The FitzHugh–Nagumo neuron circuit integrates a piezoelectric ceramic to form a piezoelectric sensing neuron,which can capture external sound signals and simulate the auditory neuron system.Two piezoelectric sensing ...The FitzHugh–Nagumo neuron circuit integrates a piezoelectric ceramic to form a piezoelectric sensing neuron,which can capture external sound signals and simulate the auditory neuron system.Two piezoelectric sensing neurons are coupled by a parallel circuit consisting of a Josephson junction and a linear resistor,and a binaural auditory system is established.Considering the non-singleness of external sound sources,the high–low frequency signal is used as the input signal to study the firing mode transition and synchronization of this system.It is found that the angular frequency of the high–low frequency signal is a key factor in determining whether the dynamic behaviors of two coupled neurons are synchronous.When they are in synchronization at a specific angular frequency,the changes in physical parameters of the input signal and the coupling strength between them will not destroy their synchronization.In addition,the firing mode of two coupled auditory neurons in synchronization is affected by the characteristic parameters of the high–low frequency signal rather than the coupling strength.The asynchronous dynamic behavior and variations in firing modes will harm the auditory system.These findings could help determine the causes of hearing loss and devise functional assistive devices for patients.展开更多
A new auditory system model based on a combination of physiological and psycho-logical acoustic data has been proposed. This model consists of a bank of nonuniform bandpassfilters, detectors and main-frequency choosin...A new auditory system model based on a combination of physiological and psycho-logical acoustic data has been proposed. This model consists of a bank of nonuniform bandpassfilters, detectors and main-frequency choosing mechanisms, they act as basilar membranes, innerhair cells and nerve fibers, respectively. Combining with the improved critical bandwidth pa-rameters, the input to this model is analogous to the pressure at the eardrum, and the outputof this model simulates various features of the firing pattern. The synthesizer obtains the resul-tant speech by use of the simple adding method. Computer simulations show that the resultantspeech is highly intelligible and natural. The proposed model is correct and the improvement ofthe critical bandwidth parameters is effective.展开更多
Most infants who are later diagnosed with autism show delayed speech and language and/or atypical language profile.There is a large body of research on abnormal speech and language in children with autism.However,audi...Most infants who are later diagnosed with autism show delayed speech and language and/or atypical language profile.There is a large body of research on abnormal speech and language in children with autism.However,auditory development has been relatively under-investigated in autism research,despite its inextricable relationship with language development and despite researchers'ability to detect abnormalities in brain development and behavior in early infancy.In this review,we synthesize research on auditory processing in the prenatal period through infancy and childhood in typically developing children,children at high risk for autism,and children diagnosed with autism.We conclude that there are clear neurobiological and behavioral links between abnormal auditory development and the deficits in social communication seen in autism.We then offer perspectives on the need for a systematic characterization of early auditory development in autism,and identified questions to be addressed in future research on the development of autism.展开更多
The current randomized controlled trial was performed at the China Rehabilitation Science Institute, China to test the hypothesis that musical auditory stimulation has positive effects on the autonomic nervous system ...The current randomized controlled trial was performed at the China Rehabilitation Science Institute, China to test the hypothesis that musical auditory stimulation has positive effects on the autonomic nervous system of patients with disorder of consciousness.Although past studies have recommended that patients with disorder of consciousness listen to patient-preferred music, this practice is not universally accepted by researchers.Twenty patients with severe disorder of consciousness listened to either therapist-selected(n = 10, 6 males and 4 females;43.33 ± 18.76 years old) or patient-preferred(n = 10, 5 males and 5 females, 48.83 ± 18.79 years old) musical therapy, 30 minutes/day, 5 times/week for 6 weeks.The results showed no obvious differences in heart rate variability-related parameters including heart rate, standard deviation of normal-to-normal R-R intervals, and the root-mean-square of successive heartbeat interval differences of successive heartbeat intervals between the two groups of patients.However, percentage of differences exceeding 50 ms between adjacent normal number of intervals, low-frequency power/high-frequency power, high-frequency power norm, low-frequency power norm, and total power were higher in patients receiving therapist-selected music than in patients receiving their own preferred music.In contrast, this relationship was reversed for the high-frequency power and very-low-frequency band.These results suggest that compared with preferred musical stimulation, therapist-selected musical stimulation resulted in higher interactive activity of the autonomic nervous system.Therefore, therapist-selected musical stimulation should be used to arouse the autonomic nervous system of patients with disorder of consciousness.This study was approved by the Institutional Ethics Committee of China Rehabilitation Research Center, China(approval No.2018-022-1) on March 12, 2018 and registered with the Chinese Clinical Trial Registry(registration number Chi CTR1800017809) on August 15, 2018.展开更多
