The behavior of rats with different regimes of cerebral self stimulation]

The behaviour of rats was studied during electrical self-stimulation (SS) of the brain in a chamber with a pedal: with a fixed duration of stimuli trains (fixed SS regime), and in a self-controlled regime, where the duration of trains was set by the rat itself. As the current intensity or the duration of the trains continues to increases, the SS frequency in the fixed regime rises no longer. The duration of pressing becomes shorter than that of the trains, and the number of short pauses drops down to 50% of its total number of pauses, if at the same current intensity the duration of the train is the same or greater than that set by the rats in the self-controlled SS regime. With weak current intensities, the rats could fail to press the pedal if they received 0.1 sec. trains. But at the same current intensities the rats began SS, if they received for pressing the pedal a succession of trains of 0.1 sec. each with intervals of 0.1 divided by 0.2 sec. SS discontinued if the interval in the trains succession increased up to 0.4 sec.     

The movement patterns of lacertid lizards: speed, gait and pauses in Lacerta vivipara

Lacerta vivipara moving across an open space at their normal activity temperature alternate bursts of locomotion with short pauses which tend to occur at the extremes of the limb cycle, i.e. when individual limbs are maximally adducted or retracted and the spinal cord is maximally flexed in the lateral plane. The movement bursts and pauses in adult lizards have mean durations of 0–30 and 012 s, respectively, and within bursts the lizards move at a mean speed of 14–6 cm s^-1. Movement in juvenile lizards is 2–5 times faster (relative to body length) and the pauses are of longer duration (mean = 019 s), giving the locomotion of juveniles a more jerky appearance. Lizards which are chasing crickets increase the speed and the duration of locomo-tory bursts, although the pauses persist. Lizards which are searching for a previously perceived cricket increase pause duration (mean = 0–40 s). Lizards which are fleeing from a sudden disturbance move at almost twice (juveniles) or 3–7 times (adults) the speed of foraging animals: the pauses persist, although at much reduced frequency. Increases in speed result from increases in both stride length (Λ) and stride frequency (n); the ratio Λ/ n appears to remain constant at 006. The significance of these observations is discussed, although the functions of the pauses cannot yet be explained.     

Effect of changing the frequency of conditioning tetanus on depressor responses evoked by stimulation of the aortic nerve.

The effect of changes in frequency of the conditioning tetanus on the magnitude of the testing depressor response was studied in rabbits anaesthetized with urethane. Conditioning and testing stimulations were applied to the same aortic nerve. The duration of the conditioning tetani was set at 3 and 60 sec and the interval between stimulations amounted to 40 and 120 sec. At the testing interval of 40 sec the increase in frequency both of short and long conditioning tetani reduces the magnitude of the testing response which attains a minimum at frequency of about 30 cycles/sec. Conditioning stimulations of higher frequency are gradually less effective and cause the testing response to increase. Similar depression is observed at the testing interval of 120 sec but only following long-lasting conditioning tetanus. Short conditioning trains at the testing interval of 120 sec facilitate the testing response. The frequency of the conditioning stimulation which produces the greatest reduction of the depressor response indicates the range of control exerted by the conditioning tetanus over the testing blood pressure effect. The size of this control is determined by the lowest level of depression and the highest value of facilitation of the testing response.     

Effect of preliminary mechanical and antidromic influences on orthodromic activity in C fibers from mechanoreceptors of the cat skin

Analysis of afferent activity in unmyelinated fibers of a cutaneous nerve was carried out by the colliding impulses method in cats. The effect of antidromic excitation of the nerve and mechanical stimulation of the receptors on subsequent orthodromic activity during stretching of the skin was investigated. Both these factors were shown to reduce subsequent orthodromic activity evoked by testing stimulation. The reduction in activity was greatest 10–15 sec after stimulation. The duration of the inhibitory effect was greater after mechanical than after antidromic stimulation. Combined mechanical stimulation and antidromic excitation resulted in a greater decrease of afferent activity and an increase in the time of its recovery. An increase in the frequency of antidromic excitation potentiated the inhibitory effect of preliminary stimulation on orthodromic activity in C fibers.Research Institute of Applied Mathematics and Cybernetics, N. I. Lobachevskii Gor'kii State University. Translated from Neirofiziologiya, Vol. 9, No. 3, pp. 307–312, May–June, 1977.     

