The Auditory Brainstem and Middle Latency Responses in Healthy Mice

The auditory brainstern responses(ABR)and middle latency responses(MLR)were recorded in 24 normal mice with a 7S11A processor,and the normalparameters of ABR and MLR obtained.The results showed that the ABR of mice werecomposed of 6 waves,waves Ⅰ to Ⅵ.The mean threshold was 35.12±8.03 dB ,whichwas significantly different from the 22.63 dB of ABR found in guinea pigs.Thelatency of ABR waves Ⅰ to Ⅵizn the mice was found to be 1.30±8.03 ms ;2.02±0.24ms ;2.90±0.27 ms ;3.80±0.24 ms ;4.87±0.42 ms and 5.83±0.40 ms respectively.Nosex or strain differences were found.The MLR waveform of the mice were similar tothose of human and the latency was found to be P0 3.94±1.76 ms;P8.38±1.57ms;Na 14.98±2.54 ms;Pa 24.56±3.15 ms rcspectively.It is suggested that mice can beused for hearing research.Since the Na and Pa waves of MLR were unstable under anes-thesia,testing conditions for determining MLR in mice need further study.

AUDITORY BRAINSTEM RESPONSES IN SENILE PRESBYCUSIS PATIENTS OVER 90 YEARS

Objective To analyze the characteristics of auditory brainstem response (ABR) in presbycusis patients el-der than 90 years. Methods Fourteen presbycusis patients elder than 90 years (presbycusis group, 91.1.4 ± 1.3 years, 26 ears) and 9 normal-hearing young adults (control group, 22.7 ± 1.2 years, 18 ears) participated in the study. Alternative click-evoked ABRs were recorded in both groups. The peak latency (PL) of peak I,Ⅲ, and V, and the inter-peak latency (IPI) of I-Ⅲ,Ⅲ-V, and I-V were compared between groups. Results In elder presbycusis patients, the occurrence rate of peak I andⅢwere both 76.9%, and that of peak V was 84.6%. In presbycusis group, the peak latencies of I, Ⅲ, V were significantly longer than that of control group (P<0.001). There was no significant difference between groups in the IPI of peak I-IⅢ (P=0.298, peakⅢ-V (P=0.254) and peak I-V (P=0.364). Conclusions Auditory brainstem responses in presbycusis pa-tients elder than 90 years showed worse wave differentiation.

Effects of glutamate on distortion-product otoacoustic emissions and auditory brainstem responses in guinea pigs

Objectives To investigate changes in evoked potentials and structure of the guinea pig cochleae during whole cochlear perfusion with glutamate. Methods CM, CAP, DPOAE, and ABR were recorded as indicators of cochlear functions during whole cochlear perfusion. The morphology of the cochlea was studied via transmission electron microscopy. Results There were no significant changes in DPOAE amplitude before and after glutamate perfusion. CM I/O function remained nonlinear during perfusion. ABR latencies were delayed following glutamate perfusion. The average CAP threshold was elevated 35 dB SPL following glutamate perfusion.. The OHCs appeared normal, but the IHCs and afferent dendrites showed cytoplasmic blebs after glutamate perfusion. Conclusions While being a primary amino acid neurotransmitter at the synapses between hair cells and spiral ganglion neurons, excessive glutamate is neurotoxic and can destroy IHCs and spiral ganglion neurons. The technique used in this study can also be used to build an animal model of auditory neuropathy.

The characterization of auditory brainstem response(ABR) waveforms: A study in tree shrews(Tupaia belangeri)

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.

