有关猫听觉脑干电反应（ABR）两耳干涉作用的研究

用不同声强稳态白噪声和短声同时分别刺激两耳,观察白噪声负荷侧耳蜗破坏前后另一侧ＡＢＲ的改变,探讨两耳干涉作用及其可能的机制。结果显示,对侧耳蜗破坏前,４０ｄＢ和７５ｄＢ白噪声对０ｄＢ、４５ｄＢ、７０ｄＢ和７５ｄＢＳＰＬ的短声诱发的ＡＢＲ各波振幅均有明显影响（Ｐ＜０．０５０．０１）。耳蜗破坏后,同样条件下记录的ＡＢＲ振幅基本无明显变化（Ｐ＞０．０５）。提示白噪声对短声有一定的干涉作用。短声为７０ｄＢＳＰＬ时ＡＢＲＰ１波振幅的减小可能与中枢离中控制相关。     

听觉声损伤与耳蜗鼓阶淋巴氧分压的关系

本实验运用极谱式氧电极研究了噪声暴露对耳蜗鼓阶淋巴氧分压（ＳＴＰＯ２）的影响以及ＳＴＰＯ２的变化与听觉电生理、毛细胞损伤之间的关系。结果表明：（１）８５ｄＢＳＰＬ以上声刺激时ＳＴＰＯ２迅速降低;８５ｄＢＳＰＬ窄带噪声暴露时ＳＴＰ０２与血压一同缓慢增高;低于８５ｄＢＳＰＬ的声刺激则未能引起ＳＴＰ０２和血压的改变。（２）ＳＴＰＯ２降低约２０％即伴随明显的听损伤;ＳＴＰＯ２的变化程度与声暴露量（ｒ＝０．９７,Ｐ＜０．０５）、听力损失（ｒ＝０．８２,Ｐ＜０．０５）呈相关;与耳蜗病理改变也有一定关系,但与血压无明显相关性（ｒ＝０．２１,Ｐ＞０．２）。（３）声暴露时,吸入碳氧混合气对听力损失具有部分保护作用。     

长期尾部悬吊大鼠冠脉血流量的变化

采用放射性生物微球技术观察了经受４０和１２０ｄ尾部悬吊模拟失重大鼠冠脉血流量及冠脉阻力的变化。４０及１２０ｄ悬吊大鼠冠脉血流量分别较其相应对照组减少２５％（Ｐ＜０．０１）和２２％（Ｐ＜０．０５）;而４０ｄ组和１２０ｄ组的冠脉阻力与其相应配对对照组相比分别升高３７％（Ｐ＜０．０５）和３１％（Ｐ＜０．０５）。此外,悬吊４０ｄ与悬吊１２０ｄ组大鼠左心室重量分别较其配对的对照组大鼠要减轻９％（Ｐ＜０．０５）及５％（Ｐ＜０．０１）。结果表明,长期模拟失重大鼠心脏可能处于低动力状态,从而使心肌的代谢活动减弱并可能发生萎缩。     

长期尾部悬吊大鼠冠脉血统量的变化

采用放射性生物微球技术观察了经受４０和１２０ｄ尾部悬吊模拟失重大鼠冠脉血流量及冠脉阻力的变化。４０及１２０ｄ悬吊大鼠冠脉血流量分别较期相应对照组减少２５％（Ｐ＜０．０１）和２２％（Ｐ＜０．０５）;而４０ｄ组和１２０ｄ组的冠脉阻力与其相应配对对照组相比分别升高３７％（Ｐ＜０．０５）和３１％（Ｐ＜０．０５）及５％（Ｐ＜０．０１）。结果表明,长期模拟失重大鼠心脏可能处于低动力状态,从而使心肌的代谢活动减     

白噪声对听觉脑干电反应(ABR)和耳蜗电图(ECochG)的影响

本文通过20例听力正常人和10例听力正常豚鼠研究了白噪声对耳蜗电图(ECochG)和听觉脑干电反应(ABR)的干涉作用。实验结果表明,白噪声比短声(信号)的声强级低30dB(SL)以上时,ECochG和ABR的振幅仅轻微减小。白噪声与短声的声强级相等时,ECochG与ABR的振幅和出现率会明显受到干涉而减小,甚至完全消失。但是,此时的耳蜗微音器电位(CM)并未观察到有明显的变化。这意味着白噪声对ECochG和ABR的干涉作用主要与围绕毛细胞基底部的突触产生的抑制密切相关。由于白噪声对ABR各波的干涉有些差异,所以认为这种抑制,可能既包括脑中抑制也包括侧方抑制。     