Long-lasting changes of irritability in the somatosensory cortex of rabbits following tetanic stimulation of the tooth pulp]

Tetanic stimulation of the tooth pulp produced long lasting increases in potentials released by stimulation of the tooth pulp with single stimuli in the sensomotor cortex of rabbits. Stimulation with 200 impulses/sec for 5 sec produced changes of irritability that are demonstrable for 10-50 min depending on the intensity of stimulation. The lower rate limit for producing such changes is 25 impulses/sec. At a rate of 200 impulses/sec, a stimulation time of 25 msec was necessary to produce these changes. The postexcitatory depression occuring after single stimuli within 10-40 msec was increased by tetanic stimulation, whereas facilitation observed 5 msec after single stimuli was unaffected.     

The influence of habitat on travel speed, intermittent locomotion, and vigilance in a diurnal rodent

We studied effects of habitat structure on routine travel velocities, intermittent locomotion, and vigilance by the degu (Octodondegus), a diurnal rodent of central Chile. We predicted thattravel speed, pauses during locomotion, and vigilance wouldbe greater in open (riskier) than in shrub (safer) habitats.Video recordings of marked individuals in the wild were used to measure speed and other variables of spontaneous locomotionnot triggered by predatory attack or any other noticeable stimulusduring nonforaging periods. Time spent vigilant while foragingwas also measured. Because degus use bare-ground runways fordistant movements (e.g., between burrow openings and/or foodpatches), data on locomotion decisions were not confounded by effects of obstructive vegetation cover and/or resource abundance.When moving across the habitat between different feeding places,degus showed an intermittent pattern of locomotion, interruptingrunning events with short pauses. As predicted, travel speedand the duration of pauses between locomotion bursts were significantlygreater in open habitats. Further, the duration of locomotionbursts between feeding sites or between feeding sites and burrowswas significantly longer in open habitats. Our assumption that pauses and velocities are independent decisions was supportedby the lack of correlation between pauses and speeds duringlocomotion events. During foraging, degus devoted more timeto vigilance in open than in shrub habitats. The static positionadopted by degus during pauses, the speeds attained during movements, and the concordance between pausing behavior andvigilance across habitats suggest that pausing has an antipredatoryrole and is not limited to orientation and/or physiologicalrecovery. Our results support the view that degus perceivehigher predation risk in open areas and that flexible movement behavior reflects an adaptive antipredator response.     

Direct cortical responses to electric stimulation with different frequencies in chronic experiments on dogs]

Direct cortical responses (DCR) to a series of electrical stimuli with a frequency of I to 50 per second with 10 to 20 pulses in each series were studied in chronic experiments on dogs. The nature of cortical responses differed, depending on stimulation parameters. As the stimulation frequency increased, the amplitude and number of late DCR components decreased, and with further increase of frequency, the early components decreased as well. The following types of responses were revealed: recruiting, intermittent and decremental. As the stimulation frequency increased all the three types of responses could be obtained in one and the same cortical point. Recruiting was not typical of high-amplitude and multi-component DCR with a long phase of depression of initial negativity and slightly pronounced short-term subsequent facilitation, while the intermittent type of response appeared at lower frequencies than in other dogs (5 to 10 per sec). A decremental type of response was observed in all the dogs at a stimulation frequency higher than 30 per sec. The duration of the series of after-discharges to a burst of electrical pulses depended on the pattern of the DCR to a single stimulus and on the intensity and frequency of stimulation. With similar parameters of stimulation, the greater the amplitude and the longer the duration of the slow negative DCR wave, the longer the period of after-discharges following a series of stimuli.     

Diving behaviour of guillemot Uria aalge, puffin Fratercula arctica and razorbill Alca tor da as shown by radio-telemetry

Information on dive and pause times and the numbers of dives in a sequence were obtained for six guillemots and single razorbill and puffin. There were marked differences in diving performance between the species with the order of ranking, in descending order of dive and pause duration, being guillemot, razorbill and puffin. For guillemots, 80% of dives were of 20–119 sec duration and 80% of pauses were 0–59 sec; the maximum dive lasted 202 sec. Puffin dives and pauses were much shorter, with 81% of dives lasting 0–39 sec and 95% of pauses being less than 20 sec, the longest dive was 115 sec. Comparisons of diving sequences made by the same individual indicated some flexibility in all aspects of the sequence but there were broad interspecific differences in the organization of the sequence. The puffin generally made a large number of relatively short dives separated by very short pauses which resulted in a high diving rate (1–5 dives/min) and the bird spending 78% of its time underwater. In contrast, guillemots had much shorter sequences with a few long dives and pauses and lower rates of diving (0–5-0-6 dives/min) and proportions of time underwater (61–65%). Guillemots and puffins may forage at different depths and have different foraging strategies.     

