Interactions between inhibitions of sympathetic nerve discharge to successive stimulations of baroreceptor and cutaneous afferents

Interactions between inhibitions of sympathetic nerve discharge (SND) to consecutive stimulations of A- and C-fibres in the aortic nerve and superficial peroneal (SP) nerve have been studied in rabbits anaesthetized with urethane and chloralose. SND was recorded from the renal nerve. At interval of 10 s following conditioning stimulation of SP nerve the test response of SND to activation of C-fibres (interaction SP-C) amounts to 83.7 +/- 7.5% (means +/- SE) of control. After applying both stimulations to the same SP nerve (interaction SP-SP) the test response of SND is significantly lower amounting to 56.3 +/- 3.9%. Comparable decrease of the effect of conditioning stimulation of one type of afferents on the test response to activation of other type of fibres was observed at interval of 10 s in two other interactions (SP-A and C-A). In seven interactions the conditioning stimulation of one type of fibres had no effect on the test response to stimulation of other type of fibres. This was found in one interaction at interval of 10 s (C-SP), in four interactions at interval of 20 s (SP-A, C-SP, SP-C and C-A) and in two interactions at interval of 40 s (SP-A and SP-C). Conditioning stimulations used in above interactions depressed the test responses to activation of the same type of fibres. It is suggested that the decrease or suppression of the effect of conditioning stimulation of one type of afferents on the test response of SND to activation of other type of fibres is related to disinhibition of this response.     

Tetanic depression in fast motor units of the cat gastrocnemius muscle.

Ability of muscle fibers to generate force is decreased when higher frequency of stimulation of motor units immediately follows lower frequency. This phenomenon called tetanic depression was found in rat medial gastrocnemius. However, it was not clear whether tetanic depression occurred only in rat muscle or it concerns all mammals. This study was conducted on motor units of cat medial gastrocnemius. Analyses were made at three successive trains of stimulation: 30 Hz, 20 and 30 Hz and again 30 Hz (the first pattern) or 40 Hz, 25 and 40 Hz and 40 Hz (the second pattern). In all fast units force generated within the middle tetanus was lower than force generated at the same, but constant frequency of stimulation applied earlier or later. The mean tetanic depression in 30 Hz tetani amounted to 10.9% for fast fatigable (FF) and 15.9% for fast resistant (FR) motor units, whereas in 40 Hz tetani mean values were 5.6% and 7.3% for FF and FR motor units, respectively. In slow motor units tetanic depression was not observed. These results proved the existence of tetanic depression in the feline muscle and indicated that its intensity depends on the fusion of tetanus. It has been concluded, that the tetanic depression is a general property of fast motor units in mammals.     

Conditioning of inhibition of sympathetic nerve discharge to stimulation of A- and C-fibres in the aortic nerve

Stimulation of either A- or C-fibres in the aortic nerve inhibits sympathetic nerve discharge (SND) recorded from the renal nerve in rabbits anaesthetized with urethane. When the test inhibition of SND to stimulation of A-fibres is preceded by conditioning stimulation of the same afferents, the test response is depressed at shorter and facilitated at longer testing intervals. Facilitation of the inhibition of SND reaches 120% of control at a testing interval of 10 s. The recovery curve of inhibition of SND to activation of A-fibres has a time course of 17 s. Following conditioning activation only depression of the test inhibition of SND to stimulation of C-fibres is seen. It reaches 46% of control at an interval of 2 s and the recovery curve of inhibition of SND to stimulation of C-fibres has a time course of about 30 s. In other series of experiments the duration of the conditioning stimulation was varied while the testing intervals were fixed. At a testing interval of 2 s the reductions of the test responses are deeper and the durations of conditioning at which plateaus of depression are reached are longer with stimulation of C- than of A-fibres. Taken together with a longer recovery curve these findings suggest a more effective control of the test inhibition of SND by C-fibres. Opposite changes in the patterns of inhibition of SND to activation of either A- or C-fibres are explained by frequency-dependent post-tetanic effects of the conditioning stimulation.     

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.     

