Spontaneous activity of passive muscle spindles of the cat triceps surae muscle

The hypothesis that one possible cause of the spontaneous discharge of muscle spindles in the totally relaxed and de-efferented triceps surae muscle, with its tendon divided, is the mechanical factor due to extrafusal-intrafusal interaction was tested in experiments on anesthetized cats. Responses of spontaneously active units were similar with respect to many indices to responses of silent receptors capable of generating a long discharge in response to an increase in static length of the muscle. Isotonic contraction of the relaxed muscle during direct or indirect stimulation was accompanied by a pause in spontaneous activity. The prolonged increase in discharge frequency sometimes arising as a result of pressure on the muscle in the region of the receptor also was abolished by weak isotonic contraction of the muscle. If a long posttetanic sensory discharge was induced in a spontaneously active receptor by intensive tetanization of the nerve to the muscle, and it was then abolished by short stretching of the muscle, the initial spontaneous discharge frequency was restored. The dynamic thresholds of spontaneously active receptors were lower than for silent receptors. In some spontaneously active receptors an initial slowing of the discharge was observed during linear or stepwise stretching of the muscle. It is suggested that the ability of sensory endings to generate a long spontaneous discharge is due to initial stretching of the spindle inside the relaxed muscle.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 10, No. 3, pp. 287–294, May–June, 1978.     

Analysis of spontaneous unit activity of the cat caudate nucleus

Spontaneous unit activity recorded extracellularly from the caudate nucleus in acute experiments on cats was analyzed. A graph of the sliding mean frequency, an interspike interval histogram, correlogram, intensity function, and histogram of correlation between adjacent intervals were plotted for the spontaneous activity of each neuron. The spontaneous activity of neurons of the caudate nucleus showed considerable variability in time and its mean frequency varied for different neurons from 0.5 to 20 spikes/sec. Depending on the temporal pattern of the spikes and also on the statistical indices, spontaneous unit activity in the caudate nucleus was conventionally divided into two types: single and grouped. A switch from one type of activity to the other was observed for the same neuron. On the basis of the data as a whole it is impossible to regard the spontaneous unit activity of the caudate nucleus as a simple random (Poissonian) spike train.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 9, No. 4, pp. 369–376, July–August, 1977.     

Effect of motor stimulation and stretching on afferent activity of the neuromuscular spindle isolated from the frog]

The arrangement of muscle spindles in m. ext. long. dig. IV has been examined by microdissection. It is confirmed that spindle systems generally appear to consist of individual receptors. Stimulation effects of fast motor fibres (conduction velocities greater than 12 m/sec) on the spindles of the same muscle were studied. Receptors were isolated with their nerves and the appropriate spinal roots, the latter ones were used for stimulating efferent fibres and recording sensory discharges. Single shocks to the ventral root filaments caused afferent responses ranging from a single action potential to a train of impulses. During repetitive stimulation (train of stimuli at frequency of 10 to 150/sec) a marked increase in afferent activity was found. Afferent activity could be driven by the frequency of stimuli ("driving") and the stimulus/action potentials ratio varied from 1:1 to 1:3 or more. The rate of sensory discharge depended on the frequency of stimuli: the maximum effect, was attained at 30 to 50 stimuli/sec and, in the most responsive receptors, up to 80 stimuli/sec. Slight increases of the initial lengths of the receptors caused facilitation of sensory responses to motor stimulation. Moreover, impairing effects, which appear during sustained or high-frequency stimulation, possibly related to fatigue in intrafusal neuromuscular transmission, could be relieved by increasing the initial length. The repetitive stimulation of fast fusimotor fibres increased both dynamic and static responses and also raised the afferent activity after a period of stretching, when usually a depression occurs; these effects varied according to the preparation, its initial tension and the frequency of stimulation. The main feature of the examined motor fibres, when stimulated, is the constant excitatory action on muscle spindle static response. Results are discussed. It is suggested that the different characteristics of intrafusal muscle fibres, the receptor initial tension and the frequency of motor units discharges, may together affect muscle spindles static or dynamic performance.     