Maintained depressor responses evoked by continuous and intermittent stimulation of aortic nerve in the rabbit

Stability of depressor responses evoked by long-lasting continuous and intermittent stimulation of the aortic nerve was studied in rabbits anaesthetized with urethane. Continuous stimulation produces blood pressure falls whose stability at low frequencies (1-10 cycles/sec) ranges from 91 to 86%. With rise of the stimulation frequency stability is decreased : at 500 cycles/sec, it amounts to 19%. Intermittent stimulation consisting in switching excitation on and off every 10 sec increases stability of depressor responses and at 500 cycles/sec, it is significantly higher than stability of effects produced by continuous stimulation. Following transection of aortic nerves, stability is increased at all frequencies of continuous stimulation and at all but the lowest frequency of intermittent stimulation. Vagotomy performed after section of the aortic nerves does not significantly affect the changes in stability observed after severing the aortic afferents. It is suggested that at high frequencies of stimulation, stability of depressor responses is reduced by homosynaptic depression. During intermittent stimulation, its effect is counteracted by post-tetanic changes occurring at intervals when the stimulation is switched off. The increase in stability after section of aortic nerves is probably related to its effect on excitability of the vasomotor centres.     

Postsynaptic potentials of motoneurons evoked by rubrofugal impulsation in the hypoglossal nucleus of the cat

The effect of stimulation of the ipsilateral and contralateral red nuclei on motoneurons of the hypoglossal nucleus was studied in cats anesthetized with chloralose and pentobarbital. In 35 (69%) of the 51 motoneurons tested, PSPs were generated in response to stimulation of the red nuclei by series of 3 to 5 stimuli of threshold strength and with a frequency of 500–600/sec. Of this number, 33 motoneurons responded to stimulation by EPSPs, whose latent periods varied from 3.5 to 14.0 msec (mean value for the ipsilateral red nucleus 5.7±0.75, for the contralateral nucleus 6.8±0.8 msec), whereas two motoneurons responded (after 6.2 msec) by IPSPs. Of the 35 motoneurons responding to stimulation of the red nuclei, stimulation of the lingual nerve evoked EPSPs in 31 and IPSPs in 4 (two of them were inhibited by rubrofugal impulses). IPSPs were generated as a result of stimulation of the lingual nerve in 16 motoneurons which did not respond to rubrofugal impulses.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 10, No. 1, pp. 62–66, January–February, 1978.     

Studies on the excitability of the central program generator in the spinal cord of the terrapin Pseudemys scripta elegans

We present observations on the multicyclic scratch reflex in spinal terrapins as produced by electrical stimuli applied to the shell at the specific regions at which a mechanical stimulus produces the reflex. EMGs and hip and knee movements are recorded. The responses to the electrical stimuli are similar to the responses to mechanical stimuli. There is a three phase EMG pattern (Stein and Grossman, 1980), to which the movement pattern is related (Bakker and Crowe, 1982). A response may consist of a series of up to 25 movement cycles with a total time course of up to about 30 sec. The initial cycles of a response are relatively fast (less than 1 sec), but the cycles at the expiration of the response may have a duration of 2-3 sec. A single electrical stimulus pulse is often insufficient to trigger a series response. Instead, a weak EMG burst of a few tenths of a second duration, together with a slight movement, is often seen. However, a second pulse can set the cycle series in motion even after an interval of 40 sec between the pulses. A further booster stimulus pulse given while a reflex response is taking place can increase the speed of the movement. If the booster pulse is given just after cessation of reflex activity it can restart the activity, but this second cycle series is often shorter than the first one. The results indicate that the excitability of the central program generator is not constant. Long duration changes in the excitability are produced within the spinal cord.     

