SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1479792666> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W1479792666 endingPage "3419" @default.
W1479792666 startingPage "3401" @default.
W1479792666 abstract "Amplitude modulation (AM) is a pervasive feature of natural sounds. Neural detection and processing of modulation cues is behaviourally important across species. Although most ecologically relevant sounds are not fully modulated, physiological studies have usually concentrated on fully modulated (100% modulation depth) signals. Psychoacoustic experiments mainly operate at low modulation depths, around detection threshold (∼5% AM). We presented sinusoidal amplitude-modulated tones, systematically varying modulation depth between zero and 100%, at a range of modulation frequencies, to anaesthetised guinea-pigs while recording spikes from neurons in the ventral cochlear nucleus (VCN). The cochlear nucleus is the site of the first synapse in the central auditory system. At this locus significant signal processing occurs with respect to representation of AM signals. Spike trains were analysed in terms of the vector strength of spike synchrony to the amplitude envelope. Neurons showed either low-pass or band-pass temporal modulation transfer functions, with the proportion of band-pass responses increasing with increasing sound level. The proportion of units showing a band-pass response varies with unit type: sustained chopper (CS) > transient chopper (CT) > primary-like (PL). Spike synchrony increased with increasing modulation depth. At the lowest modulation depth (6%), significant spike synchrony was only observed near to the unit's best modulation frequency for all unit types tested. Modulation tuning therefore became sharper with decreasing modulation depth. AM detection threshold was calculated for each individual unit as a function of modulation frequency. Chopper units have significantly better AM detection thresholds than do primary-like units. AM detection threshold is significantly worse at 40 dB vs. 10 dB above pure-tone spike rate threshold. Mean modulation detection thresholds for sounds 10 dB above pure-tone spike rate threshold at best modulation frequency are (95% CI) 11.6% (10.0-13.1) for PL units, 9.8% (8.2-11.5) for CT units, and 10.8% (8.4-13.2) for CS units. The most sensitive guinea-pig VCN single unit AM detection thresholds are similar to human psychophysical performance (∼3% AM), while the mean neurometric thresholds approach whole animal behavioural performance (∼10% AM)." @default.
W1479792666 created "2016-06-24" @default.
W1479792666 creator A5035242987 @default.
W1479792666 creator A5037278767 @default.
W1479792666 creator A5067804594 @default.
W1479792666 date "2013-05-29" @default.
W1479792666 modified "2023-09-23" @default.
W1479792666 title "Neurometric amplitude-modulation detection threshold in the guinea-pig ventral cochlear nucleus" @default.
W1479792666 cites W135189209 @default.
W1479792666 cites W1620226490 @default.
W1479792666 cites W164832740 @default.
W1479792666 cites W1765390228 @default.
W1479792666 cites W1957242737 @default.
W1479792666 cites W1966065153 @default.
W1479792666 cites W1970305173 @default.
W1479792666 cites W1971764060 @default.
W1479792666 cites W1972168487 @default.
W1479792666 cites W1974932989 @default.
W1479792666 cites W1981491913 @default.
W1479792666 cites W1990583592 @default.
W1479792666 cites W1991609880 @default.
W1479792666 cites W1992890284 @default.
W1479792666 cites W2004867530 @default.
W1479792666 cites W2009483745 @default.
W1479792666 cites W2023914606 @default.
W1479792666 cites W2027486002 @default.
W1479792666 cites W2027747396 @default.
W1479792666 cites W2030879797 @default.
W1479792666 cites W2032367720 @default.
W1479792666 cites W2033005033 @default.
W1479792666 cites W2036888861 @default.
W1479792666 cites W2037344661 @default.
W1479792666 cites W2038886312 @default.
W1479792666 cites W2043238324 @default.
W1479792666 cites W2045553498 @default.
W1479792666 cites W2047728403 @default.
W1479792666 cites W2048946443 @default.
W1479792666 cites W2055207470 @default.
W1479792666 cites W2056554910 @default.
W1479792666 cites W2059159496 @default.
W1479792666 cites W2059316287 @default.
W1479792666 cites W2067358098 @default.
W1479792666 cites W2068611059 @default.
W1479792666 cites W2069121426 @default.
W1479792666 cites W2069372499 @default.
W1479792666 cites W2072517993 @default.
W1479792666 cites W2074235568 @default.
W1479792666 cites W2074423175 @default.
W1479792666 cites W2075819937 @default.
W1479792666 cites W2076405322 @default.
W1479792666 cites W2077040596 @default.
W1479792666 cites W2084166631 @default.
W1479792666 cites W2089457189 @default.
W1479792666 cites W2090858819 @default.
W1479792666 cites W2094536997 @default.
W1479792666 cites W2094561989 @default.
W1479792666 cites W2100812312 @default.
W1479792666 cites W2129308789 @default.
W1479792666 cites W2149665949 @default.
W1479792666 cites W2157482132 @default.
W1479792666 cites W2159149636 @default.
W1479792666 cites W2166165657 @default.
W1479792666 cites W2167637105 @default.
W1479792666 cites W2282871646 @default.
W1479792666 cites W2303271684 @default.
W1479792666 cites W2339267114 @default.
W1479792666 cites W2396916536 @default.
W1479792666 cites W2469036069 @default.
W1479792666 cites W2474497932 @default.
W1479792666 cites W4251969047 @default.
W1479792666 cites W4256399001 @default.
W1479792666 doi "https://doi.org/10.1113/jphysiol.2013.253062" @default.
W1479792666 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3717235" @default.
W1479792666 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23629508" @default.
W1479792666 hasPublicationYear "2013" @default.
W1479792666 type Work @default.
W1479792666 sameAs 1479792666 @default.
W1479792666 citedByCount "19" @default.
W1479792666 countsByYear W14797926662015 @default.
W1479792666 countsByYear W14797926662016 @default.
W1479792666 countsByYear W14797926662017 @default.
W1479792666 countsByYear W14797926662018 @default.
W1479792666 countsByYear W14797926662019 @default.
W1479792666 countsByYear W14797926662021 @default.
W1479792666 countsByYear W14797926662022 @default.
W1479792666 countsByYear W14797926662023 @default.
W1479792666 crossrefType "journal-article" @default.
W1479792666 hasAuthorship W1479792666A5035242987 @default.
W1479792666 hasAuthorship W1479792666A5037278767 @default.
W1479792666 hasAuthorship W1479792666A5067804594 @default.
W1479792666 hasConcept C11930861 @default.
W1479792666 hasConcept C121332964 @default.
W1479792666 hasConcept C123079801 @default.
W1479792666 hasConcept C15744967 @default.
W1479792666 hasConcept C169760540 @default.
W1479792666 hasConcept C201905106 @default.
W1479792666 hasConcept C24890656 @default.
W1479792666 hasConcept C26760741 @default.