views expressed are those of the authors and do not represent the views of the NIH, CONACYT, UC Mexus, or the government of the United States. Publisher Copyright: © 2022 Author(s).

PY - 2022/8/1

Y1 - 2022/8/1

N2 - Remote testing of auditory function can be transformative to both basic research and hearing healthcare; however, historically, many obstacles have limited remote collection of reliable and valid auditory psychometric data. Here, we report performance on a battery of auditory processing tests using a remotely administered system, Portable Automatic Rapid Testing. We compare a previously reported dataset collected in a laboratory setting with the same measures using uncalibrated, participant-owned devices in remote settings (experiment 1, n = 40) remote with and without calibrated hardware (experiment 2, n = 36) and laboratory with and without calibrated hardware (experiment 3, n = 58). Results were well-matched across datasets and had similar reliability, but overall performance was slightly worse than published norms. Analyses of potential nuisance factors such as environmental noise, distraction, or lack of calibration failed to provide reliable evidence that these factors contributed to the observed variance in performance. These data indicate feasibility of remote testing of suprathreshold auditory processing using participants' own devices. Although the current investigation was limited to young participants without hearing difficulties, its outcomes demonstrate the potential for large-scale, remote hearing testing of more hearing-diverse populations both to advance basic science and to establish the clinical viability of auditory remote testing.

AB - Remote testing of auditory function can be transformative to both basic research and hearing healthcare; however, historically, many obstacles have limited remote collection of reliable and valid auditory psychometric data. Here, we report performance on a battery of auditory processing tests using a remotely administered system, Portable Automatic Rapid Testing. We compare a previously reported dataset collected in a laboratory setting with the same measures using uncalibrated, participant-owned devices in remote settings (experiment 1, n = 40) remote with and without calibrated hardware (experiment 2, n = 36) and laboratory with and without calibrated hardware (experiment 3, n = 58). Results were well-matched across datasets and had similar reliability, but overall performance was slightly worse than published norms. Analyses of potential nuisance factors such as environmental noise, distraction, or lack of calibration failed to provide reliable evidence that these factors contributed to the observed variance in performance. These data indicate feasibility of remote testing of suprathreshold auditory processing using participants' own devices. Although the current investigation was limited to young participants without hearing difficulties, its outcomes demonstrate the potential for large-scale, remote hearing testing of more hearing-diverse populations both to advance basic science and to establish the clinical viability of auditory remote testing.

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Remote auditory assessment using Portable Automated Rapid Testing (PART) and participant-owned devices

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