Analysis of the variability of auditory brainstem response components through linear regression

The analysis of the Auditory Brainstem Response (ABR) is of fundamental importance to the investigation of the auditory system behavior, though its interpretation has a subjective nature because of the manual process employed in its study and the clinical experience required for its analysis. When analyzing the ABR, clinicians are often interested in the identification of ABR signal components referred to as Jewett waves. In particular, the detection and study of the time when these waves occur (i.e., the wave latency) is a practical tool for the diagnosis of disorders affecting the auditory system. In this context, the aim of this research is to compare ABR manual/visual analysis provided by different examiners. Methods: The ABR data were collected from 10 normal-hearing subjects (5 men and 5 women, from 20 to 52 years). A total of 160 data samples were analyzed and a pair- wise comparison between four distinct examiners was executed. We carried out a statistical study aiming to identify significant differences between assessments provided by the examiners. For this, we used Linear Regression in conjunction with Bootstrap, as a method for evaluating the relation between the responses given by the examiners. Results: The analysis suggests agreement among examiners however reveals differences between assessments of the variability of the waves. We quantified the magnitude of the obtained wave latency differences and 18% of the investigated waves presented substantial differences (large and moderate) and of these 3.79% were considered not acceptable for the clinical practice. Conclusions: Our results characterize the variability of the manual analysis of ABR data and the necessity of establishing unified standards and protocols for the analysis of these data. These results may also contribute to the validation and development of automatic systems that are employed in the early diagnosis of hearing loss.

Auditory brainstem functioning in individuals with misophonia

Purpose:Misophonia is not investigated much from an audiological perspective.Our study aims to examine the processing of the auditory retro-cochlear pathways in individuals with misophonia.Methods:A cross-sectional study was conducted among university students who had misophonia.The revised Amsterdam Misophonia Scale was used to determine the severity of misophonia.Participants were divided into mild and moderate-severe misophonia and compared with the healthy control group.Auditory Brainstem Response testing was recorded from all the individuals with misophonia.The absolute latency,amplitude,inter-peak latency difference,and inter-rate latency difference were compared between the groups.Results:One-way ANOVA result showed no significant difference in all the parameters of auditory brainstem response between the groups.These results are suggestive of normal brainstem processing in individuals with misophonia.Conclusions:The study concludes that the auditory pathway up to brainstem areas is intact in individuals with misophonia.Further studies are essential on a larger population for generalizing the results.

Evaluation of SON’OR^(█),a Medical Device for Provoked Otoacoustic Emissions and Brainstem Evoked Response Audiometry Made in Cameroon

Background: There is a huge gap in the audiological care in Africa by comparison with Western countries. Its main reason is the prohibitive cost of the medical devices used to screen or diagnose patients. A Cameroonian team tackled this problem by developing a medical device (SON’OR&copy;) which integrates a new instrumentation amplifier structure dedicated to perform otoacoustic emissions (OAE) and brainstem evoked response audiometry (BERA). The major technical challenges to perform OAE and BERA are the synchronization and the amplification of signals of very low amplitude. In this work, we emphasize on the general criteria necessary and indispensable to achieve an optimal amplification. The application of a novel instrumentation amplifier structure characterized by its optimized noise factor in the case of BERA and OEA emissions provides simulations and experimental results fully in line with forecasts. The design of SON’OR&copy;is based on general techniques of electronic instrumentation to which we associated the new instrumentation amplifier structure. Objective: To report the clinical evaluation of SON’OR&copy;as a screening and diagnostic tool. Methods: We conducted a cross sectional comparative study in Centre Hospitalier d’Essos in Yaoundé. We tested SON’OR&copy;on two sets of subjects, one for OAE with OTODYNAMICS Echoport ILO 292-II as gold standard and the other for BERA with NEUROSOFT NEURO AUDIO&copy;as gold standard. Each patient was tested with both devices and then we studied the inter device differences and calculated the sensitivity, specificity, positive predictive value and negative predictive value for each test. Results: We got 52 subjects for OEA and 51 for BERA testing. Sex ratio was 1 woman for 2 men in both groups. Mean age was 24.86(SD = 10.53) and 26.33 (10.55) for OAE and BERA groups respectively. SON’OR&copy;had good performances, showing sensitivity of 92.85%/95%, specificity of 96.77%/90.47%, positive predictive value of 95.21%/93.44% and negative predictive value of 95.23%/92.68% for OAE/ BERA respectively. Conclusion: SON’OR&copy;has good characteristics as a medical diagnostic tool. Furthermore its stability and performances in poor electrical conditions make it a robust device really suited for resource limited settings.