Relationship between the resting blood pressure and depressor responses evoked by stimulation of the aortic nerve.

Correlations between the resting blood pressure and magnitude of depressor responses evoked by graded stimulation of the aortic nerve, were studied in rabbits anaesthetized with urethane. The strength of stimulation ranged from 1 to 10 times the threshold, and activated the myelinated afferents. The frequency of stimulation was 5 and 50 cycles/sec. At lower frequency of stimulation the correlations become significant when the intensity of stimulation is 3 times the threshold and they increase at the highest strengths of stimulation. Correlation coefficients calculated for responses obtained at the frequency of 50 cycles/sec are significant in 8 out of 9 intensities of stimulation. With increase in the strength of stimulation they increase, attain their maximum at twice the threshold and decrease at the largest used stimulus strengths. The changes in the values of the correlation coefficients are not paralleled by alterations in the mean size of depressor responses. Since all correlation coefficients are positive, it is inferred that the depressor responses produced by stimulation of the aortic nerve follow WILDER's "law of initial value". The conformity with this rule is the better the higher the values of the correlation coefficients. The strength of relationship between the resting blood pressure and the size of depressor responses is considered to reflect the efficiency of the homeostatic circulatory mechanism.     

Modeling of summation of individual twitches into unfused tetanus for various types of rat motor units.

Repeated stimulation of motor units (MUs) causes an increase of the force output that cannot be explained by linear summation of equal twitches evoked by the same stimulation pattern. To explain this phenomenon, an algorithm for reconstructing the individual twitches, that summate into an unfused tetanus is described in the paper. The algorithm is based on an analytical function for the twitch course modeling. The input parameters of this twitch model are lead time, contraction and half-relaxation times and maximal force. The measured individual twitches and unfused tetani at 10, 20, 30 and 40 Hz stimulation frequency of three rat motor units (slow, fast resistant to fatigue and fast fatigable) are processed. It is concluded that: (1) the analytical function describes precisely the course of individual twitches; (2) the summation of equal twitches does not follow the results from the experimentally measured unfused tetani, the differences depend on the type of the MU and are bigger for higher values of stimulation frequency and fusion index; (3) the reconstruction of individual twitches from experimental tetanic records can be successful if the tetanus is feebly fused (fusion index up to 0.7); (4) both the maximal forces and time parameters of individual twitches subtracted from unfused tetani change and influence the course of each tetanus. A discrepancy with respect to the relaxation phase was observed between experimental results and model prediction for tetani with fusion index exceeding 0.7. This phase was predicted longer than the experimental one for better fused tetani. Therefore, a separate series of physiological experiments and then, more complex model are necessary for explanation of this distinction.     

Posttetanic changes in the afferent and efferent activity of monosynaptic reflex in kittens

Both the afferent volleys from the dorsal root and the monosynaptic reflex discharges from the corresponding ventral root were recorded with hook electrodes during stimulation of the nerves innervating the triceps surae muscles. The effects of conditioning high frequency tetanus on the magnitudes of these afferents and reflex volleys were examined in kittens of postnatal age 1-90 days and in adult cats. In young kittens under barbiturate anaesthesia, large-amplitude monosynaptic reflex discharge can be evoked without prior conditioning. The amplitude of this reflex discharge decreased with increasing age of the animal. Application of conditioning tetanic stimuli to the muscle nerves resulted in posttetanic depression followed by posttetanic potentiation of the monosynaptic reflex. The magnitude of posttetanic depression was much higher than that of potentiation in the first postnatal week. As the age increased, the magnitude of depression decreased while the magnitude of potentiation increased. The afferent volley showed a considerable posttetanic potentiation in older kittens and cats. No significant potentiation or depression was observed in the younger animals. Possible mechanisms contributing to posttetanic depression and potentiation are discussed.     