Transcranial direct current stimulation(tDCS)has been reportedly beneficial for different neurodegenerative disorders.tDCS has been reported as a potential adjunctive or alternative treatment for auditory verbal hallu...Transcranial direct current stimulation(tDCS)has been reportedly beneficial for different neurodegenerative disorders.tDCS has been reported as a potential adjunctive or alternative treatment for auditory verbal hallucination(AVH).This study aims to review the effects of tDCS on AVH in patients with schizophrenia through combining the evidence from randomized clinical trials(RCTs).The databases of PsycINFO(2000–2019),PubMed(2000–2019),EMBASE(2000–2019),CINAHL(2000–2019),Web of Science(2000–2019),and Scopus(2000–2019)were systematically searched.The clinical trials with RCT design were selected for final analysis.A total of nine RCTs were eligible and included in the review.Nine RCTs were included in the final analysis.Among them,six RCTs reported a significant reduction of AVH after repeated sessions of tDCS,whereas three RCTs did not show any advantage of active tDCS over sham tDCS.The current studies showed an overall decrease of approximately 28%of AVH after active tDCS and 10%after sham tDCS.The tDCS protocols targeting the sensorimotor frontal-parietal network showed greater treatment effects compared with the protocols targeting other regions.In this regard,cathodal tDCS over the left temporoparietal area showed inhibitory effects on AVHs.The most effective tDCS protocol on AVHs was twice-daily sessions(2 mA,20-minute duration)over 5 consecutive days(10 sessions)with the anode over the left dorsolateral prefrontal cortex and the cathode over the left temporal area.Some patient-specific and diseasespecific factors such as young age,nonsmoking status,and higher frequencies of AVHs seemed to be the predictors of treatment response.Taken together,the results of tDCS as an alternative treatment option for AVH show controversy among current literatures,since not all studies were positive.However,the studies targeting the same site of the brain showed that the tDCS could be a promising treatment option to reduce AVH.Further RCTs,with larger sample sizes,should be conducted to reach a conclusion on the efficacy of tDCS for AVH and to develop an effective therapeutic protocol for clinical setting.展开更多
The cochlea is one of the most complex organs in the human body,exhibiting a complex interplay of characteristics in acoustic,mechanical,electrical,and biological functions.Functional cochlea models are an essential p...The cochlea is one of the most complex organs in the human body,exhibiting a complex interplay of characteristics in acoustic,mechanical,electrical,and biological functions.Functional cochlea models are an essential platform for studying hearing mechanics and are crucial for developing next-generation auditory prostheses and artificial hearing systems for sensorineural hearing restoration.Recent advances in additive manufacturing,organ-on-a-chip models,drug delivery platforms,and artificial intelligence have provided valuable insights into how to manufacture artificial cochlea models that more accurately replicate the complex anatomy and physiology of the inner ear.This paper reviews recent advancements in the applications of advanced manufacturing techniques in reproducing the physical,biological,and intelligent functions of the cochlea.It also outlines the current challenges to developing mechanically,electrically,and anatomically accurate functional models of the inner ear.Finally,this review identifies the major requirements and outlook for impactful research in this field going forward.Through interdisciplinary collaboration and innovation,these functional cochlea models are poised to drive significant advancements in hearing treatments,and ultimately enhance the quality of life for individuals with hearing loss.展开更多
Mitochondria energize the inner ear to maintain the cochlear potential createdbythe striavascularis,assist the motility of outer hair cells,perform synaptic processes,and maintain the spontaneous and sound-driven disc...Mitochondria energize the inner ear to maintain the cochlear potential createdbythe striavascularis,assist the motility of outer hair cells,perform synaptic processes,and maintain the spontaneous and sound-driven discharges of the spiral ganglion neurons(SGNs).Mitophagy deficiencies induce the accumulation of damaged organelles and mitochondria in cells and are a primary cause of drug-induced hearing loss.展开更多
BACKGROUND Auditory verbal hallucinations(AVHs)are believed to be characteristic symptoms of schizophrenia.The prevalence of AVHs in deaf patients with schizophrenia is comparable to that in patients with schizophreni...BACKGROUND Auditory verbal hallucinations(AVHs)are believed to be characteristic symptoms of schizophrenia.The prevalence of AVHs in deaf patients with schizophrenia is comparable to that in patients with schizophrenia who have normal hearing ability.AVHs in deaf patients with schizophrenia require treatment.CASE SUMMARY A 22-year-old deaf woman with schizophrenia had experienced AVHs for 3 months.Her psychotic symptoms were not alleviated by antipsychotic medication alone.Modified electroconvulsive therapy in combination with antipsychotic drugs effectively alleviated her AVHs and disorganized behavior.During outpatient follow-up for 6 months,her condition have remained stable,and she has been able to take care of herself.CONCLUSION Treatment with modified electroconvulsive therapy was found to be safe and might be indicated for deaf patients whose symptoms are not well managed with antipsychotic medication alone.Deaf people might be unable to communicate through spoken language;therefore,to make proper diagnoses and provide appropriate treatment for these patients,psychiatrists must have patience and seek to understand patients’mental state.展开更多
BACKGROUND Schizophrenia is a chronic psychiatric condition with complex symptomatology,including debilitating auditory hallucinations.Transcranial direct current stimulation(tDCS)has been explored as an adjunctive tr...BACKGROUND Schizophrenia is a chronic psychiatric condition with complex symptomatology,including debilitating auditory hallucinations.Transcranial direct current stimulation(tDCS)has been explored as an adjunctive treatment to alleviate such symptoms.AIM To evaluate the therapeutic efficacy of tDCS in schizophrenia.METHODS Adhering to PRISMA guidelines,we systematically searched PubMed,Embase,Web of Science,and the Cochrane Library on September 19,2023,for randomized controlled trials examining the efficacy of tDCS in schizophrenia,with no language or time restrictions.We included studies that compared tDCS with a control condition and reported clinically relevant outcomes.Data extraction and quality assessments were performed by independent evaluators using the Cochrane Collaboration's risk of bias tool.Statistical heterogeneity was evaluated,and a random-effects model was applied due to moderate heterogeneity(I2=41.3%).RESULTS Nine studies comprising 425 participants(tDCS group:219,control group:206)were included.The meta-analysis demonstrated a significant reduction in auditory hallucination scores following tDCS treatment(weighted mean difference:-2.18,95%confidence interval:-4.0 to-0.29,P<0.01).Sensitivity analysis confirmed the robustness of the results,with no significant influence from individual studies.Additionally,publication bias was not detected,supporting the reliability and generalizability of the findings.These results underscore the efficacy of tDCS as a therapeutic intervention for auditory hallucinations in schizophrenia.CONCLUSION tDCS significantly reduces auditory hallucinations in schizophrenia,suggesting its potential as an effective adjunctive treatment for managing this disabling symptom.The findings highlight the practical significance of tDCS in clinical settings,particularly for patients with treatment-resistant auditory hallucinations.展开更多
