Analgesia following electrostimulation of midbrain nuclei of rats with a pain syndrome of spinal origin]

The effect of electrostimulation of the mesencephalic grey matter and of the dorsal nucleus raphe on physiological pain produced by nociceptive stimulation (compression of the tail or the skin on the limb by a clamp) and on pathological pain (the pain syndrome of spinal origin) were studied in experiments on albino rats. Pathological pain was induced by creating a generator of pathologically enhanced excitation in the dorsal horn of the spinal cord by local disturbance of the inhibitory mechanisms with the aid of tetanus toxin. It was shown that electrostimulation of the indicated areas abolished both physiological and pathological pain. A conclusion was drawn that analgesia produced by electrostimulation of certain structure of the brain was connected not only with augmentation of the descending inhibition in the spinal cord as in the case of physiological pain caused by peripheral nociceptive stimulation (as shown by several authors), but also with the block of excitation at the supraspinal level. This mechanism should play a decisive role in analgesia realization in the pain syndrome of central origin, both under experimental and natural conditions.     

Phosphatases in the accessory respiratory organs of two fresh-water fishes.

The distribution of enzymes, viz., alkaline phosphatase, acid phosphatase, adenosine monophosphatase and adenosine triphosphatase was studied by histochemical methods in the accessory respiratory organs of two fresh-water fishes (Clarius batrachus and Heteropneustes fossilis). Enzymes have been used as markers to differentiate between functional and non-functional cells of the dendritic organ of Clarius and of the air chamber of Heteropneustes. The variations in the enzyme activities have been correlated with the functional capacity of each respiratory organ. It is attempted to understand the physiological role of these enzymes in the process of aerial breathing.     

Effect of adenosine on hemodynamic changes during the development of neurogenic myocardial lesions

The influence of adenosine on hemodynamic changes induced by electrostimulation of reflexogenic zone of aorta was studied in this article. It was shown that 3-hour electrostimulation increased the total peripheral resistance and decreased cardiac output and aortic pressure. Intravenous infusion of adenosine during electrostimulation led to the normalization of main indices of hemodynamics.     

The role of the lateral and medial hypothalamus in reproducing a motor reaction as the signal during the acquisition of classical conditioned reflexes]

In experiments on three dogs there was shown that testing electrostimulation of the lateral hypothalamus reproduced the motor reaction which is a signal stimulus at elaboration of classic alimentary conditioned reflexes (CRs) and did not reproduce it at elaboration of classic defensive CR. Testing electrostimulation of medial parts of the hypothalamus reproduced, as LH electrostimulation the "signal" motor reaction, but in less percentage of cases, during elaboration of classic alimentary CRs and did not reproduce it at elaboration of classic defensive CRs. The reproduction of the signal motor reaction at LH electrostimulation is connected with activation of backward conditioned connection from motivation structures of the hypothalamus to representation of the signal stimulus in the motor cortex.     

Changes in the jaw-opening reflex during anesthesia resulting from auricular electrostimulation

The effect of auricular electrostimulation on the jaw opening reflex and affective behaviour of adult cats was studied in chronic experiments during stimulation of the lip. Auricular electrostimulation was shown to facilitate the jaw opening reflex and to inhibit the affective component of the pain.     

Features and mechanisms of realization the respiratory influences of the extrapyramydal system structures

In the publication the modern condition of the problem of suprabulbar regulation of breathing is analysed. The review on structure, neurochemistry and anatomic connections of the red nucleus and substantia nigra with the medullary respiratory center is submitted. The data on the respiratory effects of GABA and apomorphine microinjected into the red nucleus and substantia nigra as well as effects of their electrostimulation after the blockade of GABA and dopamine receptors in the respiratory center are discussed. The conceptual scheme of the mechanisms of realization the respiratory influences of the extrapyramydal system is offered.     

Lipid peroxidation in tissues during subliminal electrostimulation of limbic system structures in the brain

The experiments on rats have shown that during prolonged subliminal electrostimulation of limbic brain system structures peroxidation is enhanced in the blood and tissues (myocardium, liver, parodontium), with it being realized via activation of sympathoadrenal and hypothalamo-hypophyseal systems and stipulated by the failure of physiologic antioxidative mechanisms.     