Monomodal convergence in the visual system of the alert cat

In chronic experiments on waking cats, the interaction between signals evoked by simultaneous stimulation of the lateral geniculate body (LGB) and pulvinar was mainly of occlusive type which was more pronounced in the visual than in the associative cortical area. Conditioning stimulation of LGB depressed the response to testing stimulation of the pulvinar at delays of 10 ms. Delays of 20-60 ms facilitated the response. At short delays between the stimuli, the conditioning pulvinar stimulation either did not change significantly the response to testing LGB stimulation or facilitated it. At long (80-200 ms) delays the same conditioning stimulation produced a depression of the response to the testing stimulation. The results obtained point to monomodal convergence in the system of the cat visual analyzer and also to a relative autonomy and predominance of the cortical input from LGB and to dependence of pulvinar input functioning on the degree of activation of the geniculo-cortical path.     

Early and late post-tetanic potentiation,and post-tetanic block in a monosynaptic reflex pathway

Observations have been made upon the nature of early and late post-tetanic potentiation and upon post-tetanic block of presynaptic collaterals with particular reference to behavior in circumstances of varied duration and frequency of conditioning stimulation. Early potentiation is most conspicuous following brief tetani at high frequency, late potentiation following long tetani, much lower frequencies being all that are needed. The two phenomena thus are distinguishable and separate. Dorsal root electrotonus produced by stimulations of varying duration and frequency is described, and the similarity between behavior of the D.R.IV R. electronic potential and early potentiation demonstrated. It is shown how early potentiation and post-tetanic block are due to the same process (hyperpolarization) at different intensities. The view that the agency for potentiation is associated with augmented presynaptic action due to hyperpolarization is confirmed. A diagram is constructed to indicate the probable temporal courses of early and late potentiation.     

Long-lasting potentiation in hippocampus is not due to an increase in glutamate receptors

In transversely sectioned rat hippocampal slices, the effects of low (20 Hz, 600 pulses) and high (400 Hz, 200 pulses) frequency tetani of Schaffer collaterals were examined on the CA1 population spike as well as on the binding of 3H-glutamate. The population spike was suppressed while 3H-glutamate binding greatly enhanced following a low frequency tetanus. Verapamil (1 micron), which does not block long-lasting potentiation (LLP), counteracted the depression of the population spike as well as the associated increase in 3H-glutamate binding. The high frequency tetanus induced LLP of the population spike but caused no change in the amino acid binding. These results indicate that the increase in the number of glutamate receptors is not a requirement for LLP.     

Sensitivity of the motor unit unfused tetanus to changes in the pattern of motoneuronal firing

The effects of decreasing as well as increasing the interpulse intervals on the tension produced by motor units in the rat medial gastrocnemius muscle were investigated. The increase and decrease in tension, resulting from these changes in interpulse intervals were observed and compared for each motor unit in tetani fused to a various degree. It was found that amplitudes of both changes in tension were the same when the tetanic fusion index was approximately 0.70 and the tension corresponded to 40-50% of the maximal tetanic tension. This observation concerned the all three types of motor units. We also studied the effects of introducing a short interpulse interval ("doublet") at the beginning of the stimulation. The doublet produced an increased tetanic tension with a more fused profile, however the tension was similarly sensitive to an increase as well as a decrease in the interpulse interval when the tetanic fusion index was also about 0.70. Therefore, the extent of tetanic fusion determines the sensitivity of motor unit tetani to changes in a pattern of stimulation. The tetanus of the fusion index about 0.70 can be considered as the most sensitive to changes in the pattern of motoneuronal firing.     

Modulation of spiking of neurons of the cat anterior hypothalamus induced by experimental shifts in the osmolarity of the blood plasma

