The effects of stimulus rates upon median,ulnar and radial nerve somatosensory evoked potentials

We examined the effect of stimulus rates on the somatosensory evoked potential (SEP) amplitude following stimulation of the median nerve (MN) and the ulnar nerve (UN) at the elbow or wrist, and the radial nerve (RN) at the wrist in 12 normal subjects. We measured the amplitude of frontal (P14-N18-P22-N30) and parietal peaks (P14-N20-P26-N34) at a stimulus rate of 1.1, 3.5 and 5.7 Hz. The amplitude attenuation was found at frontal P22 and N30 and to a lesser degree at parietal N20 and P26 peaks with an increasing stimulus rate from 1.1 to 5.7 Hz. The amplitude attenuation was greatest at the elbow when compared to the wrist stimulation for both MN and UN. The attenuation was least for wrist stimulation for the RN. The UN block by local anesthesia just distal to the stimulus electrode at the elbow abolished the amplitude attenuation caused by the fast stimulus rate. The observed amplitude attenuation with the faster stimulus rate is probably due, in part, to interference from the “secondary” afferent inputs. The secondary afferent inputs arise from peripheral receptor stimulation (muscle, joint and/or cutaneous) as a subsequent effect of efferent volleys initiated from the point of stimulation. The greater number of peripheral receptors being activated as more proximal sites of stimulation in a mixed nerve would result in greater attenuation of the SEP recorded from scalp electrodes. We postulate that the attenuation of frontal peaks by the fast stimulus rate is due to the frontal projection of interfering “secondary” afferent inputs.     

Topography of somatosensory evoked potentials to median nerve stimulation in patients with cerebral lesions

Scalp distributions and topographies of early cortical somatosensory evoked potentials (SEPs) to median nerve stimulation were studied in 22 patients with 5 different types of cerebral lesion due to cerebrovascular disease or tumor (thalamic, postcentral subcortical, precentral subcortical, diffuse subcortical and parieto-occipital lesions) in order to investigate the origins of frontal (P20, N24) and central-parietal SEPs (N20, P22, P23).In 2 patients with thalamic syndrome, N16 was delayed in latency and N20/P20 were not recorded. No early SEP except for N16 was recorded in 2 patients with pure hemisensory loss due to postcentral subcortical lesion. In all 11 patients with pure hemiparesis or hemiplegia due to precentral subcortical lesion N20/P20 and P22, P23/N24 components were of normal peak latencies. The amplitude of N24 was significantly decreased in all 3 patients with complete hemiplegia. These findings support the hypothesis that N20/P20 are generated as a horizontal dipole in the central sulcus (3b), whereas P23/N24 are a reflection of multiple generators in pre- and post-rolandic fissures. P22 was very localized in the central area contralateral to the stimulation.Topographical studies of early cortical SEPs are useful for detecting each component in abnormal SEPs     

Differential sensitivity to rotation measured on potentials evoked by electrical stimulation of the guinea-pig ear

Responses to electrical stimulation of the ear applied between round-window and vertex electrodes were recorded in awake guinea-pigs from the same electrodes or from separate vertex/mastoid subdermal needle electrodes. They were averaged during opposite phases of sinusoidal rotation or before and after constant velocity rotation. In both cases the responses were subtracted from each other and yielded differential per- or post-rotatory “electrovestibular” responses. For comparison, responses were also recorded in the same animals and conditions of electrical stimulation during silence and during presentation of a broad-band noise. The difference yielded “electroacoustic” responses. In round-window records, electrovestibular and electroacoustic responses presented typical compound nerve action potential patterns. Electrovestibular responses could be recorded for head angular velocities as low as 3° sec⁻¹ at 0.1 Hz. Response amplitude showed a logarithmic relation to head velocity. Changes in amplitude, as a function of time after rotation, were comparable to those reported for vestibular nerve fibre responses. In vertex/mastoid records, electroacoustic responses presented a sequence of peaks similar to the click-evoked auditory brain-stem responses, and electrovestibular responses presented two peaks, presumably representing contributions of central vestibular structures. Such “electrovestibulography” permits the study of an individual ear and makes available to the investigator a large range of vestibular stimulation conditions.     