受试者测试状态对卡尔曼加权平均ABR测试残余噪声的影响

目的探讨采用卡尔曼加权平均(Kalman-weighted averaging,KWA)的听性脑干反应(ABR)测试中,受试者不同测试状态对残余噪声及ABR波V振幅的影响。方法选取21例(42耳)18~34岁听力正常成年人,分别在安静诊室内三种不同的状态下(安静平卧、坐位、写字)使用卡尔曼加权平均的新型ABR系统(vivosonic integrity system)进行ABR测试,同时使用传统ABR测试系统(interacoustics,IA)在隔声屏蔽室内进行ABR测试,记录各状态下受试者ABR反应的残余噪声水平和波V幅值并进行比较。结果①传统ABR和卡尔曼加权平均ABR三种不同测试状态(平卧、坐位、写字)下波V振幅没有显著差异(P>0.05);②卡尔曼加权平均ABR安静平卧和坐位两种状态下的残余噪声水平较传统ABR低,但无统计学差异(P>0.05);卡尔曼加权平均ABR在写字状态下的残余噪声水平显著高于其他三种状态(P<0.05);③写字状态下卡尔曼加权平均ABR的残余噪声、波V振幅在左右耳之间没有显著差异(P>0.05)。结论与传统ABR相比,卡尔曼加权平均ABR在写字状态下的残余噪声显著升高,但安静平卧和坐位状态下的残余噪声水平与传统ABR无显著差异,受试者的不同测试状态对残余噪声水平有一定影响。

成人CE-Chirp ABR反应阈与纯音听阈相关分析与比较

目的 采用听神经同步专利刺激声(CE-Chirp声)对成人听性脑干反应(auditory brainstem response,ABR)进行测试,分析CE-Chirp ABR测试的V波反应阈与纯音听阈的关系,研究CE-Chirp声在法医学鉴定听觉功能障碍评估中的作用。方法 选择常州市德安医院2018年1月—2019年6月进行CE-Chirp ABR测试的受试者(年龄为20~77周岁,共计100耳),获得V波反应阈值,并在0.5、1.0、2.0、4.0 kHz分别进行纯音气导听阈测试,获得纯音听阈值,按照不同听力水平及不同年龄对受试者进行分组。比较不同听力水平及不同年龄组平均纯音听阈与V波反应阈之间的差值及统计学差异;对所有受试者各频率两种方法之间的相关性、差值及统计学差异进行分析;建立所有受试者CE-Chirp ABR V波反应阈推断纯音听阈的线性回归方程,并检验其推断纯音听阈的可行性。结果 不同听力水平及不同年龄组各组之间CE-Chirp ABR反应阈与纯音听阈差值的差异无统计学意义(P>0.05);各频率成人CE-Chirp ABR V波反应阈与纯音听阈之间相关性良好,两者之间差异具有统计学意义(P<0.05),线性回归分析显示两者之间有线性相关关系(P<0.05)。结论 运用CE-Chirp ABR Ⅴ波反应阈在一定条件下能够评估受试者的纯音听阈,可以作为一种听力学测试方法用于法医学听觉障碍评估。

多种听力学检测方法在未引出听性脑干反应患儿诊断中的价值

目的探讨多种听力学检测方法在听性脑干反应(ABR)最大输出未引出患儿的听力学诊断中的应用价值。方法回顾性分析69例(138耳)ABR最大强度未引出患儿的临床资料,年龄42天到5岁,平均1岁6个月,鼓室导抗图均为A型或正向单峰,声反射均未引出,影像学检查内耳无畸形。69例患儿均进行ABR、耳蜗微音电位(CM)、畸变产物耳声发射(DPOAE)和听性稳态反应(ASSR)测试。结果69例138耳中,8例16耳(11.59%)记录到CM,其中10耳(7.25%)记录到DPOAE,0.5、1、2、4 kHz ASSR反应阈值分别为83.2±13.1、82.9±13.0、75.3±12.4、63.1±9.1 dB nHL,结合其他检查结果诊断为听神经病。余61例(122耳)CM和DPOAE均未引出,0.5、1、2、4 kHz的ASSR引出率分别为82.3%、81.9%、76.9%、60.2%,其中20耳ASSR各频率均未引出,102耳至少一个频率引出,0.5、1、2、4 kHz ASSR反应阈分别为93.2±6.1、99.8±7.0、105.4±5.4、108.2±9.8 dB nHL,诊断为极重度感音神经性聋。结论对于ABR最大输出强度未引出的患儿,CM和/或DPOAE引出且ASSR各频率反应阈低于感音神经性聋患儿,有助于听神经病的诊断;CM和DPOAE均未引出有助于极重度感音神经性聋的诊断,ASSR测试有助于评估其残余听力。

