Fast,persistent, Ca2+-dependent K+ current controls graded electrical activity in crayfish muscle

The early outward current in opener muscle fibres of crayfish (Procambarus clarkii) was studied using the two-electrode voltage-clamp technique. This current was abolished in Ca²⁺-free and 5 mM Cd²⁺ solutions, and was blocked by extra- or intracellular tetraethylammonium, indicating that it was a Ca²⁺-dependent K⁺ current [I _K(Ca)]. I _K(Ca) was voltage dependent, apamin insensitive and sensitive to charybdotoxin (CTX), which, in addition to its tetraethylammonium sensitivity, suggests that the channels mediating I _K(Ca) behave in a BK type manner. I _K(Ca) activation was extremely fast, reaching a maximum within 5 ms, and the inactivation was incomplete, stabilizing at a persistent steady-state. I _K(Ca) was insensitive to intracellular ethylenebis(oxonitrilo)tetraacetate (EGTA), but was abolished by injection of the faster Ca²⁺ chelator 1,2-bis(2-aminophenoxy)ethane-N,N,N,N'-tetraacetic acid (BAPTA), suggesting that voltage-dependent Ca²⁺ channels and those mediating I _K(Ca) should be clustered closely on the membrane. Under two-electrode current-clamp recording mode, low amplitude, graded responses were evoked under control conditions, whereas repetitive all-or-none spikes were elicited by application of CTX or after loading the cells with BAPTA. We conclude that I _K(Ca) activates extremely quickly, is persistent and is responsible for the generation and control of the low amplitude, graded, active responses of opener muscle fibres.     

Transcutaneous electrical stimulation and vibration of neck muscles in neglect

Four neglect patients without visual field defects, one with a lesion of the right basal ganglia and three with a right, predominantly parietal lesion, were examined with a cancellation and a copying task before, during and after neck muscle vibration, during transcutaneous electrical stimulation of neck muscles and during vibration of hand muscles on the left side. In all patients, neck muscle vibration improved task performance, while transcutaneous electrical stimulation and hand vibration had little or no effect. The present results demonstrate that the effect of neck muscle vibration cannot be explained as arousal and activation due to unspecific sensory stimulation on the contralesional side of the body. They rather argue for the assumption that the compensatory effect of neck muscle vibration on neglect is an effect induced by the predominant activation of afferent Ia nerve fibres and their specific contribution to the central representation of egocentric space.     

Gradual potentiation of isometric muscle force during constant electrical stimulation

An investigation was carried out into how stimulation frequency and stimulation history affect the potentiation of muscle force during 20s of constant stimulation of the two knee extensors in isometric conditions. Stimulation frequency significantly affected the potentiation pattern: low-frequency (2.5–10 Hz) stimulation showed a reduction and subsequent enhancement of force, and high-frequency (14.3–25 Hz) stimulation showed only enhancement of force. The degree of enhancement in force and time-to-peak decreased with the stimulation frequency. Whereas conditioning stimulation (both 40 Hz and 14.3 Hz) significantly enhanced the muscle force above 85%, following main stimulation (14.3 Hz) after short rest (10 s and 50 s, respectively) induced little force enhancement (below 8%). In particular, when the frequency of the conditioning stimulation was 14.3 Hz, the initial force at the main stimulation showed a very similar value to the final force value of the conditioning stimulation (above 90% similarity). The potentiated twitch force slowly decayed during rest, with an average time constant of 2.4 min. These observations indicate that muscle potentiation depends on the stimulation frequency and stimulation history, and therefore a computer model of potentiation can play an important role in predicting muscle force and body movement induced by electrical stimulation.     

Intracortical inhibition of lower limb motor-evoked potentials after paired transcranial magnetic stimulation

The aim of the present study was to determine the characteristics of intracortical inhibition in the motor cortex areas representing lower limb muscles using paired transcranial magnetic (TMS) and transcranial electrical stimulation (TES) in healthy subjects. In the first paradigm (n=8), paired magnetic stimuli were delivered through a double cone coil and motor evoked potentials (MEPs) were recorded from quadriceps (Q) and tibialis anterior (TA) muscles during relaxation. The conditioning stimulus strength was 5% of the maximum stimulator output below the threshold MEP evoked during weak voluntary contraction of TA (33±5%). The test stimulus (67±2%) was 10% of the stimulator output above the MEP threshold in the relaxed TA. Interstimulus intervals (ISIs) from 1–15 ms were examined. Conditioned TA MEPs were significantly suppressed (P<0.01) at ISIs of less than 5 ms (relative amplitude from 20–50% of the control). TA MEPs tended to be only slightly facilitated at 9-ms and 10-ms ISIs. The degree of MEP suppression was not different between right and left TA muscles despite the significant difference in size of the control responses (P<0.001). Also, conditioned MEPs were not significantly different between Q and TA. The time course of TA MEP suppression, using electrical test stimuli, was similar to that found using TMS. In the second paradigm (n=2), the suppression of TA MEPs at 2, 3, and 4 ms ISIs was examined at three conditioning intensities with the test stimulation kept constant. For the pooled 2- to 4-ms ISI data, relative amplitudes were 34±6%, 61±5%, and 98±9% for conditioning intensities of 0.95, 0.90, and 0.85× active threshold, respectively (P<0.01). In conclusion, the suppression of lower limb MEPs following paired TMS showed similar characteristics to the intracortical inhibition previously described for the hand motor area. Received: 21 June 1996 / Accepted: 23 May 1997     

