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1 middle ear conducts sound to the cochlea for hearing.
2 ted slant - a feature considered crucial for hearing.
3 88V/A88V) mice from degeneration and rescues hearing.
4 ical role in sound localization and binaural hearing.
5  evidence for the role that SLC16A5 plays in hearing.
6 to exhibit a compensated acidosis and normal hearing.
7 terpreting evolutionary changes in mammalian hearing.
8 ransduction are affected before the onset of hearing.
9 on, interoception, balance, respiration, and hearing.
10  in determining the frequency selectivity of hearing.
11 ich may contribute to perceptual deficits in hearing.
12 activity that occurred before marmosets even heard a conspecific vocalization that, as a population,
13 tern was usually reversed, with participants hearing a single stream with increasing Deltaf1 in the a
14                 Self-reported improvement in hearing ability was hard to predict but tended to be sma
15 rom a questionnaire comparing self-perceived hearing ability with Fcomp off and Fcomp on.
16 ry capacity, and pretreatment self-perceived hearing ability.
17 valuate the performance of a visually guided hearing aid (VGHA) under conditions designed to capture
18  Nose, and Throat specialist ( n = 110) or a hearing aid dispenser ( n = 267) filled in a baseline qu
19 ed to determine the predictors of entering a hearing aid evaluation period (HAEP) using a prospective
20                                    Delays in hearing aid fitting and CI referral were categorized as
21  audiologists supporting decision-making for hearing aid fitting and CI referral.
22 recording in the pathway facilitated earlier hearing aid fitting for milder impairments.
23 e has also been a national trend for earlier hearing aid fitting in children, the current study demon
24 Data analysis explored the age of diagnosis, hearing aid fitting, and referral for cochlear implant (
25 acle in realization of a totally implantable hearing aid is a lack of reliable implantable microphone
26 estionnaire that focused on attitudes toward hearing aid use postimplantation, patterns of usage, and
27 ion and auditory temporal processing skills, hearing-aid settings, working memory capacity, and pretr
28                                  Sixty-eight hearing-aid users or candidates were fitted bilaterally
29      The results may be useful for improving hearing aids and setting patients' expectations.
30              Unfortunately, performance with hearing aids and the benefit obtained from using them va
31 ction was attributable to earlier fitting of hearing aids for children with mild and moderate hearing
32 han three times the benefit of our subjects' hearing aids for speech processing in noisy listening co
33                        Participants wore the hearing aids in each condition in a counterbalanced orde
34 dates were fitted bilaterally with nonlinear hearing aids using standard procedures.
35                            When managed with hearing aids, this did not have an appreciable effect on
36             Most of them can be treated with hearing aids.
37  totally implantable cochlear- or middle-ear hearing aids.
38  psychopathology when assessed while wearing hearing aids.
39                                      When we hear an auditory stream like music or speech or scan a t
40 icipants were 14 young adults, 7 with normal hearing and 7 with bilateral sensorineural hearing impai
41                              Dysfunctions of hearing and balance are often irreversible in mammals ow
42 nction, may enable future gene therapies for hearing and balance disorders.
43 he cochleovestibular ganglion (CVG) transmit hearing and balance information to the brain.
44                      SIGNIFICANCE STATEMENT: Hearing and balance rely on specialized sensory hair cel
45 n degradation or damage can lead to impaired hearing and balance, we analyzed IE samples by tandem ma
46 biophysical process underlying the senses of hearing and balance.
47 situations in which they may have difficulty hearing and communicating, which may contribute to the d
48 representations of modulated noise in normal-hearing and hearing-impaired listeners.
49 nsequences of transient Schwann cell loss on hearing and might provide insights into the causes of th
50 ession and open perspectives to decipher how hearing and other sensory modalities are integrated at t
51 behaviours linked to sensory stimuli (smell, hearing and vision) both having negative implications fo
52  and visual cortices has been reported after hearing and visual deficits mostly during the developmen
53     However, neurophysiological studies with hearing animals have shown that the central auditory sys
54 d to estimate how well acoustic and electric hearing are combined.