We examined changes in the impulse activity (IA) generated by neurons of the anterior hypothalamus (including the preoptic region) resulting from infusions of hyper-and hypotonic NaCl solutions (3.0 and 0.2%, respectively; hyper-and hypoosmotic stimulations, respectively); the infused volumes did not exceed 200 μl. The effects of hyper-and hypoosmotic stimulations were studied in detail in 83 and 88 neurons, respectively. In 31.2% (26 cells) and 29.6% (26 cells) of the neurons of the above groups, these stimulations evoked changes in the IA frequency greater than +40 or −40% of the mean background IA frequency. In approximately 50% of the responding neurons in each group, such shifts in the IA frequency were observed in the course of infusions of test solutions (5 sec long) and within the subsequent 5 min after termination of the infusion. In another 50% of the neurons, changes in the IA frequency occurred within the afterperiod (30 sec long); these shifts could develop exclusively within the latter interval, or these changes accompanied an initial early reaction. In general, activating responses dominated (they were observed in 65% of the cases where test stimulations of both modalities were used). The possible aspects of the involvement of neurons of the anterior hypothalamus in the control of the water/salt balance in the organism are discussed. Neirofiziologiya/Neurophysiology, Vol. 38, No. 1, pp. 40–45, January–February, 2006.     

Afferent Modulation of Warmth Sensation and Heat Pain in the Human Hand

The hands of 14 normal humans were used to determine the somatotopic organization of the modulation of warmth sensation and heat pain by different forms of cutaneous stimuli. Test stimuli were 5-sec heat pulses ranging from 36° to 51°C, delivered to the fingerpads of digits 1, 2, 4, and 5 with a contact thermode. Conditioning stimuli (15 sec) bracketed the test stimuli and included vibration, noxious and innocuous heat, cold, and electrical pulses delivered to the fingerpads of digits that were adjacent or nonadjacent to the tested digits. Noxious (48° ± 1.3°C), but not innocuous (43°C), heat stimuli increased the perceived magnitude estimation of innocuous test stimuli (36–43°C) by 20–37% when delivered to adjacent, but not to nonadjacent, digits. No other conditioning stimuli had any effect on the intensity of warmth perception. In contrast, both noxious and innocuous heat or electrical conditioning reduced the magnitude estimation of noxious (50–5°C), but not innocuous, test pulses by 12–22% when delivered to adjacent digits. Conditioning of nonadjacent digits was significantly less effective. The analgesic effects of noxious and innocuous conditioning were approximately equal. Vibratory (120 Hz, 3.5 μm) and cold (15°C) conditioning stimuli were ineffective. The results are consistent with a dermatomal somatotopic organization of tactile and heat modulatory influences on warmth sensation and heat pain. The results further suggest that the neural mechanisms subserving warmth mediate a negative feedback influence on heat pain intensity.     

Baroreflexes of the rat. V. Tetanus-induced potentiation of ADN A-fiber responses at the NTS

In a long-term neuromuscular blocked (NMB) rat preparation, tetanic stimulation of the aortic depressor nerve (ADN) enhanced the A-fiber evoked responses (ERs) in the cardiovascular region, the nucleus of the solitary tract (dmNTS). The potentiation persisted for at least several hours and may be a mechanism for adaptive adjustment of the gain of the baroreflex, with functional implications for blood pressure regulation. Using a capacitance electrode, we selectively stimulated A-fibers and acquired a stable 10-h "A-fiber only" ER baseline at the dmNTS. Following baseline, an A+C-fiber activating tetanus was applied to the ADN. The tetanus consisted of 1,000 "high current" pulses (10 trains; 300 mus, 100 Hz, 1 s), with intertrain interval of 9 s. A 10-h A-fiber only posttetanic test phase repeated the stimulus pattern of the baseline. Fourteen tetanus experiments were done in 12 rats. Compared with the baseline before tetanus, the A-fiber ER magnitudes of posttetanus hours were larger [F(13, 247) = 3.407, P < .001]; additionally, the 10-h posttetanus magnitude slopes were more positive than during 10 h before tetanus (df = 13; t = -3.47; P < 0.005); thus, an ADN A+C fiber-activating tetanus produced increases in the magnitude of the A-fiber ERs in the dmNTS that persisted for several hours. In an additional rat, application of an NMDA receptor antagonist, prior to the tetanus, blocked the potentiation effect. The stimulus protocols, magnitude and duration of the effect, and pharmacology resemble associative long-term potentiation (LTP).     