BACKGROUND The characteristics of cerebral hemodynamic indexes of patients with different types of auditory verbal hallucinations(AVHs)was not clear.AIM To explore the characteristics of cerebral hemodynamic indexes o...BACKGROUND The characteristics of cerebral hemodynamic indexes of patients with different types of auditory verbal hallucinations(AVHs)was not clear.AIM To explore the characteristics of cerebral hemodynamic indexes of patients with different types of AVHs and construct the risk nomogram prediction model of patients with different types of AVHs.METHODS Patients with different types of verbal hallucinations who visited Wenzhou Seventh People’s Hospital were retrospectively selected from March 2021 to March 2023,and these patients were classified into 117 cases of schizophrenia(SCZ)with AVHs,108 cases of post-traumatic stress disorder(PTSD)with AVHs,and 105 cases of recurrent depressive disorder with AVHs according to type.Transcranial doppler was performed to measure the hemodynamic parameters of the anterior cerebral artery(ACA),middle cerebral artery(MCA),posterior cerebral artery(PCA),basilar artery(BA)and vertebral artery(VA).Logistic regression modelling was used to explore the factors affecting patients with different types of AVHs and odds ratio,95%confidence interval(CI).A clinical prediction model was constructed,and the efficacy of the clinical prediction model was evaluated by using receiver operating characteristic,Hosmer-Lemeshow Goodness-of-Fit test,calibration curves and decision curve analysis.RESULTS The differences between the three groups of patients in mean velocity(Vm)-MCA,end-diastolic velocity(Vd)-MCA,Vm-ACA,pulsatility index(PI)-ACA,Vm-PCA,peak systolic velocity(Vs)-PCA,Vd-PCA,Vm-BA,Vs-BA,Vd-BA,PI-BA,resistance index(RI)-BA,Vm-VA,Vs-VA,Vd-VA,PI-VA,and RI-VA indexes were statistically significant.Rising Vm-ACA is an independent risk factor for SCZ with AVHs,and falling Vm-VA,Vd-MCA,and Vd-VA are independent risk factors for SCZ with AVHs.Rising Vm-ACA,Vm-PCA,Vs-PCA,Vd-PCA,Vm-BA,and Vs-BA are independent risk factors for PTSD with AVHs,and Vm-MCA,Vs-MCA,Vd-MCA,PI-PCA,and RIBA are independent protective factors for PTSD with AVHs.Elevated Vm-MCA,Vd-MCA,RI-BA,Vm-VA,and Vd-VA were independent risk factors,and elevated Vm-ACA,Vs-ACA,Vm-PCA,Vs-PCA,and Vd-PCA were independent protective factors.The areas under the curve of the three models were 0.82(95%CI:0.76-0.87),0.88(95%CI:0.83-0.92),and 0.81(95%CI:0.77-0.86),respectively;the Hosmer-Lemeshow Goodness-of-Fit test of the calibration curves of the three models suggests that P>0.05.CONCLUSION Monitoring the cerebral hemodynamic indexes of patients with AVHs is of practical significance in determining the type of mental disorder,which helps clinicians identify the type of AVHs and adopt more efficient treatment strategies to help patients recover.展开更多
Objective: To study the relationship between cortical auditory evoked potential (CAEP) thresholds and behavioral thresholds in pediatric populations with sensorineural hearing loss (SNHL). Methods: Fifteen children (m...Objective: To study the relationship between cortical auditory evoked potential (CAEP) thresholds and behavioral thresholds in pediatric populations with sensorineural hearing loss (SNHL). Methods: Fifteen children (mean age 6.8 years) with bilateral SNHL underwent behavioral pure-tone audiometry and CAEP testing at 0.5, 1, 2, and 4 kHz. CAEP thresholds were determined using tone bursts, and correlations between CAEP and pure-tone thresholds were analyzed using Pearson correlation and t-tests. Results: A strong positive correlation was observed between P1 thresholds and behavioral thresholds across all test frequencies: 0.5 kHz (r = 0.765, p Conclusion: The strong correlation between P1 and behavioral thresholds demonstrates the reliability of CAEP testing for estimating auditory thresholds in children. These findings support the use of CAEP testing as a reliable objective tool for threshold estimation, particularly in cases where behavioral responses cannot be reliably obtained. When adjusted with frequency-specific correction values, CAEP testing provides a reliable method for assessing hearing thresholds in pediatric populations.展开更多
Objective To explore the effect of acupuncture at "Jing Jiaji" (颈夹背) on sudden hearing loss by observing the changes of the threshold of auditory brainstem response (ABR) of deaf guinea pigs. Methods Sixty he...Objective To explore the effect of acupuncture at "Jing Jiaji" (颈夹背) on sudden hearing loss by observing the changes of the threshold of auditory brainstem response (ABR) of deaf guinea pigs. Methods Sixty healthy guinea pigs were selected, with computer randomization, 20 were randomly divided into a normal control group (group A), while the rest were randomly and equally divided into a model group (group B) and an acupuncture group (group C) when turned deaf after gentamycin sulfate and furosemide were administered. No treatment was administered for either the group A or the group B, while acupuncture at "Jing Jiaji" was given for the group C for 30 days. The ABR thresholds of each group were observed and recorded separately after the treatment for 15 days and 30 days. Results The ABR threshold in the group C was lower than that in the group B after the treatment of 15 days (P〈O.05). After the treatment of 30 days, the ABR threshold in the group C was obviously lower than that in the group B (P〈0.01), and was obviously lower than that before acupuncture (P〈0.01). Conclusion Acupuncture at "Jing Jiaji" has definite effect on improving the hearing of deaf guinea pigs.展开更多
Purinergic P2 receptors,activated by endogenous ATP,are prominently expressed on neuronal and nonneuronal cells during development of the auditory periphery and central auditory neurons.In the mature cochlea,extracell...Purinergic P2 receptors,activated by endogenous ATP,are prominently expressed on neuronal and nonneuronal cells during development of the auditory periphery and central auditory neurons.In the mature cochlea,extracellular ATP contributes to ion homeostasis,and has a protective function against noise exposure.Here,we focus on the modulation of activity by extracellular ATP during early postnatal development of the lower auditory pathway.In mammals,spontaneous patterned activity is conveyed along afferent auditory pathways before the onset of acoustically evoked signal processing.During this critical developmental period,inner hair cells fire bursts of action potentials that are believed to provide a developmental code for synaptic maturation and refinement of auditory circuits,thereby establishing a precise tonotopic organization.Endogenous ATP-release triggers such patterned activity by raising the extracellular K+concentration and contributes to firing by increasing the excitability of auditory nerve fibers,spiral ganglion neurons,and specific neuron types within the auditory brainstem,through the activation of diverse P2 receptors.We review recent studies that provide new models on the contribution of purinergic signaling to early development of the afferent auditory pathway.Further,we discuss potential future directions of purinergic research in the auditory system.展开更多