Age-related changes in activity of cerebellum Purkinje cells,shape of the complex spike,and locomotion of Wistar rats under effect of ethanol

The work deals with study of peculiarities of effect of ethanol upon the Purkinje cell activity, shape of the complex spike, and locomotion of rats at different stages of ontogenesis, such as the stage of the morphofunctional maturation of the cerebellar cortex, the mature stage, and in the process of aging. The experiments were carried out on three age groups of Wistar rats: rat pups (2 weeks), adult rats (3–6 months), and senile animals (22–26 months). The administration of ethanol has been established to produce an increase in frequency of simple spikes, a decrease in frequency of complex spikes, a shortening of duration of depression of simple spikes, a decrease in the total duration of the complex spike, the number and frequency of its impulses as well as reduction of the motor activity of animals of all age groups. The change of the majority of the studied parameters occurred by the common temporal scheme. The earliest responding were the rat pups, later-the adult rats, and the last-the animals of the senior group. The stronger effect of ethanol was observed in adult rats. Their differences of all studied parameters, as compared with rat pups and senile animals, were characterized on the whole by the longer period of time and by the higher percent of changes relative to the initial values. Analysis of the obtained results has shown that the most pronounced changes in parameters of the cerebellum Purkinje cell activity and of the complex spike shape corresponded to the more significant decrease in the locomotion level, i.e., were recorded in adult rats. Thus, the work has demonstrated different sensitivity to administration of ethanol in the Wistar rats at different stages of ontogenetic development.     

Electrophysiological study of connections between the entorhinal cortex and the neocortex

In acute experiments in rabbits immobilized by d-tubocurarine, stimulation of the entorhinal area with rectangular electric impulses led to the appearance of evoked potentials (EP) with a latent period of 6–12 msec in the occipital, temporal, parietal, and cingular areas of the neocortex. The amplitude of the positive response component was 500 µV, and its duration 25–50 msec. The negative component was not always discernible. When rhythmic stimulation was used, these EPs followed stimulation frequencies not exceeding 20 per sec. Stimulation of the medial parts of the entorhinal area with a frequency of one to three per sec was accompanied by recruitment of the EP in the occipital and temporal neocortex areas. Nembutal depressed the amplitude of the neocortex EP appearing in response to stimulation of the entorhinal cortex. With the aid of double stimulation it could be established that, after conditioning stimulation of the entorhinal area, the positive component of the primary response (PR) evoked by stimulation of the contralateral sciatic nerve in the projection zone of the somatosensory cortex is strengthened during the first 50 msec, and subsequently after 80–120 msec. In these cases, the negative component was depressed. These findings are discussed with a view to the influence of limbic structures on the neocortex.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 2, No. 1, pp. 73–78, January–February, 1970.     

Neuronal reactions of the auditory cortex to sounds of various frequencies in rabbits in ontogeny

In 7-12-day rabbits, the auditory neurones respond to a narrow range of tonal signals of low frequency (500 Hz-4 KHz), but do not change at all, or only slightly change their parameters during the increase in stimulation frequency. The range of frequencies increases with age; the number of impulses in a discharge and the duration of the latent period are monotonously dependent on the frequency of a signal. At the end of the 4th week, the auditory neurones respond by non-monotonous patterns of impulsation and latent period to changes in tonal characteristic of the signal.     

Naloxone alters locomotion and interaction with environmental stimuli

Rats were injected with saline or naloxone (0.5, 5.0 or 25 mg/kg) and monitored for locomotion and both frequency and duration of contact with stimuli in a multicompartment exploratory chamber. Naloxone produced a dose-related reduction in locomotion and in frequency of contact with stimuli. At the lowest dose tested this reduction was accompanied by an increase in total duration of contact and in time spent per contact with the stimuli. In contrast, the highest dose of naloxone decreased the duration of contact with stimuli and induced prolonged periods of inactivity. An intermediate response was observed with 5.0 mg/kg naloxone. These results indicate that lower doses of naloxone may enhance interaction with environmental stimuli while the predominant effect of higher doses is a general suppression in behavioral activity. Similarities with the antimanic agent lithium chloride and possible clinical implications are discussed.     