Two photic pathways contribute to pineal evoked responses

In this study, average photic evoked responses were recorded simultaneously in freely behaving rats from the pineal body and the ventromedial hypothalamus; permanent semimicroelectrodes were implanted several days before the experiments were begun, and both local anesthesia (xylocaine), sympathectomy, and general anesthesia (barbiturate) were used as tools to find out whether or not photic responses are transmitted to the pineal via the superior cervical ganglion (scg)-nervi conorii and/or through another CNS route. The experiments demonstrated that the photic evoked responses recorded from the pineal are transmitted via two separate routes: one, a fast pathway with a “shorter” latency, via the CNS, i.e., the habencular posterior commissure complex, and the other a “slower” (or longer) pathway via the scg to the pineal.     

Giant central N20-P22 with normal area 3b N20-P20: an argument in favour of an area 3a generator of early median nerve cortical SEPs?

Generators of early cortical somatosensory evoked potentials (SEPs) still remain to be precisely localised. This gap in knowledge has often resulted in unclear and contrasting SEPs localisation in patients with focal hemispheric lesions. We recorded SEPs to median nerve stimulation in a patient with right frontal astrocytoma, using a 19-channel recording technique. After stimulation of the left median nerve, N20 amplitude was normal when recorded by the parietal electrode contralateral to the stimulation, while it was abnormally enhanced in traces obtained by the contralateral central electrode. The amplitude of the frontal P20 response was within normal limits. This finding suggests that two dipolar sources, tangential and radial to the scalp surface, respectively, contribute concomitantly to N20 generation. The possible location of the N20 radial source in area 3a is discussed. The P22 potential was also recorded with increased amplitude by the central electrode contralateral to the stimulation, while N30 amplitude was normal in frontal and central traces. We propose that the radial dipolar source of P22 response is independent from both N20 and N30 generators and can be located either in 3a or in area 4. This report illustrates the usefulness of multichannel recordings in diagnosing dysfunction of the sensorimotor cortex in focal cortical lesions.     

Unmasking of cortical SEP components by changes in stimulus rate: a topographic study

We performed topographic mapping of somatosensory responses to median nerve stimulation delivered at 2, 5 and 10 Hz. Parietal N20 was significantly attenuated in 10 Hz somatosensory evoked potentials (SEPs), while central P22 diminished between 2 and 5 Hz, remaining stable thereafter. The single component most affected by increasing stimulus rate was N30, which abated by more than 50% in 10 Hz SEPs, as compared with basal responses. N30 attenuation disclosed the existence of an earlier negative component, N24, which appeared as a notch on the N30 ascending slope in 2 Hz SEPs, but became a well-defined peak at higher stimulus rates. The N24 negativity was not significantly modified by stimulus rate; it had a parietal counterpart (P24) with the same peak latency and identical behavior during the experimental procedure. Both P24 and N24 could be differentiated from central P22 on the basis of topographical distribution and response to stimulus frequency. P22 topography could be the result of a radially oriented generator, while P24/N24 appeared as the two poles of a neural source tangential to the scalp. P27 was seen in 40% of the subjects only; it is suggested that P27 is itself a composite potential to which the generator of N30 could contribute in part. We conclude that there is no single “optimal” stimulation rate for SEP recording. On the contrary, combination of different frequencies of stimulation should enhance the diagnostic utility of this technique by allowing a more selective assessment of overlapping activities.     

正中神经体感诱发电位P_（22）波的来源及其对偏瘫患者手功能恢复的预测价值

使用耳垂参考电极,在顶、额颅表同步描记正中神经体感诱发电位（Ｍ－ＳＥＰ）,可记录到Ｐ＿(１４)、Ｐ＿(２２)、Ｎ＿(３０)和Ｐ＿(１４)、Ｎ＿(２０)、Ｐ＿(２２)两组波。动物实验观察发现,局部麻醉家兔中央前回后,Ｐ＿(２２)波消失;麻醉顶叶对Ｐ＿(２２)波幅无明显影响,证明Ｐ＿(２２)是与手运动相关联的波。分析经ＣＴ证实的３９名偏瘫患者,观察经物理治疗前后Ｐ＿(２２)、Ｎ＿(２０)与手肌力的对应关系,发现Ｐ＿(２２)对判断手功能的预后是个很敏感的指标,若患者Ｐ＿(２２)波分化不清或消失,是手功能预后不好的信号,因此,Ｐ＿(２２)波可考虑作为临床判断手功能预后的电生理指标之一。     