伏核在躯体传入冲动抑制防御性心血管反应中的作用及机制

损毁伏核可明显削弱电刺激腓深神经（ＤＰＮ）对兴奋下丘脑背内侧核诱发的升压反应和心肌缺血的抑制作用（Ｐ＜０．０５,Ｐ＜０．０１）。电刺激伏核可引起明显的降压效应。中脑中央灰质腹侧部（ｖＰＡＧ）微量注射纳洛酮可明显衰减伏核的减压效应;损毁ｖＰＡＧ甚至可翻转伏核的减压效应,引起轻度升压（Ｐ＜０．０１）。损毁弓状核后伏核的减压效应基本消失,弓状核内微量注射纳洛酮明显衰减伏的的减压效应。故ＤＰＮ传入冲动可能     

强噪声引起的ABRⅤ波振幅增大现象

为研究噪声作用后听觉中枢诱发反应振幅变化,用豚鼠记录了器材怕作用前后皮层诱发反应（ACER）和脑干诱发反应（ABR）的振幅和潜伏期,比较了暴露噪声前后短声刺激系列强度中ACER和ABR最大振幅和潜伏期,110dBA宽带噪声作用30分钟后,听阈提高53dB,ACER最大振幅增大24%,1小时后仍为24%,2小时后增大28%,峰间潜伏期（P1-P2）比暴露前缩短,噪声作用后ABRV波最大振幅增大15%,1小时后为21%,2小时后为28%,潜伏期比暴露前缩短,AP、ABP、Ⅰ、Ⅲ。Ⅳ波最大振幅均经暴露前减小。结果表明,强噪声作用后ACER存在振幅增大,同时ABRV波也有振幅增大现象。     

慢性缺氧大鼠肺动脉内皮依赖性舒张反应与内皮结构的动态变化

本实验对慢性减压缺氧（５０００ｍ）过程中肺动脉ＡＣｈ内皮依赖性舒张反应作了动态观察,并结合分析了其与内皮超微结构和肺动脉压演变的关系。结果表明,缺氧３─２１ｄ,平均肺动脉压（ｍＰＡＰ）显著递增（Ｐ＜０．０５─０．００１）,而缺氧４０ｄ组基本与缺氧２１ｄ组持平,未再进一步升高。缺氧１ｄ组,各ＡＣｈ浓度（１０－１０、１０－９、１０－７、１０－６、１０－５ｍｏｌ／Ｌ）引起的内皮依赖性舒张反应明显受抑（Ｐ＜０．０５─０．００１）。缺氧７ｄ组,舒张反应的受抑程度与缺氧１ｄ组基本相同;但ＡＣｈ１０－５ｍｏｌ／Ｌ引发的反应则较缺氧１ｄ时更弱。缺氧２１ｄ和４０ｄ组,ＡＣｈ１０－６和１０－５ｍｏｌ／Ｌ引起的舒张反应,尽管仍显著低于对照,但却基本上高于缺氧１ｄ和７ｄ组。其余各浓度ＡＣｈ引发的反应则已趋于恢复至对照水平。电镜观察,缺氧１─１４ｄ肺动脉内皮呈逐渐加重的水肿变性;缺氧２１─４０ｄ内皮水肿消失,代之出现渐趋活跃的内皮增生。结果提示,随缺氧时间延长,因内皮从损伤逐渐加重到出现代偿适应,可能存在相应的内皮舒张因子由释放减少到有所恢复的动态变化过程,并对整体肺动脉压有一定程度的影响。     

大鼠延髓旁巨细胞外侧核微量注射利多卡因对呼吸和血压的影响

用在体的方法研究了大鼠旁巨细胞外侧核在呼吸和血压调控中的作用,在旁巨细胞外侧核内微量注射２００ｎｌ的利多卡因可使７／９大鼠的呼气时程（Ｔｅ）缩短（Ｐ＜０．０５）,呼吸频率增加（Ｐ＜０．０５）,隔肌肌电积分幅度（Ａ）降低（Ｐ＜０．０５）;７／９大鼠的动脉血压下降（Ｐ＜０．０５）。结果表明,大鼠的旁巨细胞外侧核参与呼吸活动和血压活动的调控。     