55 aches in Drosophila melanogaster to identify hearing as an important sensory modality in the context
56 tal of 20 children and 15 adults with normal hearing as well as 21 children and 17 adults with mild t
57 do not have any functional residual acoustic hearing at low frequencies.
58 ented with visual /ba/ and acoustic /fa/ and hear /ba/ (illusion-ba), the visual input weakens the we
59  ascending (afferent) auditory system before hearing begins.
60  within 3 months and also reported that they heard better bimodally in quiet, noisy, and reverberant
61                            Which violins are heard better, and which are preferred?
62                                 Our sense of hearing boasts exquisite sensitivity, precise frequency
63 cally specialize for voice processing in the hearing brain preferentially reorganize for face process
64 phy (EMEG), generated as the same inputs are heard by human listeners.
65                          In newborn and post-hearing C57BL/6J and CBA/CaJ mice, histochemical and imm
66  predicted performance for acoustic-electric hearing) can be used to estimate how well acoustic and e
67                               The remarkable hearing capacities of mammals arise from various evoluti
68                                    In normal-hearing children, adult-like processing patterns were fo
69 rates 2-3 times higher in deaf compared with hearing children.
70 ior can improve the aging brain's ability to hear complex signals hidden in background noise.
71 bservers performed with higher accuracy than hearing controls across all of these tasks.
72 stimulation using cochlear implants in adult hearing controls and deaf cats.
73                             Additionally, in hearing controls, acoustic stimuli were used to assess t
74 syndrome due to characteristic skin lesions, hearing deficiency and keratitis.
75       These animals also show high frequency hearing deficits and impaired skeletal muscle regenerati
76 ngation process, and its absence also causes hearing deficits.
77 circuit connectivity that may underlie these hearing deficits.
78 ates to visual phenotype and the presence of hearing deficits.
79                     Just before the onset of hearing, descending (efferent) input from cholinergic ne
80  within 30 days, dementia, anxiety disorder, hearing difficulty, or history of drug abuse were exclud
81 note, the predictive effect of self-reported hearing disability was modified by readiness such that w
82 des a new approach to treating patients with hearing disorders who are refractory to glucocorticoids.
83 increased attention for treatment of genetic hearing disorders.
84                                   Vision and hearing do not appear specialized based on the relative
85 itory system, specialization for directional hearing does not contribute to source segregation.
86 We Envision Our Future April 1995: Effect of Hearing Enhancement on Medical Status Ratings Twenty-one
87  rich in harmonic structures in our everyday hearing environment, it has remained largely unknown wha
88 to maximize the benefit of acoustic-electric hearing, especially for EAS.
89                                              Hearing evaluations were conducted at baseline, before e
90 ergy savings within the comfortable range of hearing for CI users.
91 oset (Callithrix jacchus), across the entire hearing frequency range.
92 Both isoforms provide selective benefits for hearing function by maintaining the functional integrity
93 neuronal silencing and targeted knockdown of hearing genes in the fly's auditory organ elicit abnorma
94 though 4- to 7-year-old children with normal hearing had immature cortical responses, adult patterns
95 lue of an experience or behavior can explain hearing health behaviors in older adults with hearing lo
96 rowing importance of hearing loss and global hearing health care.
97 st a need to evaluate vestibular function in hearing impaired individuals, especially those who exhib
98 sity over time is particularly difficult for hearing-impaired listeners with a sensorineural hearing
99 ons of modulated noise in normal-hearing and hearing-impaired listeners.
100 00), IGF-1 was associated with lower odds of hearing impairment (0.86; 0.73, 1.00) after adjustment f
101 d or absent for listeners with sensorineural hearing impairment (HI).