正常成年人水平特异性CE-Chirp刺激声与Click刺激声诱发听性脑干反应的比较

目的研究正常成年人水平特异性CE-Chirp(level specific CE-Chirp,CE-Chirp LS)刺激声与Click刺激声诱发听性脑干反应(auditory brainstem response,ABR)反应阈与纯音听阈的关系及在不同声强下两种刺激声所诱发的ABR波形特点,探讨CE-Chirp LS声诱发的ABR在听觉功能客观评估中的应用价值。方法选择正常成年人21例(共42耳)分别在0.5、1.0、2.0、4.0 kHz进行纯音气导听阈测试,获取其双耳各频率的纯音听阈,分别采用CEChirp LS刺激声与Click刺激声诱发ABR,测量2种刺激声在80、60、40 dB nHL的Ⅴ波波幅,获得2种刺激声下受试者的Ⅴ波反应阈,获取其在80 dB nHL刺激强度时Ⅰ、Ⅲ、Ⅴ波潜伏期。按照自身对照的方法对相同刺激强度下2种刺激声诱发的ABR潜伏期及波幅差异性进行统计分析,比较2种刺激声下Ⅴ波反应阈与纯音听阈差值。结果正常成年人80、60、40 dB nHL刺激强度下,CE-Chirp LS刺激声诱发的ABR的Ⅴ波波幅均大于Click刺激声,差异有统计学意义(P<0.001);CE-Chirp LS刺激声诱发的ABR的V波反应阈与纯音平均听阈差值均低于Click刺激声,差异有统计学意义(P<0.05);80 dB nHL声强下CE-Chirp LS刺激声Ⅰ波潜伏期长于Click刺激声,差异有统计学意义(P<0.001),CE-Chirp LS刺激声Ⅲ、Ⅴ波潜伏期与Click刺激声比较,差异无统计学意义(P>0.05)。结论正常成年人CE-Chirp LS刺激声与Click刺激声比较,无论在高强度还是低强度刺激下波幅均明显增大,Ⅴ波反应阈更接近于纯音听阈,更有利于纯音听阈判定,但潜伏期个体差异更大。

人工耳蜗植入术后电诱发听性脑干反应的电生理特征与参数优化研究

目的研究不同测试参数对电诱发听性脑干反应(electrical auditory brainstem response,EABR)波形的影响,选择优化的人工耳蜗术后EABR测试参数,探讨EABR与人工耳蜗术后行为测试结果之间的关系。方法选取17名人工耳蜗植入者,记录和分析不同刺激电极位置、脉冲间隔和交替/非交替双相脉冲电流下EABR波V的引出率、阈值和潜伏期等特征,分析不同刺激电极位置下EABR阈值与行为学T、C值的相关性。结果(1)蜗顶处EABR的V波阈值(90.58±27.39 CU)显著小于蜗中处(106.98±15.66 CU);(2)蜗顶处的V波潜伏期(4.47±0.357 ms)显著短于蜗中处(4.72±0.335 ms);(3)采用交替双相脉冲电流的电伪迹幅值(9.40±12.35μV)显著小于非交替脉冲(19.49±15.12μV);(4)蜗顶处EABR阈值与行为测试的T值和C值均有显著相关性。结论EABR的刺激电极位置和脉冲电流类型均影响波形结果,蜗顶电刺激比蜗中更易引出理想的EABR波形,使用交替双相脉冲电流刺激可有效减少电伪迹的影响。EABR阈值可为人工耳蜗术后开机和调试提供参考。