This paper analyzes the effect of exposure to noise among industrial workers in Nigeria to discover the level of exposure to noise that causes auditory defects or noise-induced hearing loss (NIHL), this paper primaril...This paper analyzes the effect of exposure to noise among industrial workers in Nigeria to discover the level of exposure to noise that causes auditory defects or noise-induced hearing loss (NIHL), this paper primarily covers the evaluation of hearing impairment and its severity on exposure to loud sounds (acoustic trauma) and the role of hearing protective devices for industrial workers for prevention of Noise Induced Hearing Loss (NIHL). The paper also discusses the findings and guides as preventive methods for such industries. A total sample of seventy (70) workers were selected from three (3) manufacturing industries for this study. This study revealed a statistically significant difference in the hearing threshold within the selected industries over the selected period of time relating to the theory of excessive noise present in a given environment tends to affect people or in this case study employees hearing if proper hearing protection isn’t used for prolonged hours or time, the study also surveys the various effect of noise on human health including various steps of noise control in such settings.展开更多
It is well known that the human auditory system possesses remarkable capabilities to analyze and identify signals. Therefore, it would be significant to build an auditory model based on the mechanism of human auditory...It is well known that the human auditory system possesses remarkable capabilities to analyze and identify signals. Therefore, it would be significant to build an auditory model based on the mechanism of human auditory systems, which may improve the effects of mechanical signal analysis and enrich the methods of mechanical faults features extraction. However the existing methods are all based on explicit senses of mathematics or physics, and have some shortages on distinguishing different faults, stability, and suppressing the disturbance noise, etc. For the purpose of improving the performances of the work of feature extraction, an auditory model, early auditory(EA) model, is introduced for the first time. This auditory model transforms time domain signal into auditory spectrum via bandpass filtering, nonlinear compressing, and lateral inhibiting by simulating the principle of the human auditory system. The EA model is developed with the Gammatone filterbank as the basilar membrane. According to the characteristics of vibration signals, a method is proposed for determining the parameter of inner hair cells model of EA model. The performance of EA model is evaluated through experiments on four rotor faults, including misalignment, rotor-to-stator rubbing, oil film whirl, and pedestal looseness. The results show that the auditory spectrum, output of EA model, can effectively distinguish different faults with satisfactory stability and has the ability to suppress the disturbance noise. Then, it is feasible to apply auditory model, as a new method, to the feature extraction for mechanical faults diagnosis with effect.展开更多
Similar to the visual dual-pathway model, neurophysiological studies in non-human primates have suggested that the dual-pathway model is also applicable for explaining auditory cortical processing, including the ventr...Similar to the visual dual-pathway model, neurophysiological studies in non-human primates have suggested that the dual-pathway model is also applicable for explaining auditory cortical processing, including the ventral "what" pathway for object identification and the dorsal "where" pathway for spatial localization. This review summarizes evidence from human neuroimaging studies supporting the dual-pathway model for auditory cortical processing in humans.展开更多
AIM: To determine by brain functional magnetic resonance imaging (fMRI) whether cerebral processing of non-visceral stimuli is altered in irritable bowel syndrome (IBS) patients compared with healthy subjects. To...AIM: To determine by brain functional magnetic resonance imaging (fMRI) whether cerebral processing of non-visceral stimuli is altered in irritable bowel syndrome (IBS) patients compared with healthy subjects. To circumvent spinal viscerosomatic convergence mechanisms, we used auditory stimulation, and to identify a possible influence of psychological factors the stimuli differed in their emotional quality. METHODS: In 8 IBS patients and 8 controls, fMRI measurements were performed using a block design of 4 auditory stimuli of different emotional quality (pleasant sounds of chimes, unpleasant peep (2000 Hz), neutral words, and emotional words). A gradient echo T2*weighted sequence was used for the functional scans. Statistical maps were constructed using the general linear model. RESULTS: To emotional auditory stimuli, IBS patients relative to controls responded with stronger deactivations in a greater variety of emotional processing regions, while the response patterns, unlike in controls, did not differentiate between distressing or pleasant sounds. To neutral auditory stimuli, by contrast, only IBS patients responded with large significant activations. CONCLUSION: Altered cerebral response patterns to auditory stimuli in emotional stimulus-processing regions suggest that altered sensory processing in IBS may not be specific for visceral sensation, but might reflect generalized changes in emotional sensitivity and affectire reactivity, possibly associated with the psychological comorbidity often found in IBS patients.展开更多
Under the auditory evoked brain stem potential (ABP) examination, the latent period of V wave and the intermittent periods of III-V peak and I-V peak were significantly shortened in Parkinson's disease patient... Under the auditory evoked brain stem potential (ABP) examination, the latent period of V wave and the intermittent periods of III-V peak and I-V peak were significantly shortened in Parkinson's disease patients of the treatment group (N=29) after acupuncture treatment. The difference of cumulative scores in Webster's scale was also decreased in correlation analysis. The increase of dopamine in the brain and the excitability of the dopamine neurons may contribute to the therapeutic effects, in TCM terms, of subduing the pathogenic wind and tranquilizing the mind.……展开更多
Acquired atresia of the external auditory canal(EAC)is a rare cause of conductive hearing loss.It has been traditionally classified into 4 categories:traumatic,post-operative,neoplastic and inflammatory.Post-inflammat...Acquired atresia of the external auditory canal(EAC)is a rare cause of conductive hearing loss.It has been traditionally classified into 4 categories:traumatic,post-operative,neoplastic and inflammatory.Post-inflammatory acquired auditory canal atresia is thought to be the result of chronic and repetitive infectious bouts affecting the auditory canal.Nevertheless,the underlying pathophysiology of this disorder is yet to be fully elucidated.Current data fail to clearly state the impact that certain underlying systemic disorders may have on the EAC.The possible association to metabolic disturbances such as iron deficiency is also emphasized.In the light of these findings,this analysis can be used to improve the classification of this entity thereby standardizing the assessment of therapeutic approaches.展开更多