102 ement for infants with a permanent childhood hearing impairment (PCHI) during 2011-2015 at a U.K. ser
103 th a relative frequency greater than 4% were hearing impairment (three [3%] of 93 patients in the SRS
104 1 appeared to confer some protection against hearing impairment in some older adults warrants replica
105                    To study the mechanism of hearing impairment resulting from CABP2 loss of function
106 as immobility, functional decline, visual or hearing impairment, dehydration, and sleep deprivation a
107 Atp6v1b1vtx/vtx mutant mice exhibit profound hearing impairment, which is associated with enlarged en
108 uced myelination might augment sensorineural hearing impairment.
109 idneys, diabetes, hepatitis, depression, and hearing impairment.
110 sleep deprivation, immobility and visual and hearing impairment.
111 l hearing and 7 with bilateral sensorineural hearing impairment.
112 ese myosins in patients suffering visual and hearing impairment.
113 56; hepatitis: OR 1.30; depression: OR 1.47; hearing impairment: OR 1.91) (all P < .05).
114 #267300) often associated with sensorineural hearing impairment; however, mice with a knockout mutati
115 related hearing loss disrupts high-frequency hearing in inbred CD-1 mice.
116 nels and is essential for their function and hearing in mice.
117 auditory neurons is not essential for normal hearing in mice.
118            Our data define the importance of hearing in the control of Drosophila intermale aggressio
119 tant is most likely responsible for impaired hearing in the shaker-1 mice.
120 h Cx30 has been shown not to be required for hearing in young adult mice, IHCs from Cx30 knock-out mi
121 racterized by progressive loss of vision and hearing is caused by mutations in the clarin-1 gene (CLR
122               SIGNIFICANCE STATEMENT: Normal hearing is important to everyday life, but abnormal audi
123   Here we show that not only touch, but also hearing is involved in this phenomenon.
124   An additional role for Foxo3 in preserving hearing is likely, as low frequency auditory function is
125 sms to preferentially activate the currently heard language during listening.
126 udiometric test frequency increase by 6.0 dB hearing level (HL).
127                           Forty young normal-hearing listeners (20 musicians and 20 nonmusicians) com
128               Repeated testing of the normal-hearing listeners showed no significant practice effects
129  information for cochlear-implant and normal-hearing listeners.
130                        ABSTRACT: Age-related hearing loss (ARHL) is associated with changes to the au
131 ation of aspirin use was not associated with hearing loss (for >6 years of use compared with <1 year,
132                                Noise induced hearing loss (NIHL) is a disease that affects millions o
133 : 1.05, 2.05) odds ratios for high-frequency hearing loss (p-trend<0.001 and=0.007), respectively.
134 en adults with mild to severe high-frequency hearing loss (seven with extensive DRs, one with patchy
135 sequencing in individuals with sensorineural hearing loss (SNHL) and identified pathogenic mutations
136                                Sensorineural hearing loss (SNHL) at birth was associated with a posit
137 ring-impaired listeners with a sensorineural hearing loss (SNHL).
138        The primary endpoint was incidence of hearing loss 4 weeks after final cisplatin dose.
139 rstood how distinct GJB2 mutations result in hearing loss alone or in skin pathologies with comorbid
140  duration of analgesic use and self-reported hearing loss among 55,850 women in the Nurses' Health St
141 etion or duplication syndromes often display hearing loss and behavioral disorders, including ADHD an
142 detection and intervention for sensorineural hearing loss and developmental delay, where appropriate.
143 2013, and point to the growing importance of hearing loss and global hearing health care.
144 2), there was no association between risk of hearing loss and hair color (for black hair vs. red or b
145 loss disorders, such as sudden sensorineural hearing loss and Meniere's disease that are elicited by
146    In this Review, we describe the burden of hearing loss and offer our and others' recommendations f
147 r cells, but not in neurons, causes profound hearing loss and outer hair cell degeneration in mice.
148 gated the relationship between self-reported hearing loss and skin pigmentation by using hair color,
149 nts from the perspectives of the person with hearing loss and their communication partner.