皮层听觉诱发电位在听力障碍法医学鉴定中的应用

目的 分析残余噪声水平(residual noise level,RNL)对听性脑干反应(auditory brainstem response,ABR)有效识别率的影响,ABR与40 Hz听觉事件相关电位(40Hz audiotory event related potential,40HzAERP)和皮层听觉诱发电位(cortical auditory evoked potential,CAEP)反应阈相关性,探讨CAEP应用于听力障碍法医学鉴定的意义。方法 对26例52耳听力障碍法医学鉴定人群进行听觉神经电生理测试,测量并分析左右两耳所有ABR曲线中的RNL最大值,分析CAEP结果,分析ABR与40HzAERP、CAEP反应阈相关性。结果 ABR曲线有效识别率92.31%,CAEP均可有效识别为引出或未引出反应。1、2 kHz短纯音刺激CAEP反应幅值均高于ABR;ABR与1、2 kHz短纯音刺激的40HzAERP反应阈无相关,差异无统计学意义(P>0.05);ABR与1、2 kHz短纯音刺激的CAEP反应阈无相关,差异无统计学意义(P>0.05);1、2 kHz短纯音刺激40HzAERP与CAEP反应阈无相关,差异无统计学意义(P>0.05)。结论 CAEP不易受到RNL异常增高因素的影响,可获得较为可靠的测试结果,且具有频率特异性,反应阈值与其他客观听力测试结果之间具有稳定的相关性,可作为因RNL异常增高导致ABR无法测试人群进行听力障碍法医学鉴定的方法之一。

良性阵发性位置性眩晕患者的耳石器及半规管功能分析

目的探讨良性阵发性位置性眩晕(BPPV)对耳石器及半规管功能的影响及其可能的发病因素。方法选择2022年12月-2023年6月本院收治的单管良性阵发性位置性眩晕患者作为研究对象,分别行视频头脉冲试验(vHIT)、前庭肌源诱发电位(VEMP)、听性脑干反应(ABR),分析其检测结果。结果后半规管BPPV患者与水平半规管BPPV患者vHIT、cVEMP、oVEMP、ABR检查结果异常侧别分布情况比较,差异无统计学意义(P>0.05),但在老年水平半规管BPPV患者的oVEMP双侧异常率(41.2%)比后半规管BPPV患者的oVEMP双侧异常率(10.3%)高,两组差异存在统计学意义(P<0.05)。青中年BPPV患者的ABR双侧异常率(15.2%)低于老年BPPV患者的ABR双侧异常率(33.9%),差异存在统计学意义(P<0.05);青中年BPPV患者与老年BPPV患者vHIT、cVEMP、oVEMP检查结果异常侧别分布情况比较,差异无统计学意义(P>0.05)。结论BPPV可见于半规管弥漫性损伤,内耳循环障碍可引起耳石器功能障碍,其可能是BPPV的发病因素。

正常听力青年人不同刺激声下的听性脑干反应与纯音听阈测定的相关性

目的:对青年人进行纯音听阈(PTA)、短声听性脑干反应(Click-ABR)和CE-Chirp刺激声听性脑干反应(CE-Chirp-ABR)测试,分析在不同声刺激声下的听性脑干反应与PTA均值之间的关系。方法:选择30名(60耳)青年人,记录双耳0.5、1.0、2.0、4.0 kHz下PTA、Click-ABR和CE-Chirp-ABR的反应阈,分析Click-ABR和CE-Chirp-ABR反应阈与PTA均值之间的关系。结果:Click-ABR与PTA均值呈正相关(r=0.421,P<0.001);CE-Chirp-ABR的1.0、2.0、4.0 kHz与PTA均值均呈正相关(r值分别为0.312,0.359,0.390,均P<0.05),而在0.5 kHz时相关性无统计学意义(P>0.05)。结论:在低频(1.0 kHz)处,CE-Chirp-ABR比Click-ABR更具临床应用价值,而在更低频(0.5 kHz)的应用效果还需进一步研究。