High density respiratory syndrome: I. Oscillations of flow-volume curves during forced respiration in dense gas media]

33 divers exposed to high pressure have been examined in three series. The dynamics of the forced breathing parameters has been studied: I--helio or neon-oxygen medium under pressure of 1.078-3.53 MPa (11-36 kg/m2) with density to 32.7 kg/m3; II--nitrogen-oxygen medium under 0.274-0.882 MPa (2.8-9.0 kg/m2) with density of 11.7 kg/m3; III--under the same conditions, as II, but using bronchospasmolytics (stimulators of 2-adrenoreceptors: astompent, salbutamol, berotec) under hyperbaria. A new phenomenon: high-density breathing syndrome is revealed. It includes appearance of oscillations of respiratory flows against the background of a decrease of forced breathing rate in dense gas medium and has a common mechanism of appearance both during inhale and exhale. High hydrostatic pressure and narcotic qualities of inert gases can have a modulating effect. Evidences are obtained that tremor phenomena observed during high pressure nervous syndrome can influence the biomechanics of forced breathing at hyperbaria. A high correlation between amplitude modulation of electromyograms of breathing muscles and pneumotachogram oscillations within the range, corresponding to the frequency of physiological tremor, allowed assuming that tremor of breathing muscles induced by high-density gas medium action is one of factors responsible for appearance of respiratory flows oscillations.     

Characteristics of bacterial lipopolysaccharides depending on extraction method

Carbohydrate-containing biopolymers have been isolated from Erwinia carotovora subsp. atroseptica 549 by two methods--the aqueous-phenol and with using physiological solution--with addition and without addition of ethylenediaminetetraacetate (EDTA). The biopolymers yield from the cells of bacteria are shown to depend on the extraction method. Lipopolysaccharide-protein complex have been isolated by the sparing method. The purest lipopolysaccharide have been isolated by the aqueousphenol method. The preliminary treatment of cells by EDTA increased the biopolymers output. Carbohydrate containing biopolymers isolated from the cells of bacteria by different methods possess the similar qualitative composition of monosaccharides but they differ in the quantitative content of monosaccharides, spectrum of fatty acids of lipid components as well as in the protein content.     

Lactic acid as a factor in altering vascular reactivity]

It was shown that the constrictor responses to the electrostimulation of the isolated vessel segments were replaced by dilatation when the drugs were contained in the lactic acid solution. The capacity to constrictor effects was not lost completely, but these effects appeared in repsonse to the intensive stimulation. Changes in the character of these reactions to the electrostimulation were connected with the changes in the pH of the solution, as well as with the specific action of lactic acid.     

Breathing-controlled Electrical Stimulation (BreEStim) for Management of Neuropathic Pain and Spasticity

Electrical stimulation (EStim) refers to the application of electrical current to muscles or nerves in order to achieve functional and therapeutic goals. It has been extensively used in various clinical settings. Based upon recent discoveries related to the systemic effects of voluntary breathing and intrinsic physiological interactions among systems during voluntary breathing, a new EStim protocol, Breathing-controlled Electrical Stimulation (BreEStim), has been developed to augment the effects of electrical stimulation. In BreEStim, a single-pulse electrical stimulus is triggered and delivered to the target area when the airflow rate of an isolated voluntary inspiration reaches the threshold. BreEStim integrates intrinsic physiological interactions that are activated during voluntary breathing and has demonstrated excellent clinical efficacy. Two representative applications of BreEStim are reported with detailed protocols: management of post-stroke finger flexor spasticity and neuropathic pain in spinal cord injury.     

Is breathing in infants chaotic? Dimension estimates for respiratory patterns during quiet sleep

Wedescribe an analysis of dynamic behavior apparent in times-seriesrecordings of infant breathing during sleep. Three principal techniqueswere used: estimation of correlation dimension, surrogate dataanalysis, and reduced linear (autoregressive) modeling (RARM). Correlation dimension can be used to quantify the complexity of timeseries and has been applied to a variety of physiological andbiological measurements. However, the methods most commonly used toestimate correlation dimension suffer from some technical problems thatcan produce misleading results if not correctly applied. We used a newtechnique of estimating correlation dimension that has fewer problems.We tested the significance of dimension estimates by comparingestimates with artificial data sets (surrogate data). On the basis ofthe analysis, we conclude that the dynamics of infant breathing duringquiet sleep can best be described as a nonlinear dynamic system withlarge-scale, low-dimensional and small-scale, high-dimensionalbehavior; more specifically, a noise-driven nonlinear system with atwo-dimensional periodic orbit. Using our RARM technique, we identifiedthe second period as cyclic amplitude modulation of the same period asperiodic breathing. We conclude that our data are consistent withrespiration being chaotic.