150      Glucocorticoids have been used to treat hearing loss and vestibular dysfunction for many years.
151                          The item content of hearing loss assessment tools should seek to capture the
152  background and congenic regions have on the hearing loss associated with Cdh23(c.753)alleles.
153   Mutations of SLC26A4 are a common cause of hearing loss associated with enlargement of the endolymp
154                        In childhood, partial hearing loss can produce prolonged deficits in speech pe
155  to date no one has synthesized the range of hearing loss complaints from the perspectives of the per
156 more than 400 human genetic syndromes with a hearing loss component.
157                                    Temporary hearing loss could cause similar changes at later stages
158                      Accelerated age-related hearing loss disrupts high-frequency hearing in inbred C
159 y and how this could relate to sensorineural hearing loss following peripheral impairment.SIGNIFICANC
160                       Over 100 non-syndromic hearing loss genes have been identified in mouse and hum
161           In total, we identify 67 candidate hearing loss genes.
162   However, the specific defects that lead to hearing loss have not been described.
163      Cisplatin chemotherapy causes permanent hearing loss in 40-80% of treated patients.
164 ted the association between heavy metals and hearing loss in a general population that includes adult
165 y of Cas9-guide RNA complexes can ameliorate hearing loss in a mouse model of human genetic deafness.
166 osulfate for prevention of cisplatin-induced hearing loss in children and adolescents.
167 iosulfate protects against cisplatin-induced hearing loss in children and is not associated with seri
168  effusion (COME) is the most common cause of hearing loss in children, and known to have high heritab
169 thway could underlie treatable sensorineural hearing loss in DFNA34, CAPS, and possibly in a wide var
170 accharide (LPS)-induced sudden sensorineural hearing loss in guinea pigs.
171                         Early onset profound hearing loss in KO mice and lack of information about th
172 ntaining HDAC2 expression levels, preventing hearing loss in LPS-exposed animals and reducing cochlea
173 terozygous mice did not examine or report on hearing loss in mature animals, it has not been clinical
174 ve been linked to syndromic and nonsyndromic hearing loss in mice and humans.
175  a diversity of conductive and sensorineural hearing loss in nearly half of AGS patients, many of whi
176        We observe similar stapes defects and hearing loss in one patient with heterozygous JAGGED1 lo
177 tackle the increasingly important problem of hearing loss in our aging population.
178 e both temporary and permanent noise-induced hearing loss in preclinical studies.
179 applicable to the detection of noise-induced hearing loss in stranded cetaceans.
180 LRP3 causes autosomal-dominant sensorineural hearing loss in two unrelated families.
181  ebselen for the prevention of noise-induced hearing loss in young adults in a phase 2 clinical trial
182                                              Hearing loss is a major public health concern with no ph
183  and that heterozygous mice actually develop hearing loss late in life.
184                                              Hearing loss leads to a host of cellular and synaptic ch
185  to validate otoprotection in an in vivo rat hearing loss model.
186 sorder, whereas all other PJVK alleles cause hearing loss of cochlear origin.
187 t tools should seek to capture the impact of hearing loss on everyday life, but to date no one has sy
188 y presented before age 3 years and developed hearing loss or other neurological features including at
189 1 children and 17 adults with mild to severe hearing loss participated.
190                 First and foremost, treating hearing loss should be investigated as a means of improv
191 und noise.SIGNIFICANCE STATEMENT People with hearing loss struggle to follow conversations in noisy e
192       Black individuals have a lower risk of hearing loss than do whites, possibly because of differe
193       Recent research has linked age-related hearing loss to impaired performance across cognitive do
194 equency (3, 4, and 6 kHz) were computed, and hearing loss was defined as a PTA>25 dB in adults and PT
195     In the absence of treatment, significant hearing loss was detected in LPS-exposed animals.
196                       Children with profound hearing loss were referred for CI assessment at a signif
197              Mid-frequency to high-frequency hearing loss, an expected adverse event, was documented
198 two unrelated individuals with microcephaly, hearing loss, and overlapping dysmorphic features.