Selective depressant action of antidromic impulses on gustatory nerve signals

The depressant action of antidromic volleys of impulses on gustatory nerve signals from the tongues of bullfrogs was studied. Electrical stimulation of the glossopharyngeal nerve at a rate of 100 Hz for 10 s and at supramaximal intensity slightly depressed the integrated glossopharyngeal nerve responses to quinine and to mechanical taps to the tongue. The same antidromic stimuli resulted in a 30-40% reduction in the responses to salt, acid, water, and warmed saline, but depressed greater than 80% of the afferent impulses firing spontaneously. The magnitude of responses to quinine and NaCl and the number of spontaneous discharges decreased gradually with an increase in either the frequency or the duration of antidromic stimuli. Similar results were obtained with intensities above the threshold for exciting gustatory and slowly adapting mechanosensitive fibers. The time required to recover from termination of the antidromic stimuli to two-thirds of the maximal amount of depression ranged between 6 and 7 min, with no significant differences among the depressions. The possible mechanisms involved in the antidromic depression of gustatory nerve signals are discussed.     

Localization of a sum of acoustic signals in air by the northern fur seal]

The localization of a sum of acoustic signals by two northern fur seals in air depending on sound parameters was investigated using the method of instrumental conditioned reflexes with food reinforcement. It was found that sound perception of northern fur seal proceeds by the binaural mechanism. The time/intensity interchange coefficient was 570 microseconds/dB for series of clicks (with amplitude maximum at 1 kHz) and 250 microseconds/dB for tonal impulses with a frequency of 1 kHz. With click amplitudes being equal, the number of approaches of the animal to the source of the first signal reached a 75% level at a delay of the second signal 0.07 ms (the minimum delay); with a delay of 6 ms (the maximum delay) and more, the fur seal, probably hears two separate signals. The minimum delay depended little on the duration of tonal impulses (with a frequency of 1 kHz) and was 0.3-0.7 ms; the maximum delay was 9-11 ms for tonal impulses with a duration of 3 ms and 37-40 ms with impulse duration 20 ms. The precedence effect became apparent at a greater delay for smooth fronts of impulses than for rectangular fronts.     

Reactions of neurons of the orbitofrontal cortex to stimulation of optic thalamic nuclei

The reactions of 288 neurons of the orbitofrontal cortex (OFC) to stimulation of the posteroventral (VP), ventral anterior (VA), and reticular (R) nuclei, as well as the median center (CM) of the thalamus, were investigated in acute experiments on cats. OFC neurons can be divided into four groups by their reactions to stimulation of thalamic nuclei: 1) those which respond with an increase in the frequency of the discharges to single and serial stimuli with a frequency of up to 20/sec; 2) those which respond doubtfully to single stimuli with a frequency of 4–12/sec; 3) those which respond with inhibition of the background impulses; 4) those which do not respond to stimulation of the nuclei. Stimulation of the thalamic nuclei evoked responses of OFC neurons with a large scatter of the latent period duration. The responses of neurons to stimulation of the VP (mean latent period 19.1±6.1 msec) had the shortest latent period (sometimes less than 3–4 msec). Reactions with a longer latent period developed upon stimulation of the VA (23.8±7.4 msec) and CM (42.8±12.8 msec). The uniqueness of the links of the OFC with the various optic thalamic nuclei is shown in an analysis of the material obtained and possible methods of the activation of the neurons of this region from thalamic structures are discussed.State Medical Institute, Kemerovo. Translated from Neirofiziologiya, Vol. 3, No. 4, pp. 350–358, July–August, 1971.     

Electrical activity of the liver-wort Conocephalum conicum.: Method of investigation and general characteristics of excitation

The excitation of the thallus of Conocephalum conicum L. produced by a tissue damaging stimulus (incision of thallus edge) was investigated. Changes in potential were measured with extracellular contact electrodes applied at various points of the thallus surface. Non-stimulated plants showed no electrical activity. After stimulation a series of impulses occurred and were propagated all over the thallus. This plant electrical activity (PEA) depends on the magnitude of the stimulus. PEA is characterized by changes of frequency, time of duration and changes in the values of the amplitude. A similar phenomenon is well known in animal organisms as frequency coding. The general character of PEA does not depend on the kind of damaging stimulus (burn, puncture). PEA may also be induced by an electrical stimulus which does not damage the tissue.