     

The effect of thoracic pressoreceptors on heart rate in man

Sinus arrhythmia (SA) is a physiological event related to the respiratory activity. The aim of this study was to find a relation between SA and different deep breathings. A transductor monitored the chest respiratory movements and a cardiotachometer calculated and plotted the instantaneous heart rate, synchronously during different breathing efforts. In 10 normal subjects a good linear correlation was found between the breathing depth and SA quantifying the relation between the chest receptor activity and SA also with limited chest expansion.     

On the synchronization of breathing with running in wallabies (Macropus spp.) and horses (Equus caballus)

Previous investigations have shown that, when they run, wallabies and various quadrupedal mammals take exactly one breath per stride. It has been suggested that their breathing movements may be driven by the movements of running, and three mechanisms have been proposed: the lungs may be compressed and expanded by vibrations of a 'visceral piston', by bending and extension of the back or by the forces imposed on the rib cage by the forelegs.
The three mechanisms are tested against published observations on wallabies and horses. Simple mathematical models are used to predict the phase relationship between running and breathing for each mechanism, and the amplitudes of breathing that they could cause. The observed breathing movements of hopping wallabies are consistent with a visceral piston mechanism tuned to the stride frequency, but cannot be explained by either of the other mechanisms. Those of cantering and galloping horses are not consistent with a tuned visceral piston mechanism, but could be driven by the bending and extension of the back.     

Function of brainstem neurons in optimal control of respiratory mechanics

An optimization control procedure is developed to describe the function of the human respiratory controller in determination of the respiratory frequency, the expiratory reserve volume, and the physiological dead space volume at all levels of human activity. The required level of alveolar ventilation is considered to have been determined based on the inputs from the peripheral and central chemoreceptors. The proposed procedure describes the mechanical control of breathing in which the excitation signals are adjusted and transferred from the neuron pools in the brainstem to the respiratory muscles to control the rate and depth of breathing. The criterion of minimum average respiratory work rate is used to find the optimal characteristics of respiration. The respiratory frequency, physiologic dead space volume, and expiratory reserve volume are used simultaneously as the optimization variables to minimize the average respiratory work rate. The optimization procedure has been applied by using different airflow patterns at various levels of ventilation. The theoretical results of the study have been compared with the experimental data in exercise taken from the literature. The results show a close agreement between the experimentally measured data and the theoretical values found by the optimization control procedure. The findings attest to the validity of the minimum average work rate criterion and the proposed multivariable optimization procedure compared with other procedures suggested in the literature in control of respiratory mechanics.     

Effects of auricular electrostimulation and naloxone on nociceptive sensitivity in rabbits

Auriculo-acupuncture electrostimulation (AES) (15 H2) decreased the amplitude of somatosensory evoked potential (EP) in response to tooth pulp electrostimulation in 64% of acupuncture-sensitive unanesthetized rabbits and didn't induce the changes of EP in 36% of animals (acupuncture-resistant rabbits). The systemic naloxone (0.2 mg/kg) injection reversed the AES analgetic effect and induced the hyperalgesic one in acupuncture-sensitive rabbits but induced the analgetic effect in acupuncture-resistant animals. It has been suggested that the differences of individual characteristics of endogenous opioid system determined different naloxone action in acupuncture-sensitive and acupuncture-resistant rabbits.     