丙泊酚与异氟醚麻醉对妇科腹腔镜手术患者血流动力学及应激反应的影响

目的:探究丙泊酚与异氟醚麻醉对接受妇科腹腔镜手术的患者应激激素以及血流动力学的影响。方法:选取我院妇科收治的需要进行腹腔镜手术的患者90例,根据麻醉用药不同,将其分为丙泊酚组、异氟醚组及实验组,每组各30例。观测患者不同时段去甲肾上腺素(NE)、肾上腺素(E)、皮质醇(COS)的浓度及心率、平均动脉压、呼吸频率、血氧饱和度等血流动力学参数的变化情况。结果:三组患者麻醉前及气腹20 min的去甲肾上腺素、肾上腺素以及皮质醇含量比较均无显著差异(P0.05);气腹前,实验组患者去甲肾上腺素含量显著低于丙泊酚组及异氟醚组(P0.05);放气10 min,实验组患者肾上腺水平显著高于丙泊酚组及异氟醚组(P0.05);三组患者麻醉前及气腹前的心率、平均动脉压、呼吸以及血氧饱和度比较均无显著差异(P0.05);气腹20 min,实验组患者的心率、平均动脉压、呼吸显著优于丙泊酚组及异氟醚组(P0.05);术后放气10 min,实验组患者的心率、平均动脉压、呼吸显著优于丙泊酚组及异氟醚组(P0.05);实验组患者术后出现恶心、呕吐等症状显著优于丙泊酚组及异氟醚组(P0.05)。结论:丙泊酚复合异氟醚可有效改善接受妇科腹腔镜手术的患者麻醉期间的应激反应和血流动力学,患者术后恶心、呕吐等不良反应少,值得推广使用。     

Effect of midazolam and butorphanol premedication on inhalant isoflurane anesthesia in mice

Isoflurane is a representative inhalant anesthesia used in laboratory animals. However, isoflurane mediates respiratory depression and adverse clinical reactions during induction. In the present study, we established a novel balanced anesthesia method in mice that combined isoflurane anesthesia with midazolam and butorphanol (MB). Thirty-four male C57BL/6J mice received either isoflurane alone or isoflurane with an intra-peritoneal MB premedication (3 mg/kg midazolam and 4 mg/kg butorphanol). The minimum alveolar concentration (MAC) in each group was evaluated. Induction time and adverse clinical reactions were recorded in each group. Core body temperature, heart rate, respiratory rate, and oxygen saturation (SPO₂) were assessed before and for 1 h after induction. Premedication with MB achieved a significant reduction in MAC compared with isoflurane monoanesthesia (isoflurane, 1.38 ± 0.15%; isoflurane with MB, 0.78 ± 0.10%; P<0.05). Induction time was significantly shortened with MB premedication, and adverse reactions such as excitement or incontinence were observed less frequently. Furthermore, isoflurane anesthesia with MB premedication caused increase of respiratory rates compared to isoflurane monoanesthesia. No significant decrease of SPO₂ was observed in MBI anesthesia, while a decrease in SPO₂ was apparent with isoflurane monoanesthesia (baseline, 98.3% ± 1.1; 10 min after induction, 91.8 ± 6.4%; P<0.05). In conclusion, premedication with MB was effective for the mitigation of respiratory depression induced by isoflurane in mice, with rapid induction and fewer adverse clinical reactions.     