To characterize the patterns of ABR waves in tree shrews, we must understand the hearing sensitivity and auditory function of healthy adult tree shrews. Fifteen tree shrews(30 ears) were stimulated with clicks and ton...To characterize the patterns of ABR waves in tree shrews, we must understand the hearing sensitivity and auditory function of healthy adult tree shrews. Fifteen tree shrews(30 ears) were stimulated with clicks and tone-pips at 11 different frequencies from 1 to 60 kHz. The ABR waves were recorded and analyzed. The ABR consisted of five to seven positive waves in the first 10 ms after a click stimulus, and the average hearing threshold of component III was 27.86 ± 3.78 dB SPL. Wave III was the largest and most clear. The ABR threshold was related to the tone-pip sitmulus by a "U" shaped curve. The sensitive frequency was approximately 8 kHz in tree shrews. The latencies systematically decreased with increasing stimulus frequencies. The ABR amplitudes of wave III increased as the sound pressure level increased. All of these results provide an empirical basis for future studies of hearing diseases in tree shrews.展开更多
基金Project supported by the National Natural Science Foundation of China(Grant No.11605014)。
文摘The FitzHugh–Nagumo neuron circuit integrates a piezoelectric ceramic to form a piezoelectric sensing neuron,which can capture external sound signals and simulate the auditory neuron system.Two piezoelectric sensing neurons are coupled by a parallel circuit consisting of a Josephson junction and a linear resistor,and a binaural auditory system is established.Considering the non-singleness of external sound sources,the high–low frequency signal is used as the input signal to study the firing mode transition and synchronization of this system.It is found that the angular frequency of the high–low frequency signal is a key factor in determining whether the dynamic behaviors of two coupled neurons are synchronous.When they are in synchronization at a specific angular frequency,the changes in physical parameters of the input signal and the coupling strength between them will not destroy their synchronization.In addition,the firing mode of two coupled auditory neurons in synchronization is affected by the characteristic parameters of the high–low frequency signal rather than the coupling strength.The asynchronous dynamic behavior and variations in firing modes will harm the auditory system.These findings could help determine the causes of hearing loss and devise functional assistive devices for patients.
基金Partially supported by China National Science Foundation.
文摘A new auditory system model based on a combination of physiological and psycho-logical acoustic data has been proposed. This model consists of a bank of nonuniform bandpassfilters, detectors and main-frequency choosing mechanisms, they act as basilar membranes, innerhair cells and nerve fibers, respectively. Combining with the improved critical bandwidth pa-rameters, the input to this model is analogous to the pressure at the eardrum, and the outputof this model simulates various features of the firing pattern. The synthesizer obtains the resul-tant speech by use of the simple adding method. Computer simulations show that the resultantspeech is highly intelligible and natural. The proposed model is correct and the improvement ofthe critical bandwidth parameters is effective.
基金supported by the National Natural Science Foundation of China(31900775,31571136)the SCNU Young Faculty Research Award(18KJ09)the Key Realm R&D Program of Guangdong Province(2019B030335001)。
文摘Most infants who are later diagnosed with autism show delayed speech and language and/or atypical language profile.There is a large body of research on abnormal speech and language in children with autism.However,auditory development has been relatively under-investigated in autism research,despite its inextricable relationship with language development and despite researchers'ability to detect abnormalities in brain development and behavior in early infancy.In this review,we synthesize research on auditory processing in the prenatal period through infancy and childhood in typically developing children,children at high risk for autism,and children diagnosed with autism.We conclude that there are clear neurobiological and behavioral links between abnormal auditory development and the deficits in social communication seen in autism.We then offer perspectives on the need for a systematic characterization of early auditory development in autism,and identified questions to be addressed in future research on the development of autism.
基金supported by the Beijing Science and Technology Project Foundation of China, No.Z181100001718066(to HTL)。
文摘The current randomized controlled trial was performed at the China Rehabilitation Science Institute, China to test the hypothesis that musical auditory stimulation has positive effects on the autonomic nervous system of patients with disorder of consciousness.Although past studies have recommended that patients with disorder of consciousness listen to patient-preferred music, this practice is not universally accepted by researchers.Twenty patients with severe disorder of consciousness listened to either therapist-selected(n = 10, 6 males and 4 females;43.33 ± 18.76 years old) or patient-preferred(n = 10, 5 males and 5 females, 48.83 ± 18.79 years old) musical therapy, 30 minutes/day, 5 times/week for 6 weeks.The results showed no obvious differences in heart rate variability-related parameters including heart rate, standard deviation of normal-to-normal R-R intervals, and the root-mean-square of successive heartbeat interval differences of successive heartbeat intervals between the two groups of patients.However, percentage of differences exceeding 50 ms between adjacent normal number of intervals, low-frequency power/high-frequency power, high-frequency power norm, low-frequency power norm, and total power were higher in patients receiving therapist-selected music than in patients receiving their own preferred music.In contrast, this relationship was reversed for the high-frequency power and very-low-frequency band.These results suggest that compared with preferred musical stimulation, therapist-selected musical stimulation resulted in higher interactive activity of the autonomic nervous system.Therefore, therapist-selected musical stimulation should be used to arouse the autonomic nervous system of patients with disorder of consciousness.This study was approved by the Institutional Ethics Committee of China Rehabilitation Research Center, China(approval No.2018-022-1) on March 12, 2018 and registered with the Chinese Clinical Trial Registry(registration number Chi CTR1800017809) on August 15, 2018.
