SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220681062> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W4220681062 endingPage "447" @default.
W4220681062 startingPage "436" @default.
W4220681062 abstract "Objectives: This study examined whether remote microphone (RM) systems improved listening-in-noise performance in youth with autism. We explored effects of RM system use on both listening-in-noise accuracy and listening effort in a well-characterized sample of participants with autism. We hypothesized that listening-in-noise accuracy would be enhanced and listening effort reduced, on average, when participants used the RM system. Furthermore, we predicted that effects of RM system use on listening-in-noise accuracy and listening effort would vary according to participant characteristics. Specifically, we hypothesized that participants who were chronologically older, had greater nonverbal cognitive and language ability, displayed fewer features of autism, and presented with more typical sensory and multisensory profiles might exhibit greater benefits of RM system use than participants who were younger, had less nonverbal cognitive or language ability, displayed more features of autism, and presented with greater sensory and multisensory disruptions. Design: We implemented a within-subjects design to investigate our hypotheses, wherein 32 youth with autism completed listening-in-noise testing with and without an RM system. Listening-in-noise accuracy and listening effort were evaluated simultaneously using a dual-task paradigm for stimuli varying in complexity (i.e., syllable-, word-, sentence-, and passage-level). In addition, several putative moderators of RM system effects (i.e., sensory and multisensory function, language, nonverbal cognition, and broader features of autism) on outcomes of interest were evaluated. Results: Overall, RM system use resulted in higher listening-in-noise accuracy in youth with autism compared with no RM system use. The observed benefits were all large in magnitude, although the benefits on average were greater for more complex stimuli (e.g., key words embedded in sentences) and relatively smaller for less complex stimuli (e.g., syllables). Notably, none of the putative moderators significantly influenced the effects of the RM system on listening-in-noise accuracy, indicating that RM system benefits did not vary according to any of the participant characteristics assessed. On average, RM system use did not have an effect on listening effort across all youth with autism compared with no RM system use but instead yielded effects that varied according to participant profile. Specifically, moderated effects indicated that RM system use was associated with increased listening effort for youth who had (a) average to below-average nonverbal cognitive ability, (b) below-average language ability, and (c) reduced audiovisual integration. RM system use was also associated with decreased listening effort for youth with very high nonverbal cognitive ability. Conclusions: This study extends prior work by showing that RM systems have the potential to boost listening-in-noise accuracy for youth with autism. However, this boost in accuracy was coupled with increased listening effort, as indexed by longer reaction times while using an RM system, for some youth with autism, perhaps suggesting greater engagement in the listening-in-noise tasks when using the RM system for youth who had lower cognitive abilities, were less linguistically able, and/or have difficulty integrating seen and heard speech. These findings have important implications for clinical practice, suggesting RM system use in classrooms could potentially improve listening-in-noise performance for some youth with autism." @default.
W4220681062 created "2022-04-03" @default.
W4220681062 creator A5001991743 @default.
W4220681062 creator A5024855510 @default.
W4220681062 creator A5031620375 @default.
W4220681062 creator A5046753439 @default.
W4220681062 creator A5048041442 @default.
W4220681062 creator A5052786515 @default.
W4220681062 creator A5068995530 @default.
W4220681062 creator A5089521035 @default.
W4220681062 date "2022-01-13" @default.
W4220681062 modified "2023-10-14" @default.
W4220681062 title "Remote Microphone Systems Can Improve Listening-in-Noise Accuracy and Listening Effort for Youth With Autism" @default.
W4220681062 cites W1820187836 @default.
W4220681062 cites W1970134504 @default.
W4220681062 cites W1980426547 @default.
W4220681062 cites W1981326924 @default.
W4220681062 cites W1985070088 @default.
W4220681062 cites W1988608651 @default.
W4220681062 cites W1998395729 @default.
W4220681062 cites W2000005949 @default.
W4220681062 cites W2001718425 @default.
W4220681062 cites W2003496104 @default.
W4220681062 cites W2005383646 @default.
W4220681062 cites W2019024534 @default.
W4220681062 cites W2019485352 @default.
W4220681062 cites W2030440585 @default.
W4220681062 cites W2038171883 @default.
W4220681062 cites W2038486060 @default.
W4220681062 cites W2042150602 @default.
W4220681062 cites W2050661439 @default.
W4220681062 cites W2052671257 @default.
W4220681062 cites W2064186732 @default.
W4220681062 cites W2064359032 @default.
W4220681062 cites W2079698704 @default.
W4220681062 cites W2080983330 @default.
W4220681062 cites W2088038801 @default.
W4220681062 cites W2094420224 @default.
W4220681062 cites W2095775077 @default.
W4220681062 cites W2098144474 @default.
W4220681062 cites W2132545092 @default.
W4220681062 cites W2134653595 @default.
W4220681062 cites W2139004186 @default.
W4220681062 cites W2140746808 @default.
W4220681062 cites W2144803604 @default.
W4220681062 cites W2152174164 @default.
W4220681062 cites W2155158173 @default.
W4220681062 cites W2163358455 @default.
W4220681062 cites W2169273265 @default.
W4220681062 cites W2321353210 @default.
W4220681062 cites W2327037637 @default.
W4220681062 cites W2333365690 @default.
W4220681062 cites W2466089802 @default.
W4220681062 cites W2472770001 @default.
W4220681062 cites W2499404419 @default.
W4220681062 cites W2509029972 @default.
W4220681062 cites W2572447075 @default.
W4220681062 cites W2573370160 @default.
W4220681062 cites W2602630889 @default.
W4220681062 cites W2603028415 @default.
W4220681062 cites W2603880695 @default.
W4220681062 cites W2604993636 @default.
W4220681062 cites W2605650498 @default.
W4220681062 cites W2615653072 @default.
W4220681062 cites W2743511729 @default.
W4220681062 cites W2782756120 @default.
W4220681062 cites W2791154130 @default.
W4220681062 cites W2803532650 @default.
W4220681062 cites W2891491076 @default.
W4220681062 cites W2895513670 @default.
W4220681062 cites W2896276451 @default.
W4220681062 cites W2911964244 @default.
W4220681062 cites W2942802593 @default.
W4220681062 cites W2945786547 @default.
W4220681062 cites W2960418782 @default.
W4220681062 cites W2966110935 @default.
W4220681062 cites W2977803309 @default.
W4220681062 cites W3003002854 @default.
W4220681062 cites W3016220606 @default.
W4220681062 cites W3027179734 @default.
W4220681062 cites W3036607965 @default.
W4220681062 cites W3039470308 @default.
W4220681062 cites W3169650655 @default.
W4220681062 cites W4297625590 @default.
W4220681062 doi "https://doi.org/10.1097/aud.0000000000001058" @default.
W4220681062 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35030553" @default.
W4220681062 hasPublicationYear "2022" @default.
W4220681062 type Work @default.
W4220681062 citedByCount "3" @default.
W4220681062 countsByYear W42206810622023 @default.
W4220681062 crossrefType "journal-article" @default.
W4220681062 hasAuthorship W4220681062A5001991743 @default.
W4220681062 hasAuthorship W4220681062A5024855510 @default.
W4220681062 hasAuthorship W4220681062A5031620375 @default.
W4220681062 hasAuthorship W4220681062A5046753439 @default.
W4220681062 hasAuthorship W4220681062A5048041442 @default.
W4220681062 hasAuthorship W4220681062A5052786515 @default.
W4220681062 hasAuthorship W4220681062A5068995530 @default.