199 w-cost possibilities exist for prevention of hearing loss, as do unprecedented opportunities to reduc
200 ere associated with slightly higher risks of hearing loss, but duration of aspirin use was not.
201          The M163V mutant, which causes only hearing loss, exhibited impaired gap junction function a
202 ly similar: severe disability, microcephaly, hearing loss, spasticity, and characteristic brain imagi
203       To determine how ESRP1 mutations cause hearing loss, we evaluated Esrp1(-/-) mouse embryos and
204 e are currently no biological treatments for hearing loss, we sought to advance gene therapy approach
205 ssment tools exist to evaluate the impact of hearing loss, with little consensus among researchers as
206 cs has been associated with a higher risk of hearing loss.
207 s pigmentosa (RP) and bilateral neurosensory hearing loss.
208 ns to cochlear hair cells, causing permanent hearing loss.
209 reatment of some types of autosomal-dominant hearing loss.
210 role of GPx1 activity in acute noise-induced hearing loss.
211 llion people worldwide suffer from disabling hearing loss.
212 on (COME) is the leading cause of conductive hearing loss.
213 ion may form the basis for otoferlin-related hearing loss.
214 essment and to evaluate existing measures of hearing loss.
215 eurodegeneration and exacerbates age-related hearing loss.
216 on for both the children and the adults with hearing loss.
217 it a simple differential diagnosis of hidden hearing loss.
218 ead to many skin disorders and sensorineural hearing loss.
219 e central auditory system during age-related hearing loss.
220 earing health behaviors in older adults with hearing loss.
221 ural TFS for older listeners without or with hearing loss.
222 n adolescents may play a role in the risk of hearing loss.
223 mulation in the terminal may protect against hearing loss.
224 s alone or in skin pathologies with comorbid hearing loss.
225 th/+) mice substantially reduced progressive hearing loss.
226  0.001) were associated with higher risks of hearing loss.
227 anscriptase PCR, or (iii) new vision loss or hearing loss.
228 use stereociliary bundle disorganization and hearing loss.
229 and it typically presents with sensorineural hearing loss.
230 ochlear hair cell degeneration, and profound hearing loss.
231 gainst cochlear synaptopathy associated with hearing loss.SIGNIFICANCE STATEMENT A single incidence o
232  Atoh1 alleles should be considered in human hearing loss.SIGNIFICANCE STATEMENT The discovery that A
233 A34, CAPS, and possibly in a wide variety of hearing-loss disorders, such as sudden sensorineural hea
234 ing aids for children with mild and moderate hearing losses, for which the median age fell from 19 to
235 lation results suggest acoustic and electric hearing may be more effectively and efficiently combined
236 teraural time differences (ITDs) for spatial hearing may require access to bilateral auditory input d
237 s) that is evident for listeners with normal hearing (NH) is generally reduced or absent for listener
238 l of cochlear hair cells and preservation of hearing, NO-mediated cascades have both protective and d
239 ons by users of different sign languages and hearing nonsigners exhibit marked similarities in the us
240                Using slice recordings before hearing onset and in vivo recordings with iontophoretic
241 moval, animals that had been earplugged from hearing onset throughout auditory critical periods displ
242 pha starts to express in type II SGNs before hearing onset, but the expression level declines in the
243 s with iontophoretic drug applications after hearing onset, we show that cell-specific purinergic mod
244 5, suggesting its existence before and after hearing onset.
245 ing an identifiable modular network prior to hearing onset.
246 egions, ATP responsiveness diminished before hearing onset.
247 ine mechanical measurements of sound-induced hearing organ motion and detailed anatomical investigati
248 igand may play such a role in the developing hearing organ of the bird cochlea.