Clinical and electroencephalographic changes in MMP+-induced parkinsonian syndrome in rats

Laboratory of General Pathology of the Nervous System, Research Institute of General Pathology and Pathological Physiology, Academy of Medical Sciences of the USSR. Laboratory of Psychopharmacology and Group for Synthesis of Physiologically Active Compounds, Research Institute of Pharmacology, Academy of Medical Sciences of the USSR, Moscow. Translated from Byulleten' Éksperimental'noi Biologii i Meditsiny, Vol. 107, No. 2, pp. 147–150, February, 1989.     

Interaction between 5-HT uptake inhibition and activation of 5-HT autoreceptors by exogenous agonists in rat cerebral cortex slices and synaptosomes

Summary Rat cerebral cortex slices or synaptosomes were labelled with ³H-5-hydroxytryptamine (³H-5-HT) and subsequently superfused. They were depolarized by electrical stimulation (slices) or with high K⁺ (slices and synaptosomes). Continuous electrical stimulation (2 Hz, 24 mA, 2 ms) and continuous or discontinuous K⁺ depolarization (15–25 mM) were used. 1. Continuous electrical stimulation or continuous K⁺-depolarization of slices evoked a steady overflow of tritium that slowly decayed with time. 2. Exposure to increasing concentrations of 5-methoxy-3(1,2,3,6-tetrahydropyridin-4-yl)-1H-indole succinate (RU 24969) (0.001–0.1 M) during continuous electrical stimulation produced a concentration-dependent decrease in tritium overflow. Citalopram (1 M) counteracted the effect of RU 24969. 3. RU 24969 inhibited the evoked ³H-overflow and citalopram reduced the effect of RU 24969 also during continuous depolarization of slices with 20 mM K⁺. Similar results were obtained by using 5-methoxytryptamine or LSD. 4. In slices 1 M citalopram increased significantly the tritium overflow evoked by electrical stimulation or by 20 mM K⁺-depolarization. 5. Increasing the K⁺ concentration from 20 mM to 25 mM mimicked the effects of 1 M citalopram both on the RU 24969 activity and on the evoked tritium overflow. 6. RU 24969 (0.001–0.1 M) decreased in a concentration-dependent way the release of tritium from cortical synaptosomes depolarized with K⁺ (15–20 mM). The presence of 1 M citalopram did not modify significantly the effect of the agonist. Citalopram was ineffective also when the serotonin uptake carrier in superfused synaptosomes was activated by tryptamine. In conclusion, in slices of rat cerebral cortex, the action of exogenous 5-HT autoreceptor agonists is inhibited by 5-HT uptake blockers independently of the depolarizing agent (electrical stimulation or high-K⁺) used to elicit ³H-5-HT release. Increasing K⁺-concentration, which probably increases serotonin in the biophase, mimics the presence of the reuptake inhibitor. These data together with the finding that, in superfused synaptosomes, 5-HT uptake inhibition did not affect the potency of autoreceptor agonists, favours the idea that, in cerebral cortex slices, inhibitors of 5-HT reuptake prevent activation of autoreceptors by exogenous agonists by increasing the concentration of 5-HT in the autoreceptor biophase. Send offprint requests to M. Raiteri at the above address     

从在用医疗设备存在的电气安全风险谈其质量控制

根据四川省医疗器械检测中心从2015年~2019年对四川省内94家医院所使用的245台医疗设备进行抽验的结果,探讨目前在用医疗设备潜在的电气安全风险,并针对这些风险提出如何进行医疗设备质量控制的建议。     

针药并治椎动脉型颈椎病35例

采纳用针药并治、配合牵引治疗椎动脉型颈椎病35例,结果治愈16例,好转18例,无效1例,总有效率97.1%。说明针刺配合强筋汤及牵引治疗椎动脉型颈椎病,起到协同的作用。提高了临床疗效。     

针灸治疗原发性痛经68例临床观察

采用针刺配隔姜灸治疗原发性痛经 6 8例 ,总有效率 97.0 6 % ,与药物对照组相比 ,P<0 .0 1 ,说明针灸治疗组疗效明显优于药物对照组