文摘Transcranial direct current stimulation(tDCS)has been reportedly beneficial for different neurodegenerative disorders.tDCS has been reported as a potential adjunctive or alternative treatment for auditory verbal hallucination(AVH).This study aims to review the effects of tDCS on AVH in patients with schizophrenia through combining the evidence from randomized clinical trials(RCTs).The databases of PsycINFO(2000–2019),PubMed(2000–2019),EMBASE(2000–2019),CINAHL(2000–2019),Web of Science(2000–2019),and Scopus(2000–2019)were systematically searched.The clinical trials with RCT design were selected for final analysis.A total of nine RCTs were eligible and included in the review.Nine RCTs were included in the final analysis.Among them,six RCTs reported a significant reduction of AVH after repeated sessions of tDCS,whereas three RCTs did not show any advantage of active tDCS over sham tDCS.The current studies showed an overall decrease of approximately 28%of AVH after active tDCS and 10%after sham tDCS.The tDCS protocols targeting the sensorimotor frontal-parietal network showed greater treatment effects compared with the protocols targeting other regions.In this regard,cathodal tDCS over the left temporoparietal area showed inhibitory effects on AVHs.The most effective tDCS protocol on AVHs was twice-daily sessions(2 mA,20-minute duration)over 5 consecutive days(10 sessions)with the anode over the left dorsolateral prefrontal cortex and the cathode over the left temporal area.Some patient-specific and diseasespecific factors such as young age,nonsmoking status,and higher frequencies of AVHs seemed to be the predictors of treatment response.Taken together,the results of tDCS as an alternative treatment option for AVH show controversy among current literatures,since not all studies were positive.However,the studies targeting the same site of the brain showed that the tDCS could be a promising treatment option to reduce AVH.Further RCTs,with larger sample sizes,should be conducted to reach a conclusion on the efficacy of tDCS for AVH and to develop an effective therapeutic protocol for clinical setting.
基金support from the UCL GRS/ORS scholarshipUCL Fellowship Incubator Award+9 种基金supported by the NIHR Cambridge Biomedical Research Centre(NIHR203312)funded by the Royal National Institute for Deaf People(RNID,G100138)funded by the Rosetrees Trust Enterprise Fellowship(EF2020100099)RNID Flexigrant(F112)Wellcome Trust Developing Concept Fund(RG93172/BANCE/40181)by the Evelyn Trustfunded by the Woolf Fisher Trust,New Zealandthe Cambridge Commonwealth,European,&International Trustby Trinity CollegeUniversity of Cambridge。
文摘The cochlea is one of the most complex organs in the human body,exhibiting a complex interplay of characteristics in acoustic,mechanical,electrical,and biological functions.Functional cochlea models are an essential platform for studying hearing mechanics and are crucial for developing next-generation auditory prostheses and artificial hearing systems for sensorineural hearing restoration.Recent advances in additive manufacturing,organ-on-a-chip models,drug delivery platforms,and artificial intelligence have provided valuable insights into how to manufacture artificial cochlea models that more accurately replicate the complex anatomy and physiology of the inner ear.This paper reviews recent advancements in the applications of advanced manufacturing techniques in reproducing the physical,biological,and intelligent functions of the cochlea.It also outlines the current challenges to developing mechanically,electrically,and anatomically accurate functional models of the inner ear.Finally,this review identifies the major requirements and outlook for impactful research in this field going forward.Through interdisciplinary collaboration and innovation,these functional cochlea models are poised to drive significant advancements in hearing treatments,and ultimately enhance the quality of life for individuals with hearing loss.
基金supported by grants from the National Natural Science Foundation of China(No.82171158,82271177,82271185,82171155)the National Key Research and Development,Project of China(No.2020YFC2008500).
文摘Mitochondria energize the inner ear to maintain the cochlear potential createdbythe striavascularis,assist the motility of outer hair cells,perform synaptic processes,and maintain the spontaneous and sound-driven discharges of the spiral ganglion neurons(SGNs).Mitophagy deficiencies induce the accumulation of damaged organelles and mitochondria in cells and are a primary cause of drug-induced hearing loss.
基金the Doctoral Startup Fund of the Second Affiliated Hospital of Xinxiang Medical University.
文摘BACKGROUND Auditory verbal hallucinations(AVHs)are believed to be characteristic symptoms of schizophrenia.The prevalence of AVHs in deaf patients with schizophrenia is comparable to that in patients with schizophrenia who have normal hearing ability.AVHs in deaf patients with schizophrenia require treatment.CASE SUMMARY A 22-year-old deaf woman with schizophrenia had experienced AVHs for 3 months.Her psychotic symptoms were not alleviated by antipsychotic medication alone.Modified electroconvulsive therapy in combination with antipsychotic drugs effectively alleviated her AVHs and disorganized behavior.During outpatient follow-up for 6 months,her condition have remained stable,and she has been able to take care of herself.CONCLUSION Treatment with modified electroconvulsive therapy was found to be safe and might be indicated for deaf patients whose symptoms are not well managed with antipsychotic medication alone.Deaf people might be unable to communicate through spoken language;therefore,to make proper diagnoses and provide appropriate treatment for these patients,psychiatrists must have patience and seek to understand patients’mental state.
文摘BACKGROUND Schizophrenia is a chronic psychiatric condition with complex symptomatology,including debilitating auditory hallucinations.Transcranial direct current stimulation(tDCS)has been explored as an adjunctive treatment to alleviate such symptoms.AIM To evaluate the therapeutic efficacy of tDCS in schizophrenia.METHODS Adhering to PRISMA guidelines,we systematically searched PubMed,Embase,Web of Science,and the Cochrane Library on September 19,2023,for randomized controlled trials examining the efficacy of tDCS in schizophrenia,with no language or time restrictions.We included studies that compared tDCS with a control condition and reported clinically relevant outcomes.Data extraction and quality assessments were performed by independent evaluators using the Cochrane Collaboration's risk of bias tool.Statistical heterogeneity was evaluated,and a random-effects model was applied due to moderate heterogeneity(I2=41.3%).RESULTS Nine studies comprising 425 participants(tDCS group:219,control group:206)were included.The meta-analysis demonstrated a significant reduction in auditory hallucination scores following tDCS treatment(weighted mean difference:-2.18,95%confidence interval:-4.0 to-0.29,P<0.01).Sensitivity analysis confirmed the robustness of the results,with no significant influence from individual studies.Additionally,publication bias was not detected,supporting the reliability and generalizability of the findings.These results underscore the efficacy of tDCS as a therapeutic intervention for auditory hallucinations in schizophrenia.CONCLUSION tDCS significantly reduces auditory hallucinations in schizophrenia,suggesting its potential as an effective adjunctive treatment for managing this disabling symptom.The findings highlight the practical significance of tDCS in clinical settings,particularly for patients with treatment-resistant auditory hallucinations.