Static sensitivity of primary muscle spindle endings

Static discharges were studied in 75 primary endings of passive muscle spindles during stepwise stretching of the cat triceps surae muscle. Afferents conducting excitation with velocities of between 72 and 115 m/sec, with high dynamic sensitivity, and with static thresholds below 8 mm were chosen. The muscle was stretched by 10 mm relative to the completely relaxed state with a step of 0.8 mm. Spike discharges were recorded 40 sec after each stretching for 30 sec and the mean frequency was calculated. Comparison of static and differential static responses for different units, of the "muscle length-mean discharge frequency" dependence, and of the static thresholds showed that a linear (under 4.5 spikes/sec/mm) or steady increase in the mean discharge frequency to 40 spikes/sec took place in only 20% of primary endings with a probability of more than 0.7 for each step of muscle stretching. In most primary endings a narrow range of sensitivity to a change in the static length of the muscle was found. It is suggested that the "poor" static sensitivity was due either to high static thresholds or to the absence of increases in mean discharge frequency despite continued stretching.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 13, No. 5, pp. 540–548, September–October, 1981.     

Responses of muscle spindles of fast and slow muscles to mechanical stimulation during hypokinesia

Activity of muscle spindles of fast (extensor digitorum longus) and slow (soleus) muscles was studied in cats during hypokinesia of the limb immobilized in a plaster cast. Spontaneous activity of muscle spindles of the fast and slow muscles was unchanged during hypokinesia. Spontaneous activity of primary and secondary endings evoked by passive stretching of the muscle exceeded normal. During stretching of the muscles at different speeds and of different amplitudes, the discharge frequency of the primary and secondary endings was much greater than normally during both the dynamic and the static phase of stretching. These changes were more marked in the slow muscles.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 10, No. 2, pp. 186–192, March–April, 1978.     

Various forms of potentials recorded from caudate nucleus neurons

Spontaneous and evoked activity of caudate nucleus neurons was recorded extracellularly in acute experiments on cats. Different forms of potentials were found by analysis of the results. The potentials recorded belong to three types: ordinary action potentials; prepotentials or incomplete spikes differing from ordinary action potentials in their lower amplitude and slower decline, and complex discharges in which a spike of somewhat reduced amplitude is followed by a slow positive-negative wave. In the spontaneous activity prepotentials were observed both in complete action potentials and in isolation. The frequency of the complex discharges was 0.5–1 per second. The slow wave of these discharges blocked prepotential and action potential formation. The origin of these forms of potentials in neurons of the caudate nucleus is discussed and they are compared with analogous forms of potentials described for the Purkinje cells of the cerebellum.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukranian SSR, Kiev. Translated from Neirofiziologiya, Vol. 9, No. 2, pp. 149–156, March–April, 1977.     

Changes in sensitivity of muscle spindles of fast and slowly contracting muscles after chronic de-efferentation

Activity of muscle spindles of fast (m. EDL) and slowly contracting (m. sol.) muscles was studied in cats 2–5 weeks after extradural division of the ventral roots of the spinal cord at the level of segments L₅–S₂. Spontaneous activity of muscle spindles recorded against the background of a relaxed muscle was unchanged after de-efferentation; spontaneous activity, however, evoked by stretching the muscles with a load of 100 g, was increased as a result of denervation in both primary and secondary endings. During additional stretching of the muscles with different speed and amplitude the sensory endings of the muscle spindles under conditions of chronic de-efferentation generated responses with higher than normal frequency in both the dynamic and the static phases of stretching. In this case a greater increase in frequency was observed in the slow than in the fast muscle.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 13, No. 2, pp. 204–209, March–April, 1981.     

Spike Discharge Patterns of Spontaneous and Continuously Stimulated Activity in the Cochlear Nucleus of Anesthetized Cats

Interspike interval histograms of spontaneous and stimulated activity were computed from spike discharges of single units in the cochlear nucleus. These histograms indicate that a number of different types of spontaneous discharge patterns exist in the nucleus. The type of spontaneous activity of a given unit is related to its activity in response to continuous tones. Correlations were found between the discharge patterns of units and their anatomical locations within the nucleus.     