经皮电刺激治疗外伤性外周神经损伤40例的效果分析

目的 本文分析使用经皮神经肌肉电刺激治疗外伤性周围神经损伤的临床疗效,探讨经皮电刺激对神经周围微循环的影响.方法 采用丹迪Keypoint型肌电图仪对40例上肢周围神经不全损伤的患者,行经皮神经肌肉电刺激治疗,配合运动疗法.治疗中使用激光多普勒血流仪(LDF)检测电刺激前、后神经周围微循环血流改变情况,并分析电刺激对微循环的影响.同时在治疗前、后行神经电生理检查对比检测,并对不同病程患者治疗后的效果作对比分析.利用以上分析手段观察受损神经功能的恢复情况.结果 40例臂丛神经、正中神经、桡神经、尺神经不全损伤的患者,经2-10个疗程的治疗后,受损神经功能治愈率达63％ (25/40),有效率为90％ (36/40).LDF检测结果显示电刺激后神经周围微循环血流量较刺激前增加23.36％-26.96％,改善受损神经局部微循环,神经肌电检测结果显示较治疗前有明显好转.在不同病程的患者中进行比较,病程越短者,效果越好.结论 经皮神经肌肉电刺激在外伤性周围神经损伤的治疗中,是一种行之有效的方法,可提高受损神经肌肉的兴奋度,促进受损神经局部的血液循环,有利于周围神经的再生.运动疗法的干预,能改善肌萎缩,增强肌协调力,预防关节僵硬,保持关节活动度,最终取得对外伤性周围神经损伤的满意疗效.应用激光多普勒血流成像技术,测得电刺激前、后神经周围微循环出现明显的血流量增加,证实电刺激能改善受损神经局部微循环.     

Inhibition of whole body Ca2+ uptake in fresh water teleosts, Channa punctatus and Cyprinus carpio in response to salmon calcitonin

In many fish, ultimobranchial-derived calcitonin (CT) has been shown to be a potent hypocalcemic regulator. But an equal number of studies failed to show any correlation between CT and plasma calcium levels. Again, in fish, where CT has been shown to function as a hypocalcemic hormone, the way this is brought about is not well known. While the regulatory role of many hormones e.g., stanniocalcin, pituitary-derived prolactin and cortisol on gill calcium (Ca2+) transport (GCAT) has been well established, very few studies have been done to examine the effects of CT on GCAT in fish. In the present study we examined the effects of synthetic salmon calcitonin (sCT) in vivo on GCAT in two distinctly different species of fresh water teleost, Channa punctatus (partially air breathing) and Cyprinus carpio (fully gill breathing). Whole body calcium uptake, a measure of GCAT, was lower in the partial air breathing fish. We found that salmon CT had significant inhibitory effect on GCAT in both the fish species, kept either in normal tap water or low-calcium water. Fish, kept in high-calcium water, showed little response. In parallel studies we also observed that inhibition of GCAT was correlated with simultaneous changes in plasma calcium levels in response to exogenous administration of sCT. The present findings therefore suggest that CT in fresh water teleosts regulate its hypocalcemic action through inhibition of GCAT.     

小鼠的非手术法采精

用徒手法、假阴道抽吸法和电刺激法进行小鼠非手术法采精探索 ,结果表明 :假阴道抽吸法和电刺激法可采出精子 ,两者采精成功率、平均精子量和精子活率均差异不显著 ;小鼠不同射精阶段的精子含量不同 ,其中精子主要集中在射精的第二阶段和第三阶段 ;假阴道抽吸法和电刺激法对小鼠首次采精后 ,用同样的方法对相应的小鼠重复采精 ,成功率、平均精子量和精子活率与首次采精相比差异均不显著     

Role of the vagus nerve in mechanisms of the modulation of afferent duodenal effects]

The electrostimulation of vagal nerves, the effect of naloxone and atropine on duodenal afferentation by registering evoked potential (EP) at cortex on direct electrostimulation of duodenum have been studied in acute experiments on cats. It has been established that the stimulation of afferent portion of vagal nerves causes the effect of deprivation of EP, whereas the stimulation with certain intensity of efferent portion of vagal nerves intensifies the duodenal afferentation. The effect of afferentation easeness (relief) has been blocked by the application of naloxone 10-20 microgram on duodenal bulbus, but not on it's i. v. injection and without effect on local application of atropine. It is concluded that the role of vagal nerves on the modulation of duodenal nociception is due to the activation of opiate terminals of the efferent vagal nerve portions.