国产与法国Merieux产伤寒Vi多糖菌苗人体接种反应及血清抗体应答比较

作者对国产伤寒Ｖｉ多糖菌苗和法国Ｍｅｒｉｅｕｘ产伤寒Ｖｉ多糖菌苗人体接种反应及血清抗体应答情况进行比较,接种后６～８小时法国菌苗的体温反应同国产菌苗相比有显著性差异（ｘ２＝５．３４７,０．２５＞Ｐ＞０．０１）,２４小时后反应消失,免后一月国产菌苗和法国菌苗Ｖｉ抗体四倍增长率分别为９１．８０％和８９．６％（ｘ２＝０．１６４,Ｐ＞０．０５）,ＧＭＴ分别为３６．９４和３５．４９（ｔ＝０．６５３,Ｐ＞０．０５）,二者均无显著性差异。     

诱发性耳声发射向40-Hz听觉相关电位及行为反应间的相关分析

以500-Hz短纯音作为刺激声,分别测定了20位受试者(9例正常者,11例耳病患者,共40耳)的诱发性耳声发射(EOAE),40-Hz听觉相关电位(40-Hz AERP)和行为反应三项指标的阈值。结果如下:EOAE阈值的主要分布范围在〔20,60〕dB nHL,该范围耳数是其阈值总范围〔15,70)dB nHL耳数的93％;40-Hz AERP阈值主要在〔20,60〕dB nHL,耳数是其阈值范围〔20,90〕dB nHL耳数的95％;行为阈主要在〔20,40〕dB nHL,耳数是其阈值范围〔15,80〕dB nHL耳数的91％,全部受试者有13耳EOAE未引出(正常者3耳,耳病患者10耳),占总测试耳数的33％。三项指标的相关分析表明:EOAE—40Hz AERP,EOAE—行为反应,40Hz AERP一行为反应的r值分别为0.609(0.002相似文献   

诱发性耳声发射向40-Hz听觉相关电位及行为反应间的相关分析

以500-Hz短纯音作为刺激声,分别测定了20位受试者(9例正常者,11例耳病患者,共40耳)的诱发性耳声发射(EOAE),40-Hz听觉相关电位(40-Hz AERP)和行为反应三项指标的阈值。结果如下:EOAE阈值的主要分布范围在〔20,60〕dB nHL,该范围耳数是其阈值总范围〔15,70)dB nHL耳数的93％;40-Hz AERP阈值主要在〔20,60〕dB nHL,耳数是其阈值范围〔20,90〕dB nHL耳数的95％;行为阈主要在〔20,40〕dB nHL,耳数是其阈值范围〔15,80〕dB nHL耳数的91％,全部受试者有13耳EOAE未引出(正常者3耳,耳病患者10耳),占总测试耳数的33％。三项指标的相关分析表明:EOAE—40Hz AERP,EOAE—行为反应,40Hz AERP一行为反应的r值分别为0.609(0.002相似文献   

脑干缺血对听觉脑干反应影响的实验研究

目的 :探讨脑干缺血模型ABR变化特点及其在脑缺血早期诊断中的应用价值。方法 :阻断猫基底动脉不同部位血流 ,观察记录阻断血流后不同时间ABR变化特点及其规律。结果 :①夹闭基底动脉上、下段或小脑下前动脉 10min左右 ,ABRP3 ,P4振幅明显减小 (P <0 .0 1,P <0 .0 5 ) ,60min恢复夹前水平 ;②夹闭基底动脉上段 10～60minP5明显减小 (P <0 .0 5 ) ,直到 12 0min尚未恢复至夹前状态。结论 :①猫的ABRP3脑区的血供主要来自小脑下前动脉 ,P1,P2产生部位基本不依赖基底动脉供血 ;②轻度暂短性脑缺血时ABR振幅比潜伏期更敏感 ,振幅减小的程度与脑干缺血的程度密切相关 ;③ABR可用于脑缺血定位诊断及脑功能动态观察的电生理检测。     

Hidden hearing loss is associated with loss of ribbon synapses of cochlea inner hair cells

The present study aimed to observe the changes in the cochlea ribbon synapses after repeated exposure to moderate-to-high intensity noise. Guinea pigs received 95 dB SPL white noise exposure 4 h a day for consecutive 7 days (we regarded it a medium-term and moderate-intensity noise, or MTMI noise). Animals were divided into four groups: Control, 1DPN (1-day post noise), 1WPN (1-week post noise), and 1MPN (1-month post noise). Auditory function analysis by auditory brainstem response (ABR) and compound action potential (CAP) recordings, as well as ribbon synapse morphological analyses by immunohistochemistry (Ctbp2 and PSD95 staining) were performed 1 day, 1 week, and 1 month after noise exposure. After MTMI noise exposure, the amplitudes of ABR I and III waves were suppressed. The CAP threshold was elevated, and CAP amplitude was reduced in the 1DPN group. No apparent changes in hair cell shape, arrangement, or number were observed, but the number of ribbon synapse was reduced. The 1WPN and 1MPN groups showed that part of ABR and CAP changes recovered, as well as the synapse number. The defects in cochlea auditory function and synapse changes were observed mainly in the high-frequency region. Together, repeated exposure in MTMI noise can cause hidden hearing loss (HHL), which is partially reversible after leaving the noise environment; and MTMI noise-induced HHL is associated with inner hair cell ribbon synapses.     