Spontaneous unit activity in anterior (limbic) nuclei of rabbit thalamus

Spontaneous spike activity in three anterior (limbic) neurons of the thalamic nucleus was studied by means of extracellular recording during chronic experiments on anesthetized rabbits. Neurons of the anteroventral nucleus showed high mean rate (24.8±5.8 spikes/sec) and varying structure of spike discharges ("inactivating" bursts of discharges, modulations in delta- and theta-rhythms, and bursts of discharges with a spindle rhythm of 12–14 Hz). "Inactivating" bursts of discharges alternating with single discharges predominated in the activity of neurons of the anteromedial nucleus (mean rate 10.0±1.4 spikes/sec). Activity of the anterodorsal nucleus could be clearly distinguished by the predominance of high-frequency groups of spikes (mean group frequency 67±5 spikes/sec) with prolonged intervals between groups.Institute of Biological Physics, Academy of Sciences of the USSR, Puschino, Moscow Province. Translated from Neirofiziologiya, Vol. 17, No. 5, pp. 579–586, September–October, 1985.     

Analysis of spontaneous unit activity in the cat pyramidal tract

For a statistical analysis of spontaneous activity of cortical pyramidal neurons (PN) of the cat, recordings were obtained from axons of those neurons descending in the lateral pyramidal tract in lumbar segments of the spinal cord. Spontaneous activity of all investigated PN is not random in sequence but has a complex temporal structure. Three types of spontaneous activity were distinguished by the character of distribution of the interspike intervals (ISI); the degree of grouping of the spikes into volleys separated by long intervals increases from type I to type III. Type III is more often found in PN with fast-conducting axons. As a rule the number of volleys in the spontaneous activity differed from that expected by the hypothesis of random spike sequence. In some cases repetition of volleys with an identical, or nearly identical, temporal structure was observed. It is postulated that the type of spontaneous activity is determined by the functional state of the neuron and by its morphological properties. Experiments were carried out on two groups of animals: 1) briefly anesthetized a long time before the recording was obtained, and then immobilized; 2) anesthetized with chloralose and Nembutal. The differences between the character of spontaneous PN activity were mainly in the degree of grouping of the spikes (which was greater in the second group). Significant positive correlation was found between the velocity of conduction along the PN axon and the mean ISI of the spontaneous activity.A. A. Bogomolets' Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 4, No. 1, pp. 3–11, January–February, 1972.     

Types of activity of skeletal muscle motor units during cold tremor in cats

Discharges of 184 motor units of the sartorius muscle functioning during cold tremor were investigated in acute experiments on anesthetized cats. Units whose discharges correlated with respiration cycles and units functionally independent of the rhythm of respiration were discovered. Discharges of both types of motor units possessed the same mean frequency (4–12 spikes/sec) and the same low variability of interspike intervals. Additional temperature stimulation of the vascular temperature receptors and changes in the frequency and depth of the respiratory excursions during cold tremor evoked identical responses in the two types of units. It is concluded that both types of motor units have similar thresholds and are of the slow, phasic type.O. V. Kuusinen State University, Petrozavodsk. Translated from Neirofiziologiya, Vol. 11, No. 4, pp. 355–361, July–August, 1979.     

Synchronization of motor units and its simulation in parallel feedback system

Comparison of the discharge patterns of soleus motor units with associated changes in force exerted by foot during quiet stance have already demonstrated the following facts. In the initial stage of standing, the motor units exhibited stationary and asynchronous discharges. The force showed a sporadic presence of the high frequency oscillation in the 8–10 Hz band. After five to ten minutes of standing, the firing rate of individual motor unit discharges increased to about 10 spikes/sec and discharges of each motor unit were synchronized and phase-locked to each of the accompanying force oscillation. During this transitional stage, the discharges of motor units were characterized by spike dropouts from an otherwise regular spike train. To simulate the changes in the discharge characteristics, we have proposed a parallel feedback model of the stretch reflex arc. This was made of multiple -motoneurons, motor units and muscle spindles. And motor units interact each other through group Ia afferent signals. As a result of simulation, motor units were found to exhibit stationary and asynchronous discharges when feedback gain was kept small. With an increase of feedback gain, the firing rate of individual motor units increased and finally the discharges of them were synchronized. During this transitional stage, the spike dropouts were observed in accordance with the experimental results. The neuronal mechanism of synchronization may partly be explained by the interactions of motor neurons through the above stated parallel feedback system.     

Discharge characteristics of spindle receptors located in different parts of the cat soleus muscle

Discharge characteristics of 48 receptors of passive muscle spindles during gradual stretching of the soleus muscle were studied in anesthetized cats. The position of the receptor was determined by electrical stimulation of the muscle surface, by pressure on the muscle, by stretching of individual bundles of fibers, by intramuscular electrical stimulation, and also by coagulation of areas of muscle leading to disappearance of discharges of the monitored unit. Primary and secondary endings were found in which dynamic and static sensitivity could be distinguished and were independent of localization. Primary endings with identical functional properties were found in both the proximal and middle parts of the muscle. It is postulated that lower or higher dynamic and static sensitivity of receptors depends not on the location of muscle spindles in the soleus muscle, but on differences in the density of afferent terminal contacts with three types of intrafusal fibers.     