249 nd cap cell size in the proximal part of the hearing organ while in the distal part of the organ, sma
250   In the present study of a tonotopic insect hearing organ, we combine mechanical measurements of sou
251                                   Vertebrate hearing organs manifest cellular asymmetries across the
252                  The tonotopically organized hearing organs of bushcrickets provide the opportunity f
253 rphological and structural properties within hearing organs that are needed to establish tonotopic gr
254             Mosquitoes use their antennae as hearing organs to locate and interact with one another v
255 etaining the sound of specific words despite hearing other stimuli during encoding.
256 s (STC) we collected fMRI data from deaf and hearing participants (male and female), who either acqui
257                           Twenty-four normal hearing participants were asked to localise the position
258  interviews to enhance the 'voice' of seldom heard patients and families.
259  that primarily respond to auditory input in hearing people.
260  total, 377 older persons who presented with hearing problems to an Ear, Nose, and Throat specialist
261 cern with no pharmaceutical intervention for hearing protection or restoration.
262 s have a rich vocal repertoire and a similar hearing range to that of humans.
263 hop examining possible futures of speech and hearing science out to 2030.
264 es produce advertisement calls outside their hearing sensitivity range and their inner ears are partl
265 al dysfunction, alone or in combination with hearing settings, did not affect outcome predictions.
266                                           In hearing signers, enhanced activation was absent in both
267 opamine neurotransmission was elevated after hearing songs.
268 s provide key insights into the evolution of hearing specializations and feeding strategies in early
269 s the lowest frequencies of the pilot whales hearing spectrum.
270 data about listeners' brain activity as they hear spoken words.
271 in responses in awake animals in the passive hearing state are modulated dynamically by previous audi
272 by determining the differential effects that hearing status and task demands can have on left and rig
273                           To investigate how hearing status, sign language experience, and task deman
274 ing influence of the Cdh23(c.753A)variant in hearing studies of B6 mice and mutant mice on the B6 bac
275     Vowel recognition was measured in normal-hearing subjects listening to simulations of unimodal, E
276                                 In addition, hearing subjects performed the same task in the auditory
277                                Both deaf and hearing subjects performed the task visually, in the cen
278  to CBA/J mice with sensitive high-frequency hearing, suggesting that gap junctions contribute to pas
279                                    Listeners heard synthetic acoustic stimuli with temporally modulat
280                         When some scientists hear the word "bioethics," they break out in intellectua
281 participants' visual search immediately upon hearing the ambiguous object's name (e.g. "teapot").
282  as an obstacle by increasing emissions, but hearing the sonar emissions of the nearby bat partially
283           ABSTRACT: Just before the onset of hearing, the inner hair cells (IHCs) receive inhibitory
284              It has inspired many functional hearing theories.
285 on Chr 13 that accounts for about 20% of the hearing threshold variation in the backcross mice.
286              Our results also show that both hearing thresholds and, to a lesser extent, magnified co
287                   Pure-tone average (PTA) of hearing thresholds at high frequency (3, 4, and 6 kHz) w
288             However, elevated high frequency hearing thresholds did not predict demand for informatio
289 esponses but did not affect OHC function and hearing thresholds.
290 esign of future neural prostheses to restore hearing to deaf individuals.SIGNIFICANCE STATEMENT The q
291  adaptation sequence, participants tended to hear two streams ("streaming") when Deltaf1 was intermed
292  2008) is a new approach in which people who hear voices have a dialogue with a digital representatio
293                                  Some people hear voices that others do not, but only some of those p
294                                   People who hear voices were significantly more susceptible to the e
295 ual mouth movements at the same time as they hear voices, while there is no auditory accompaniment to
296 ch in people without psychosis who regularly hear voices.
297              Auditory verbal hallucinations (hearing voices) are typically associated with psychosis,
298 formance was best when acoustic and electric hearing was combined in the same ear.
299 nd either GMFCS level 2, active seizures, or hearing with amplification.
300 n with simultaneous bilateral CIs and normal hearing with similar time-in-sound was explored in the p

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