两种用于小型猪胰肾联合移植实验麻醉方法的比较

目的比较静脉复合吸入全麻和静脉全麻两种方法用于小型猪胰肾联合移植实验中的麻醉效果,探讨简单、安全、易行的麻醉方法。方法A、B两组健康贵州小香猪,每组6只,基础麻醉后气管插管,A组：持续吸入异氟醚维持麻醉,根据手术要求间断注入万可松和芬太尼;B组：持续注入氯胺酮,间断静脉注射万可松和芬太尼维持麻醉。观察麻醉持续时间,镇痛和肌松药量,术后拔管和完全清醒时间,监测麻醉过程中血压、心率、脉搏氧的变化。结果A组术中麻醉效果好,血压、心率和脉搏氧稳定,与B组有显著差异（P〈0.05）;B组麻醉效果较差,肌松用药量明显增多,术后完全清醒时间长于A组（P〈0.05）。结论气管插管后静吸复合的麻醉方法是用于贵州小型猪实验安全、合适的麻醉方法。     

Somatosensory evoked potentials at rest and during movement in Parkinson's disease: evidence for a specific apomorphine effect on the frontal N30 wave

Studies attempting to relate the abnormalities of the frontal N30 components of the somatosensory evoked potentials (SEPs) to motor symptoms in Parkinson's disease (PD) have shown contradictory results. We recorded the frontal and parietal SEPs to median nerve stimulation in 2 groups of PD patients: a group of 17 patients presenting the wearing-off phenomenon, and a group of 10 untreated PD patients. The results were compared with a group of 13 healthy volunteers of the same age and with a group of 10 non-parkinsonian patients. All parkinsonian and non-parkinsonian patients were studied before (“off” condition) and after a subcutaneous injection of apomorphine (“on” condition). The gating effects of a voluntary movement (clenching of the hand) on the SEPs were also studied for the wearing-off group of PD patients (in states off and on) in comparison with the healthy subjects. At rest and in the off condition the amplitude of the frontal N30 was significantly reduced in the 2 groups of PD patients. We demonstrate that the movement gating ability of the PD patient is preserved in spite of the reduced amplitude of the frontal N30. This result suggests that the specific change in the frontal N30 in PD is not the consequence of a continuous gating of the sensory inflow by a motor corollary discharge. Clinical motor improvement induced by apomorphine was associated with a significant enhancement of the frontal N30 wave. In contrast, the subcortical P14 and N18 waves and the cortical N20, P22, P27 and N45 were not statistically modified by the drug. Apomorphine infusion did not change the absolute reduced voltage of the N30 reached during the movement gating. While the frontal N30 component of the non-parkinsonian patients was significantly lower in comparison to healthy subjects, this wave did not change after the apomorphine administration. In the wearing-off PD patient group the frontal N30 increment was positively correlated with the number of off hours per day. This specific apomorphine sensitivity of the frontal N30 was interpreted as a physiological index of the dopaminergic modulatory control exerted on the neuronal structures implicated in the generation of the frontal N30.     

Anesthesia rapidly suppresses insulin pulse mass but enhances the orderliness of insulin secretory process

Induction of anesthesia is accompanied by modest hyperglycemia and a decreased plasma insulin concentration. Most insulin is secreted in discrete pulses occurring at approximately 6- to 8-min intervals. We sought to test the hypothesis that anesthesia inhibits insulin release by disrupting pulsatile insulin secretion in a canine model by use of direct portal vein sampling. We report that induction of anesthesia causes an abrupt decrease in the insulin secretion rate (1.1 +/- 0.2 vs. 0.7 +/- 0.1 pmol. kg(-1). min(-1), P < 0.05) by suppressing insulin pulse mass (630 +/- 121 vs. 270 +/- 31 pmol, P < 0.01). Anesthesia also elicited an approximately 30% higher increase in insulin pulse frequency (P < 0.01) and more orderly insulin concentration profiles (P < 0.01). These effects were evoked by either sodium thiamylal or nitrous oxide and isoflurane. In conclusion, anesthesia represses insulin secretion through the mechanism of a twofold blunting of pulse mass despite an increase in orderly pulse frequency. These data thus unveil independent amplitude and frequency controls of beta-cells' secretory activity in vivo.     