Electromyographic activity and noradrenaline content of the rabbit oviduct under different hormonal states

Spontaneous electromyographic (EMG) activity of the oviduct recorded in vivo in untreated, estrogen-treated, and progesterone-treated castrated rabbits was found to exhibit two main patterns: short spike bursts lasting 1-10 s and long trains of action potentials lasting several minutes, which constituted the major component of EMG activity. After estrogen treatment, both wet weight and noradrenaline (NA) content of the castrated rabbit oviduct were enhanced mainly at the ampullary-isthmic junction; long trains of discharges were significantly shorter (2.0-2.7 min vs 3.6-4.6 min) and appeared at more frequent intervals (9.8-12.2 min vs 14.2-22.6 min). After progesterone treatment, spontaneous EMG activity was not significantly different from that in untreated castrated rabbits (as was the NA content) except at the ampullary-isthmic junction. NA injection elicited a stimulatory response of the oviduct lasting 1-7 min in the three hormonal states. Phentolamine strongly depressed spontaneous EMG activity but the inhibition was more transient in castrated rabbits than in estrogen-treated and progesterone-treated animals. Propranolol had no effect on spontaneous EMG activity. These data and the high NA concentrations found in all parts of the isthmus support the hypothesis that adrenergic innervation plays a role in the organization of oviductal motility in the rabbit.     

Comparative analysis of background activity of ventrolateral thalamic neurons in patients with parkinsonism and torsion muscle dystonia

In the course of neurosurgical interventions in 40 patients with parkinsonism and torsion muscle dystonia, the background activity (BA) was recorded from 124 neurons of the ventrolateral nucleus (VL) of the thalamus with the aid of microelectrodes during demarcation of boundaries between nuclear structures, and identification of zones within a nucleus. The following characteristic features of the BA in patients with parkinsonism were found: a relatively large proportion (71%) of cells with a burst pattern of activity; a great diversity of burst duration in the activity (short or prolonged bursts); a large proportion (67%) of cells with cyclic changes in the BA frequency; diverse patterns of cyclic modulation, where periods varied from fractions of a second (0.2–0.8 sec) to seconds (2–10 sec) or to tens of seconds (20–40 sec); cyclic successions of spike bursts with the rhythm typical of the peripheral tremor (3–7/sec) in a substantial proportion (40%) of the units.The background spike trains recorded in patients with torsion muscle dystonia consisted of separated spikes in the majority (69%) of units. Only short high-frequency discharges were found in the burst activity in this group; a cyclic BA pattern occurred much less frequently (in 23% of neurons); burst discharges at a 3–4/sec frequency were found only in 4% of the examined cells.The possible nature of motor disorders in patients with parkinsonism and torsion muscle dystonia and the mechanisms of the curing effects of cryodestruction of theVL of the thalamus in the treatment of the disease are discussed.Neirofiziologiya/Neurophysiology, Vol. 25, No. 4, pp. 246–253, July–August, 1993.     

Response of cat auditory cortex neurons to tonal stimulation during and after nembutal anesthesia

During acute experiments on 20 cats a comparative study was made of neuronal reaction to a tone, as recorded during the first few hours after administration of Nembutal and after an interval of 10–30 h. No spontaneous activity was seen in 89% of auditory cortex neurons of the anesthetized cats; these produced a sterotyped on- response to the optimal frequency tone. Late neuronal spike discharges at distinct intervals of 100–150 msec appeared in response to the setting up of acoustic stimulation after a brief latent reaction lasting 9–15 msec. It was shown that this stimulation did not produce an off-response in the cortical neurons. When the animals emerged from Nembutal anesthesia, the neurons reacted very differently to the optimal frequency tone. About 76% of the cells produced an on, on-off or off response, while about 21% responded with either tonic spike discharges or total inhibition of these throughout the acoustic stimulation. In unanesthetized cats the vast majority of AI cortical neurons were capable of reacting as long as the stimulus lasted. It is shown how this ability is lost under deep Nembutal anesthetic.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 17, No. 6, pp. 728–737, November–December, 1985.     