听力正常孤独症谱系障碍儿童的听性脑干反应波形特征分析

目的 探究听力正常孤独症谱系障碍(autism spectrum disorder,ASD)儿童的听性脑干反应(ABR)特征及各波潜伏期和波间期与ASD严重程度分级的关系。方法 (1)将55例(110耳)听力正常ASD儿童和月龄、性别相匹配的55例(110耳)典型发育(typical development,TD)儿童,按月龄分为≤24月龄(22耳)、25~36月龄(40耳)、37~48月龄(28耳)及>48月龄(20耳)四个亚组。比较听力正常ASD儿童与TD儿童的ABR潜伏期和波间期是否存在差异。(2)根据第五版精神障碍诊断与统计手册(DSM-V)将ASD儿童按照严重程度分级,探究听力正常ASD儿童ABR各波潜伏期和波间期与其严重程度分级是否相关。结果 (1)≤24月龄时,ASD与TD儿童ABR各波潜伏期及波间期差异均无统计学意义(P>0.05);(2)25~36月龄时,与TD儿童相比,听力正常ASD儿童波Ⅲ潜伏期及Ⅰ-Ⅲ、Ⅰ-Ⅴ波间期显著延长;37~48月龄时波Ⅲ、Ⅴ潜伏期及Ⅰ-Ⅲ、Ⅲ-Ⅴ、Ⅰ-Ⅴ波间期显著延长;>48月龄时波Ⅴ潜伏期及Ⅲ-Ⅴ、Ⅰ-Ⅴ波间期显著延长(P<0.05);(3)ASD严重程度分级越高,ASD儿童波Ⅲ、Ⅴ潜伏期及Ⅰ-Ⅲ、Ⅲ-Ⅴ、Ⅰ-Ⅴ波间期越长(P<0.05)。结论 自25月龄起听力正常ASD儿童与TD儿童的听觉脑干通路发育水平便显现差异,听力正常ASD儿童的听觉脑干发育水平显著落后于同龄TD儿童。听力正常ASD儿童的ABR波潜伏期和波间期与其严重程度分级相关。

职业噪声暴露听力正常人耳蜗突触损伤的研究

目的探究职业噪声暴露下的不同听力学检查方法,对发现常频听力正常人群耳蜗突触损伤的临床意义,为噪声性耳蜗突触病变的研究提供参考。方法选取2021年4月—2022年4月浙江中医药大学健康体检者104例(104耳)为研究对象,按照噪音强度分为接噪组和对照组,每组52例。接噪组接受高强度噪声暴露,对照组接受非噪声暴露,采用纯音测听、噪声下言语测听、畸变产物耳声发射、言语声诱发听性脑干反应4种听力学测试,分析两组各测试结果差异和测试间的相关性。结果对照组在9~16 kHz纯音听阈显著好于接噪组,差异有统计学意义(P<0.01);接噪组噪声下言语测听信噪比损失显著高于对照组,差异有统计学意义(P<0.05);两组畸变产物耳声发射在4~10 kHz比较,差异有统计学意义(P<0.05);两组言语诱发听性脑干反应V、A、O波潜伏期比较,差异有统计学意义(P<0.01),V/A斜率比较,差异有统计学意义(P<0.05)。对照组快速傅里叶变换F1幅值显著高于接噪组,差异有统计学意义(P<0.05);PTAEHF和D波潜伏期与DPmean呈负相关,除了E波其余各波潜伏期均与V/A斜率负相关。结论职业噪声暴露导致可能的耳蜗突触损伤表现为PTAEHF升高,畸变产物耳声发射信噪比下降,噪声下言语识别能力的下降和言语诱发听性脑干反应潜伏期的延迟,联合测试可以提高发现的准确性并及时干预。