Single-trial ERP evidence for the three-stage scheme of facial expression processing

Using a rapid serial visual presentation paradigm, we previously showed that the average amplitudes of six event-related potential (ERP) components were affected by different categories of emotional faces. In the current study, we investigated the six discriminating components on a single-trial level to clarify whether the amplitude difference between experimental conditions results from a difference in the real variability of single-trial amplitudes or from latency jitter across trials. It is found that there were consistent amplitude differences in the single-trial P1, N170, VPP, N3, and P3 components, demonstrating that a substantial proportion of the average amplitude differences can be explained by the pure variability in amplitudes on a single-trial basis between experimental conditions. These single-trial results verified the three-stage scheme of facial expression processing beyond multitrial ERP averaging, and showed the three processing stages of "fear popup", "emotional/unemotional discrimination", and "complete separation" based on the single-trial ERP dynamics.     

异氟烷单独或联合咪达唑仑对7日龄大鼠大脑caspase-3表达的影响

目的 观察异氟烷单独或联合咪达唑仑对7日龄大鼠大脑caspase-3表达的影响.方法 7日龄SD大鼠39只,随机分为对照组(C组,n=13),异氟烷组(I组,n=13)和咪达唑仑联合异氟烷组(MI组,n=13).C组:腹腔注射0.9%生理盐水10ml/kg,吸入30%O2 6 h;I组:在37℃恒温并通入1.5%异氟烷的麻醉小室内维持麻醉6h ;MI组:腹腔注射咪达唑仑9 mg/kg后,随即置于37℃恒温并通入1.5%异氟烷的麻醉小室内维持麻醉6h.麻醉结束即刻每组取3只大鼠,行动脉血气分析.麻醉结束2h 采用Realtime-PCR方法检测皮质和海马组织Caspase-3 mRNA水平的变化;并用免疫组织化学SABC法检测大脑Active caspase-3阳性神经细胞的分布情况,计数阳性细胞.结果 ⑴ I组和MI组大鼠麻醉结束即刻动脉血气分析结果与C组比较差异无统计学意义(P＞0.05).⑵ Realtime-PCR 结果显示,I组与MI组大鼠皮质和海马区Caspase-3 mRNA与对照组相比表达增多,且MI组与I组比较Caspase-3 mRNA表达增加(P<0.05).⑶免疫组化结果也显示:与对照组相比,I组与MI组大鼠在皮质、海马及丘脑部位Active caspase-3阳性神经细胞数量均明显增多 (P<0.05),而MI组与I组相比,在海马和丘脑部位Active caspase-3阳性神经细胞数量明显增多(P<0.05).结论 异氟烷麻醉能诱导脑发育高峰期大鼠重要脑区Caspase-3表达增加,联合应用咪达唑仑增加更明显;推测Caspase-3表达增加可能引起凋亡级联反应,导致神经细胞凋亡增加.     

The effect of stimulus frequency on post- and pre-central short-latency somatosensory evoked potentials (SEPs)

We assessed the influence of the stimulus frequency on short-latency SEPs recorded over the parietal and frontal scalp of 26 subjects to median nerve stimulation and 16 subjects to digital nerve stimulation. When the stimulus frequency is increased from 1.6 Hz to 5.7 Hz, the amplitude of the N13 potential decreases whereas the P14 remains stable. The amplitude of the N20 is not changed significantly whereas the P22, the P27 and the N30 decrease significantly. In 50% of the subjects 2 components can be seen within the frontal negativity that follows the P22: an early ‘N24’ component, which is not affected by the stimulus rate, and the later N30, which is highly sensitive to the stimulus frequency. The distinct amplitude changes of the N20 and P22 with increasing stimulus frequency is one among other arguments to show that these potentials arise from separate generators.     

Mapping P300 waves onto inhibition: Go/NoGo discrimination

Subjects viewed letters presented at 2 sec intervals and prepared a fast button press whenever an “O” appeared. If the next letter was an “X” the button press was executed (Go signal), but if the letter was a non-X character (T, H, Z) suppression of the response was required (NoGo cue). NoGo signals elicited a P300-like wave that was larger at central and frontal scalp sites contralateral to the prepared movement, compared to P300s elicited by Go cues which were symmetric about the sagittal midline and dominant at parietal sites. Subtraction of preparatory CNVs from the NoGo P300 did not remove differences in scalp topography, or reduce the amplitude of the NoGo P300 to that seen following control letters that required perceptual identification but did not call for suppression of prepared motor responses. Principal components analysis identified a middle positive wave following X-alone control stimuli whose topography resembled the NoGo P300. These findings suggest that the source of augmented NoGo P300s is a generator involved with sensorimotor inhibition. We discuss the mechanism of P300 waves and evidence linking these waves with inhibition in other task arrangements.     