Relations between spontaneous and evoked unit activity in the cat auditory cortex during defensive conditioning to acoustic stimulation

Spontaneous and evoked unit activity in the auditory cortex of waking cats was studied during defensive conditioning. An increase in the frequency of spontaneous activity arising under these circumstances in many neurons was frequently observed after presentation of the first combinations (before the appearance of effector responses), and reached its highest probability after thirty combinations (parallel with the appearance of conditioned-reflex motor responses). Comparison of the mean frequencies of spontaneous activity and the corresponding evoked activity reveals, on the one hand, a nonlinear relationship between them and, on the other hand, dominance of responses of activation type and weaker representation of inhibitory responses. Several levels of spontaneous activity were discovered, corresponding to particular zones of mean frequencies of evoked activity. Analysis of spontaneous activity before and after presentation of the conditioned stimulus (the after-period) showed that the mean frequencies in both these periods were very similar in the case of a stable conditioned reflex. In that case preservation of the structure of the spike train of several neurons was observed for stable time intervals (ranging from tens of minutes to 1–3 h).A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 12, No. 3, pp. 227–238, May– June, 1980.     

Rhythmic background thalamic neuronal activity in patients with extrapyramidal motor disorders

The background activity of 123 thalamic neurons was recorded in 30 patients with motor extrapyramidal disorders applying microelectrode techniques to neurosurgical practice. Recordings were taken from the ventro-oral anterior and posterior thalamic nuclei and the adjacent reticular nucleus. A computer analysis was performed of neuronal activity in 44 units and plots produced of autocorrelation and spectral density functions. In patients with parkinsonism and double athetosis, rhythmic activity was found in 48% of cells. A wide variety of regular fluctuations in background neuronal discharges was noted: in the range of theta and delta rhythms (5–7 and 1–4 Hz respectively) with a periodicity of seconds (2–10 sec) and decaseconds (15–40 sec). It was thought possible that several types of regular waves may coexist: phenomena of 2 or 3 accelerated waves and reduced frequency of spike activity of differing periodicity were observed in eight neurons within the same train of spikes. The origin and significance of rhythmically occurring changes in thalamic neuronal spike activity are discussed.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR; Institute of Neurosurgery, Ministry of Public Health of the Ukrainian SSR. Translated from Neirofiziologiya, Vol. 19, No. 2, pp. 192–201, March–April, 1987.     

Effect of cortisol microiontophoresis on discharge time structure of dorsal hippocampal neurons in rabbits

The effect of microiontophoretic application of cortisol to single neurons of the dorsal hippocampus on the character of distribution of interspike intervals in their discharges was studied in chronic experiments on rabbits. Cortisol modified the time structure of regular and rhythmic discharges of hippocampal neurons. Regularization of discharges in the form of bursting activity appeared as the result of cortisol in cells with irregular spontaneous activity. Activity of more than half of the neurons, in which bursting discharges corresponded in frequency to the theta-rhythm, was intensified as a result of microapplication of cortisol. In neurons discharging complex spikes, in which under normal conditions a phenomenon of reduction of spike amplitude was observed within each burst, no definite rule as regards changes in the time structure of the discharges could be observed after administration of the hormone. It is suggested that cortisol plays a modulating role in mechanisms of generation of spike activity by hippocampal neurons.P. K. Anokhin Research Institute of Normal Physiology, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 13, No. 6, pp. 628–635, November–December, 1981.     

Tissue culture study of unit activity of the rat cerebral cortex

Spontaneous unit activity and morphological characteristics of visual cortical neurons from young rats aged 1 and 2 days were investigated during long-term culture (up to 34 days) of explants in vitro. Three types of spontaneous unit activity were found: single spikes, volleys, and grouped discharges. The types of spontaneous activity were found to depend on the duration of cultivation of the brain tissue. The discharge of single spikes, characteristic of neurons during the first 7–15 days in culture, subsequently was replaced by grouped discharges or volleys of spikes. The changes in unit activity were shown to coincide in time with morphological maturation of the synapses. In experiments in which strychnine (10 µg/ml) was added to the culture medium, a marked increase was observed in the mean frequency of spontaneous unit activity, accompanied by the appearance of discrete series of volley-type discharges. The genesis of spontaneous cortical unit activity is discussed on the basis of these findings.