文摘BACKGROUND The characteristics of cerebral hemodynamic indexes of patients with different types of auditory verbal hallucinations(AVHs)was not clear.AIM To explore the characteristics of cerebral hemodynamic indexes of patients with different types of AVHs and construct the risk nomogram prediction model of patients with different types of AVHs.METHODS Patients with different types of verbal hallucinations who visited Wenzhou Seventh People’s Hospital were retrospectively selected from March 2021 to March 2023,and these patients were classified into 117 cases of schizophrenia(SCZ)with AVHs,108 cases of post-traumatic stress disorder(PTSD)with AVHs,and 105 cases of recurrent depressive disorder with AVHs according to type.Transcranial doppler was performed to measure the hemodynamic parameters of the anterior cerebral artery(ACA),middle cerebral artery(MCA),posterior cerebral artery(PCA),basilar artery(BA)and vertebral artery(VA).Logistic regression modelling was used to explore the factors affecting patients with different types of AVHs and odds ratio,95%confidence interval(CI).A clinical prediction model was constructed,and the efficacy of the clinical prediction model was evaluated by using receiver operating characteristic,Hosmer-Lemeshow Goodness-of-Fit test,calibration curves and decision curve analysis.RESULTS The differences between the three groups of patients in mean velocity(Vm)-MCA,end-diastolic velocity(Vd)-MCA,Vm-ACA,pulsatility index(PI)-ACA,Vm-PCA,peak systolic velocity(Vs)-PCA,Vd-PCA,Vm-BA,Vs-BA,Vd-BA,PI-BA,resistance index(RI)-BA,Vm-VA,Vs-VA,Vd-VA,PI-VA,and RI-VA indexes were statistically significant.Rising Vm-ACA is an independent risk factor for SCZ with AVHs,and falling Vm-VA,Vd-MCA,and Vd-VA are independent risk factors for SCZ with AVHs.Rising Vm-ACA,Vm-PCA,Vs-PCA,Vd-PCA,Vm-BA,and Vs-BA are independent risk factors for PTSD with AVHs,and Vm-MCA,Vs-MCA,Vd-MCA,PI-PCA,and RIBA are independent protective factors for PTSD with AVHs.Elevated Vm-MCA,Vd-MCA,RI-BA,Vm-VA,and Vd-VA were independent risk factors,and elevated Vm-ACA,Vs-ACA,Vm-PCA,Vs-PCA,and Vd-PCA were independent protective factors.The areas under the curve of the three models were 0.82(95%CI:0.76-0.87),0.88(95%CI:0.83-0.92),and 0.81(95%CI:0.77-0.86),respectively;the Hosmer-Lemeshow Goodness-of-Fit test of the calibration curves of the three models suggests that P>0.05.CONCLUSION Monitoring the cerebral hemodynamic indexes of patients with AVHs is of practical significance in determining the type of mental disorder,which helps clinicians identify the type of AVHs and adopt more efficient treatment strategies to help patients recover.
文摘Objective: To study the relationship between cortical auditory evoked potential (CAEP) thresholds and behavioral thresholds in pediatric populations with sensorineural hearing loss (SNHL). Methods: Fifteen children (mean age 6.8 years) with bilateral SNHL underwent behavioral pure-tone audiometry and CAEP testing at 0.5, 1, 2, and 4 kHz. CAEP thresholds were determined using tone bursts, and correlations between CAEP and pure-tone thresholds were analyzed using Pearson correlation and t-tests. Results: A strong positive correlation was observed between P1 thresholds and behavioral thresholds across all test frequencies: 0.5 kHz (r = 0.765, p Conclusion: The strong correlation between P1 and behavioral thresholds demonstrates the reliability of CAEP testing for estimating auditory thresholds in children. These findings support the use of CAEP testing as a reliable objective tool for threshold estimation, particularly in cases where behavioral responses cannot be reliably obtained. When adjusted with frequency-specific correction values, CAEP testing provides a reliable method for assessing hearing thresholds in pediatric populations.
基金Supported by Yanbian University on Scientific Development and Application:No.36,yanda kehe zi[2013]
文摘Objective To explore the effect of acupuncture at "Jing Jiaji" (颈夹背) on sudden hearing loss by observing the changes of the threshold of auditory brainstem response (ABR) of deaf guinea pigs. Methods Sixty healthy guinea pigs were selected, with computer randomization, 20 were randomly divided into a normal control group (group A), while the rest were randomly and equally divided into a model group (group B) and an acupuncture group (group C) when turned deaf after gentamycin sulfate and furosemide were administered. No treatment was administered for either the group A or the group B, while acupuncture at "Jing Jiaji" was given for the group C for 30 days. The ABR thresholds of each group were observed and recorded separately after the treatment for 15 days and 30 days. Results The ABR threshold in the group C was lower than that in the group B after the treatment of 15 days (P〈O.05). After the treatment of 30 days, the ABR threshold in the group C was obviously lower than that in the group B (P〈0.01), and was obviously lower than that before acupuncture (P〈0.01). Conclusion Acupuncture at "Jing Jiaji" has definite effect on improving the hearing of deaf guinea pigs.
基金the Deutsche Forschungsgemeinschaft(DFG Grant 954/3-1)as a part of the priority program 1608“Ultrafast and temporally precise information processing:normal and dysfunctional hearing”。
文摘Purinergic P2 receptors,activated by endogenous ATP,are prominently expressed on neuronal and nonneuronal cells during development of the auditory periphery and central auditory neurons.In the mature cochlea,extracellular ATP contributes to ion homeostasis,and has a protective function against noise exposure.Here,we focus on the modulation of activity by extracellular ATP during early postnatal development of the lower auditory pathway.In mammals,spontaneous patterned activity is conveyed along afferent auditory pathways before the onset of acoustically evoked signal processing.During this critical developmental period,inner hair cells fire bursts of action potentials that are believed to provide a developmental code for synaptic maturation and refinement of auditory circuits,thereby establishing a precise tonotopic organization.Endogenous ATP-release triggers such patterned activity by raising the extracellular K+concentration and contributes to firing by increasing the excitability of auditory nerve fibers,spiral ganglion neurons,and specific neuron types within the auditory brainstem,through the activation of diverse P2 receptors.We review recent studies that provide new models on the contribution of purinergic signaling to early development of the afferent auditory pathway.Further,we discuss potential future directions of purinergic research in the auditory system.
