about
Environmental exposure to organochlorine pesticides and deficits in cochlear status in childrenOn the spatial distribution of the reflection sources of different latency components of otoacoustic emissions.Prenatal and postnatal serum PCB concentrations and cochlear function in children at 45 months of age.DPOAEs in infants developmentally exposed to PCBs show two differently time spaced exposure sensitive windows.Oxidative stress biomarkers and otoacoustic emissions in humans exposed to styrene and noise.Intensimetric detection of distortion product otoacoustic emissions with ear canal calibration.PCB exposure and cochlear function at age 6 years.Decoupling the level dependence of the basilar membrane gain and phase in nonlinear cochlea models.An investigation of hearing impairment in de-novo Parkinson's disease patients: A preliminary study.Distortion product otoacoustic emission generation mechanisms and their dependence on stimulus level and primary frequency ratio.Localization of the Reflection Sources of Stimulus-Frequency Otoacoustic Emissions.Forward- and Reverse-Traveling Waves in DP Phenomenology: Does Inverted Direction of Wave Propagation Occur in Classical Models?Generation place of the long- and short-latency components of transient-evoked otoacoustic emissions in a nonlinear cochlear model.Experimental evidence for the basal generation place of the short-latency transient-evoked otoacoustic emissions.Otoacoustic emission sensitivity to exposure to styrene and noise.Transient-evoked otoacoustic emission generators in a nonlinear cochlea.Transient evoked otoacoustic emission latency and cochlear tuning at different stimulus levels.Wavelet and matching pursuit estimates of the transient-evoked otoacoustic emission latency.Negative-delay sources in distortion product otoacoustic emissions.On the detection of early cochlear damage by otoacoustic emission analysis.Evidence for apical-basal transition in the delay of the reflection components of otoacoustic emissions.Susceptibility of linear and nonlinear otoacoustic emission components to low-dose styrene exposure.Different models of the active cochlea, and how to implement them in the state-space formalism.Otoacoustic emissions in time-domain solutions of nonlinear non-local cochlear models.Transient evoked otoacoustic emission input/output function and cochlear reflectivity: experiment and model.Comparison between otoacoustic and auditory brainstem response latencies supports slow backward propagation of otoacoustic emissions.Cochlear reflectivity in transmission-line models and otoacoustic emission characteristic time delays.Otoacoustic emission sensitivity to low levels of noise-induced hearing loss.Modeling the growth rate of distortion product otoacoustic emissions by active nonlinear oscillators.On the frequency dependence of the otoacoustic emission latency in hypoacoustic and normal ears.Estimating cochlear tuning dependence on stimulus level and frequency from the delay of otoacoustic emissions.Cosmic rays observed by the resonant gravitational wave detector NAUTILUSIncreasing the Bandwidth of Resonant Gravitational Antennas: The Case of ExplorerElectromagnetic radiation from VDT units: study of the effectiveness of an active shielding deviceModeling the dependence of the distortion product otoacoustic emission response on primary frequency ratioConstraints imposed by zero-crossing invariance on cochlear models with two mechanical degrees of freedomIntroducing Causality Violation for Improved DPOAE Component UnmixingEnvironmental ototoxicants, a potential new class of chemical stressorsDistortion product otoacoustic emission sensitivity to different solvents in a population of industrial painters
P50
Q27313926-4769A7C9-CBF2-4DF2-BD9A-9C3047346DCBQ30392010-C5F25470-6723-49E9-92F9-1906D048259FQ30426417-8E1C7F01-394E-4180-9A42-8528E569BD3DQ39547338-BA01EFFB-0BA8-49D0-AD5E-48A7ED54701EQ39794355-F47CC6B5-612A-4FAA-A052-E9D9A1D1EB4BQ40099283-DD131672-D54E-4B4F-95BE-0CE576426104Q40533275-C990B402-57D1-4975-AA2B-192C8F008FD3Q40586097-206583E6-F7CA-4387-80DE-8F78B5EF91F5Q40839329-A5C5D07F-BDD2-4A5C-8BBC-FFFA2F69348BQ40875078-EF9F8586-9A4B-4332-A1B7-4DB7FA9F4E7AQ41645935-D165ED1B-6AB2-41E5-BF42-1E2BE6F11B0EQ42285830-845C0689-561E-4F62-A8AB-8DAE45C430ECQ42439607-C4D5DB86-E2C7-4E11-B234-6C22059679FEQ42458731-31A65EA5-C336-4FBC-B47B-B03F65733EAFQ44711537-947FEDD9-653A-4B94-A15B-2E5652B6CC79Q45115148-CAEFDFE2-73E0-4374-BC03-80F477C956F2Q45415069-3F481C9F-5196-4D3D-B077-1C7A82AFC60BQ46773486-FB5CFAA2-19DA-4557-A3FF-46E3738912FDQ47233075-C74176CF-D4E5-49B1-AEB2-B5677ACE2812Q48678707-93FFA48D-B2E3-4A3B-8CE6-76B02565B862Q50312400-B3A9A5D6-CBFF-4EF3-8D29-82C10A829482Q50353440-54F0A6A8-A9E6-4187-842D-D79463E2152AQ50436708-38FD01E0-CD37-4DFF-B130-5FF417C55621Q50441487-ADA3B229-CFE0-4C49-BC42-2CFEB410E38DQ50448692-3DDA440B-C52E-41D4-9020-CF34FA8515E2Q50452748-24A8CC37-5A93-4B6D-93CB-479A4D234760Q50453378-740C1862-C818-4F46-BFFC-D6A9E5769128Q50456771-CA3F05CA-567B-42A4-8C3B-18FE4BA12BCBQ50477331-228C870F-28A6-45EC-9C5C-9AC3F2FEB08EQ50488888-61ED3669-3DC6-4AAA-9A68-F482DFED2EA4Q51827288-02AA298D-DCC1-4E7D-805B-AF06F1D274CDQ54125989-EC23B6F7-B623-4EF7-A444-9C48B86A4C8CQ60022846-98BB363A-DF3E-46A0-A00C-C9CF91B159C8Q74461118-F18E7121-821D-4FF0-874A-05DD77FB533FQ89273073-62D6023D-C5FF-4DD7-8E54-3C018B154A00Q90568953-483ABCF8-E934-4DED-A344-66B7D7F58491Q90841616-BFEB037D-C95B-477C-A115-36D9F555ADBCQ91333680-5AE03263-F7FF-4A36-A4A9-7C133E8E78BCQ92474790-75A2B752-3D5A-48B6-A254-93AB273150E0
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0002-2465-8849
@en
name
Arturo Moleti
@ast
Arturo Moleti
@en
Arturo Moleti
@es
Arturo Moleti
@nl
type
label
Arturo Moleti
@ast
Arturo Moleti
@en
Arturo Moleti
@es
Arturo Moleti
@nl
prefLabel
Arturo Moleti
@ast
Arturo Moleti
@en
Arturo Moleti
@es
Arturo Moleti
@nl
P106
P1153
7004081253
P21
P31
P496
0000-0002-2465-8849