KILLER WHALE (ORCINUS ORCA) AUDITORY EVOKED POTENTIALS TO RHYTHMIC CLICKS

Temporal auditory mechanisms were measured in killer whales ( Orcinus orca ) by recording auditory evoked potentials (AEPs) to clicks. Clicks were presented at rates from 10/sec to 1,600/sec. At low rates, clicks evoked an AEP similar to the auditory brainstem response (ABR) of other odontocetes; however, peak latencies of the main waves were 3–3.7 msec longer than in bottlenose dolphins. Fourier analysis of the ABR showed a prominent peak at 300–400 Hz and a smaller one at 800–1,200 Hz. High-rate click presentation (more than 100/sec) evoked a rate-following response (RFR). The RFR amplitude depended little on rate up to 400/sec, decreased at higher rates and became undetectable at 1,120/sec. Fourier analysis showed that RFR fundamental amplitude dependence on frequency closely resembled the ABR spectrum. The fundamental could follow clicks to around 1,000/sec, although higher harmonics of lower rates could arise at frequencies as high as 1,200 Hz. Both RFR fundamental phase dependence on frequency and the response lag after a click train indicated an RFR group delay of around 7.5 msec. This corresponds to the latency of ABR waves PIII-NIV, which indicates the RFR originates as a rhythmic, overlapping ABR sequence. The data suggest the killer whale auditory system can follow high click rates, an ability that may have been selected for as a function of high-frequency hearing and the use of rapid clicks in echolocation.     

Ship noise‐induced temporary hearing threshold shift in the Chinese sucker Myxocyprinus asiaticus (Bleeker, 1864)

The study objective was to explore the effects of noise generated by a 2000 hp containership on the reaction of Chinese sucker Myxocyprinus asiaticus. The noise was played back for various durations (1, 2, 4, 8, 24 h) at 142.8 dB re 1 μPa. Immediately after the noise exposure, hearing abilities of the fish were tested using the auditory evoked potential (AEP) protocol and compared with the response to a control group with no noise exposure. After 1 h noise exposure no significant differences were found compared to control fish; however, significant auditory threshold shifts began to occur at 800 Hz after 2 h of noise exposure. After 24 h of noise exposure, significant auditory threshold shifts were found at all tested frequencies (100–3000 Hz) when compared to control fish. Recoveries were also measured until the auditory thresholds returned to the hearing levels of the control fish. Auditory thresholds of all Chinese suckers fully returned to control levels within 96 h of recovery time. The results indicate that ship noise exposure can lead to threshold shifts in Chinese sucker and that these threshold shifts are temporary, referred to as temporary threshold shift (TTS).     

急性低氧时豚鼠声信号传入的变化

本工作的目的是研究急性高原低氧对豚鼠听觉传入功能的影响。２０只豚鼠分为４组,分别接受模拟海拔高度为５０００、６０００、７０００和８００ｏｍ的急性低氧暴露,于不同时间测定听觉脑干诱发反应各波的潜伏期、峰间期、振幅和ＩＩＩ波的电反应阈（听阈）。结果如下：当升至预定的海拔高度和在低氧维持阶段,６０００ｍ以上组各波潜伏期延长,其中ＩＩ波变化更明显;回到海平面高度后逐渐恢复,１ｈ内基本可恢复正常;潜伏期变化的程度与海拔高度有关。在低氧阶段各波振幅普遍下降,回到海平面高度后逐渐回升,但恢复至正常所需时间较长。在升至预定的海拔高度和其后低氧维持阶段,各组动物的听阈均上升,脱离低氧后即可迅速恢复,１ｈ内可恢复正常。结果表明,急性高原低氧使听觉脑干传导时间延长,传入神经元兴奋性降低,听敏度下降,因而可以推测它能影响声信号的传入。     

催产素对豚鼠听觉机能作用的电生理研究

本实验利用听觉电生理学方法,研究了催产素(Oxytocin)对豚鼠内耳听觉机能的作用。给豚鼠肌内注射催产素后,由短声引起的耳蜗微音器电位和听神经复合动作电位幅值增加,听神经复合动作电位和听皮层诱发电位的阈值降低。说明催产素具有提高豚鼠内耳听觉机能的作用。