Hair Cell Generator Potentials

A technique is introduced using a piezoelectric device to stimulate hair cells of a molluscan statocyst while recording their responses intracellularly. Statocyst displacements produced with the technique are calibrated with stroboscopic photography. Properties of the hair cells' response to currents and mechanical stimulation are studied. The hair cell generator potential arises from a conductance increase and, for a certain range, is a logarithmic function of the amplitude of the displacement stimulus.     

The Epipelic Algal Flora of the River Wye System,Wales, U. K. 2. Algal Phyla and Species Population Dynamics

The Bacillariophyta dominated over the other phyla and were mainly recorded in high densities during summer and autumn. The Chlorophyta and Myxophyta (Cyanobacteria) were represented by coccoid forms and by non-heterocystous, filamentous forms, respectively. Both were mainly recorded during summer and mostly absent during winter. Other phyla were occasionally recorded in low densities; the Chrysophyta being found in the River Elan and at one site on the River Wye during June 1980. Their members were considered as “contaminants” or “fall-out” from other communities. Pennate diatoms were the most “constant” species and either showed a general upstream or downstream increase or a general distribution throughout the study area. Populations of the same species colonising both sediments and stones were not correlated or insignificantly correlated with each other at most stations. It was concluded that sediments were unsuitable for algal colonisation. The River Elan and upper Wye were rated as oligosaprobic, the River Ithon and lower Wye as β-mesosaprobic and the River Lugg as α-mesosaprobic.     

The refractory state of the generator and propagated potentials in a pacinian corpuscle

A propagated potential produced in the Pacinian corpuscle in response to mechanical stimuli leaves a refractory state of 7 to 10 msec. duration. The refractory state is presumably produced at the first intracorpuscular node of Ranvier. The recovery of receptor excitability for producing an all-or-none response to mechanical stimulation follows the same time course as that of the electrically excited axon. Upon progressive reduction of stimulus interval (mechanical), the propagated potential falls progressively to 75 per cent of its resting magnitude and becomes finally blocked within the corpuscle. A non-propagated all-or-none potential, presumably corresponding to activity of the first node, is then detected. The critical firing level for all-or-none potentials increases progressively during the relative refractory period of the all-or-none potential, as the stimulus interval is shortened. Thus generator potentials up to 85 per cent of a propagated potential can be produced in absence of all-or-none activity. Generator potentials show: gradual over-all increase in amplitude and rate of rise as a function of stimulus strength; constant latency; and spontaneous fluctuations in amplitude. A generator potential leaves a refractory state (presumably at the non-myelinated ending) so that the amplitude of a second generator response which falls on its refractory trail is directly related to the time elapsed after the first generator response and inversely to its amplitude. The generator potential develops independently of any refractory state left by a preceding all-or-none potential.     

Physiological Changes during Recovery from a Primate Dorsal Column Lesion

The evoked potential (EP) over primary somatosensory cortex (SI) was monitored before and after a complete lesion of the primate dorsal column (DC) pathway on one side. The EP was elicited by electrocutaneous or mechanical stimulation of either foot, and was recorded from the contralateral cortical surface for periods of up to 3 months after the lesion. The amplitudes of the three major peaks (P20, N50, and P90) of the cortical somatosensory EP were significantly reduced following interruption of the contralateral DC. Over weeks following the lesion, there was a significant increase in amplitude of the P90 component of the EP that was not evident in the other peaks. The postlesion increases in P90 amplitude were correlated with improved performance on a task that required grasping with either foot, suggesting that behavioral recovery from a DC lesion results in part from neural plasticity, as opposed to a simple relearning of the task.