文摘This paper analyzes the effect of exposure to noise among industrial workers in Nigeria to discover the level of exposure to noise that causes auditory defects or noise-induced hearing loss (NIHL), this paper primarily covers the evaluation of hearing impairment and its severity on exposure to loud sounds (acoustic trauma) and the role of hearing protective devices for industrial workers for prevention of Noise Induced Hearing Loss (NIHL). The paper also discusses the findings and guides as preventive methods for such industries. A total sample of seventy (70) workers were selected from three (3) manufacturing industries for this study. This study revealed a statistically significant difference in the hearing threshold within the selected industries over the selected period of time relating to the theory of excessive noise present in a given environment tends to affect people or in this case study employees hearing if proper hearing protection isn’t used for prolonged hours or time, the study also surveys the various effect of noise on human health including various steps of noise control in such settings.
基金supported by National Natural Science Foundation of China (Grant No. 50805021)
文摘It is well known that the human auditory system possesses remarkable capabilities to analyze and identify signals. Therefore, it would be significant to build an auditory model based on the mechanism of human auditory systems, which may improve the effects of mechanical signal analysis and enrich the methods of mechanical faults features extraction. However the existing methods are all based on explicit senses of mathematics or physics, and have some shortages on distinguishing different faults, stability, and suppressing the disturbance noise, etc. For the purpose of improving the performances of the work of feature extraction, an auditory model, early auditory(EA) model, is introduced for the first time. This auditory model transforms time domain signal into auditory spectrum via bandpass filtering, nonlinear compressing, and lateral inhibiting by simulating the principle of the human auditory system. The EA model is developed with the Gammatone filterbank as the basilar membrane. According to the characteristics of vibration signals, a method is proposed for determining the parameter of inner hair cells model of EA model. The performance of EA model is evaluated through experiments on four rotor faults, including misalignment, rotor-to-stator rubbing, oil film whirl, and pedestal looseness. The results show that the auditory spectrum, output of EA model, can effectively distinguish different faults with satisfactory stability and has the ability to suppress the disturbance noise. Then, it is feasible to apply auditory model, as a new method, to the feature extraction for mechanical faults diagnosis with effect.
基金This work was supported by the National Natural Science Foundations of China (No. 30711120563, No. 30670704, and No. 60535030).
文摘Similar to the visual dual-pathway model, neurophysiological studies in non-human primates have suggested that the dual-pathway model is also applicable for explaining auditory cortical processing, including the ventral "what" pathway for object identification and the dorsal "where" pathway for spatial localization. This review summarizes evidence from human neuroimaging studies supporting the dual-pathway model for auditory cortical processing in humans.
文摘AIM: To determine by brain functional magnetic resonance imaging (fMRI) whether cerebral processing of non-visceral stimuli is altered in irritable bowel syndrome (IBS) patients compared with healthy subjects. To circumvent spinal viscerosomatic convergence mechanisms, we used auditory stimulation, and to identify a possible influence of psychological factors the stimuli differed in their emotional quality. METHODS: In 8 IBS patients and 8 controls, fMRI measurements were performed using a block design of 4 auditory stimuli of different emotional quality (pleasant sounds of chimes, unpleasant peep (2000 Hz), neutral words, and emotional words). A gradient echo T2*weighted sequence was used for the functional scans. Statistical maps were constructed using the general linear model. RESULTS: To emotional auditory stimuli, IBS patients relative to controls responded with stronger deactivations in a greater variety of emotional processing regions, while the response patterns, unlike in controls, did not differentiate between distressing or pleasant sounds. To neutral auditory stimuli, by contrast, only IBS patients responded with large significant activations. CONCLUSION: Altered cerebral response patterns to auditory stimuli in emotional stimulus-processing regions suggest that altered sensory processing in IBS may not be specific for visceral sensation, but might reflect generalized changes in emotional sensitivity and affectire reactivity, possibly associated with the psychological comorbidity often found in IBS patients.
文摘 Under the auditory evoked brain stem potential (ABP) examination, the latent period of V wave and the intermittent periods of III-V peak and I-V peak were significantly shortened in Parkinson's disease patients of the treatment group (N=29) after acupuncture treatment. The difference of cumulative scores in Webster's scale was also decreased in correlation analysis. The increase of dopamine in the brain and the excitability of the dopamine neurons may contribute to the therapeutic effects, in TCM terms, of subduing the pathogenic wind and tranquilizing the mind.……
文摘Acquired atresia of the external auditory canal(EAC)is a rare cause of conductive hearing loss.It has been traditionally classified into 4 categories:traumatic,post-operative,neoplastic and inflammatory.Post-inflammatory acquired auditory canal atresia is thought to be the result of chronic and repetitive infectious bouts affecting the auditory canal.Nevertheless,the underlying pathophysiology of this disorder is yet to be fully elucidated.Current data fail to clearly state the impact that certain underlying systemic disorders may have on the EAC.The possible association to metabolic disturbances such as iron deficiency is also emphasized.In the light of these findings,this analysis can be used to improve the classification of this entity thereby standardizing the assessment of therapeutic approaches.
基金supported by Natural Science Foundation of China[grant numbers 81760188]Scientific Research Fund of Guangxi Provincial Education Department [grant numbers 2017KY0103 (02601217023C)]
文摘To characterize the patterns of ABR waves in tree shrews, we must understand the hearing sensitivity and auditory function of healthy adult tree shrews. Fifteen tree shrews(30 ears) were stimulated with clicks and tone-pips at 11 different frequencies from 1 to 60 kHz. The ABR waves were recorded and analyzed. The ABR consisted of five to seven positive waves in the first 10 ms after a click stimulus, and the average hearing threshold of component III was 27.86 ± 3.78 dB SPL. Wave III was the largest and most clear. The ABR threshold was related to the tone-pip sitmulus by a "U" shaped curve. The sensitive frequency was approximately 8 kHz in tree shrews. The latencies systematically decreased with increasing stimulus frequencies. The ABR amplitudes of wave III increased as the sound pressure level increased. All of these results provide an empirical basis for future studies of hearing diseases in tree shrews.