婴幼儿短纯音听性脑干反应阈预测模型研究

目的通过短声听性脑干反应阈(click auditory brainstem responses,c-ABR)及500 Hz短纯音听性脑干反应阈(500 Hz-tone burst ABR,tb-500 Hz),预测tb-1000 Hz、tb-2000 Hz及tb-4000 Hz的反应阈,为临床婴幼儿tb-ABR反应阈预估及测试组合提供参考。方法选取65例(118耳)婴幼儿作为研究对象,年龄分布在2~36月龄,平均月龄13.9±2.8月。分别进行c-ABR、tb-500 Hz、tb-1000 Hz、tb-2000 Hz、tb-4000 Hz反应阈测试。随机选取60耳以tb-500 Hz和c-ABR反应阈建立预测tb-1000 Hz、tb-2000 Hz、tb-4000 Hz反应阈的多元线性回归方程,余58耳使用配对t检验和Bland-Altman法验证方程预测值与实际所测得的tb-1000 Hz、tb-2000 Hz、tb-4000 Hz反应阈的关系。结果tb-1000 Hz、tb-2000 Hz和tb-4000 Hz三组多元线性回归方程分别为:Y1=1.698+0.578X_(1)+0.382X_(2),R^(2)=0.924,P<0.001;Y2=1.814+0.230X_(1)+0.722X_(2),R^(2)=0.933,P<0.001;Y4=4.735-0.018X_(1)+0.969X_(2),R^(2)=0.920,P<0.001。配对t检验显示,tb-1000 Hz实测值与方程预测值差异不存在统计学意义(P=0.271),tb-2000 Hz和tb-4000 Hz实测值与方程预测值差异存在统计学意义(P=0.006,P=0.008)。Bland-Altman法显示三组实测值与方程预测值差值超出95%一致限(limits of agreement,LoA)的95%置信区间(confidence interval,CI)均<5%。结论本研究建立的多元线性回归方程可预测tb-1000 Hz、tb-2000 Hz、tb-4000 Hz反应阈,快速获得受试儿各频率反应阈,节省测试时间。临床诊断时,可优先组合c-ABR和tb-500 Hz反应阈,若条件允许,可进一步完成tb-1000 Hz、tb-2000 Hz和tb-4000 Hz的反应阈测试。

水合氯醛应用于儿童ABR检测的安全性和有效性研究

目的分析水合氯醛应用于儿童听性脑干反应(ABR)检测的安全性和有效性。方法选取2015年12月至2022年3月在四川大学华西医院接受水合氯醛镇静(剂量30 mg/kg)进行ABR检查、年龄小于12岁的患儿5513例次(≤0.5岁2509例次、0.5~3岁2548例次、3~12岁546例次)为研究对象。回顾性分析镇静失败患者喂服方式(混合或直接喂服)、睡眠剥夺(是或否)、镇静失败表现(如无法入睡、镇静不足、浅睡眠状态)、不良事件(呕吐、烦躁等)等资料。计算总镇静失败率、不同年龄组镇静失败率及不良事件发生率。结果5513例次中镇静失败199例次(3.61%),上述不同年龄组镇静失败率分别为3.03%、4.31%、3.11%。199例次中,81.91%例次表现为镇静不足。不良事件发生率为10.55%,其中呕吐最常见。结论本研究对儿童ABR检测时镇静失败率及不良事件发生率相对既往国内外研究较低,可认为水合氯醛在此剂量安全有效。

1800 MHz电磁辐射对豚鼠空间记忆及听觉系统影响的初步研究

目的研究1800 MHz急性电磁辐射(electromagnetic radiation,EMR)对豚鼠听阈、记忆、海马及听皮层超微结构的影响。方法32只豚鼠随机分为假辐射组(Sham)8只、2 w/kg组(E2A)8只、4 w/kg组(E4A)8只、10 w/kg组(E10A)8只。Sham组、E2A组、E4A组、E10A组分别暴露于比吸收率(specific absorption rate,SAR)为0、2、4、10 w/kg的辐射源中连续48 h。比较辐射前后听性脑干反应(auditory brainstem response,ABR)检测阈值变化;辐射后Morris水迷宫观察空间记忆能力;活性氧簇(reactive oxygen species,ROS)含量变化;海马、听觉皮层组织超微结构改变。结果辐射后,Sham组、E2A组、E4A组、E10A组ABR阈值与本组辐射前比较,差异无统计学意义(P>0.05);E4A组、E10A组中央活动路程缩短;辐射组氧化应激水平升高;辐射组神经元损伤及线粒体结构破坏,E10A组最明显。结论1800 MHz急性电磁辐射不影响豚鼠听阈,随着辐射强度的增强,超微结构损伤和氧化应激水平逐渐加重,可能影响空间记忆能力。