Characteristics of the immune response of inoculated and intact animals to the administration of toxigenic and nontoxigenic strains of Clostridium tetani

In experiments on guinea pigs the immune reactions of the animals immunized and not immunized against tetanus in response to the injection of C. tetani spores were studied. In the immunized animals an increase in the production of tetanus antitoxin, the development of delayed hypersensitivity and the activation of the mechanisms of cell-mediated immunity were observed. The nonimmunized animals showed specific changes in the T-system of immunity without the appearance of the clinical symptoms of tetanus, which is, probably, one of the mechanisms of natural immunity.     

Role of the various groups of afferent fibers of the mesenteric nerves in vasomotor reflexes

The dependence of the magnitude and character of vasomotor reflexes on the amplitude of tetanic stimulation of the mesenteric nerves was investigated in experiments on anesthetized cats. Comparison of the results of analysis of the stimulus amplitude versus reflex magnitude curves with previous data on excitability of the various groups of mesenteric nerve fibers revealed three groups of "vasomotor" afferents with different conduction velocities: fast-conducting Aδ-fibers (conduction velocity over 8 m/sec) evoking depressor or small pressor reflexes; slow-conducting Aδ-fibers (conduction velocity below 8 m/sec), evoking pressor reflexes or, by interaction with impulses of lower-threshold, fast-conducting Aδ-fibers, either reduce the magnitude of the depressor reflexes evoked by those impulses or increase the corresponding pressor reflexes; C-fibers increasing the magnitude of the pressor reflexes evoked by slow-conducting A-fibers.     

Study of the audiospinal effect on the H-reflex

Studies of the audiospinal effect on the H-reflex demonstrated that in normal test subjects and in patients with injuries to the spinal cord coupled with parapareses and in part of patients with paraplegia of the lower limbs, there was a sound-induced 30-70% increase in the amplitude of the H-reflex. As the interval between the conditioning sound and testing electric stimulations was raised, two maxima of the increment of the H-reflex amplitude within 30-40 ms and 80-100 ms were revealed. The increased H-response within these intervals seems likely to be connected with the conduction of excitation from the brain cortex via the pyramidal tract and the reticulospinal tract. Part of the patients with spinal cord injuries and paraplegia of the lower limbs did not manifest any sound-induced increase in the H-reflex. Apparently, such lack of increase is either a consequence of the functional blockade of the afferent conduction tract or that of their anatomical disturbance. The method of the audiospinal effect on the H-reflexes may be used for diagnostic purposes, namely for the determination of the conduction via the afferent cerebrospinal tract.     

Kindling-like phenomenon in the isolated ileum of the guinea-pig

Repeated bursts of low voltage electrical stimulation of the isolated ileum of the guinea-pig gradually leads to the development and progressive intensification of the tissue basal activity, culminating in spontaneous, sudden strong contractions of the preparation, which persist for several hours after the stimulation has been discontinued. The magnitude of these alterations are determined by the parameters of the stimulation, mainly by the number of electrical stimulations, the frequency of stimulation, and the interstimulus interval. Maximal alterations are obtained with periods of stimulation of 20 Hz for 10 sec, pulses of 3.0 msec, repeated every 20 min for 15 times. Phenytoin, flunitrazepam, diazepam, phenobarbital and carbamazepine effectively inhibited the fully developed phenomenon in the tissues. The effect described in this report may be related to kindling in the brain.     

Analysis of the unfused tetanus course in fast motor units of the rat medial gastrocnemius muscle

The course of unfused tetani with the sag effect in fast motor units of rat medial gastrocnemius was studied. The analysis of the course of successive contractions within these tetani showed that the high peak force at the beginning of tetanus before the sag resulted from temporary, very efficient sum mation of contractions at this phase, both in FF (fast fatigable) and FR (fast resistant to fatigue) units. The process of summation developed in spite of parallel shortening of the contraction and relaxation. The peak of tetanus force was visible on the average at the 2nd contraction in FF units and at the 5th contraction in FR units. After the tetanus peak the process of the efficient summation was completed and the force decreased what was visible as a sag. In the following part of the tetanus, mainly in FF units, the potentiation occurred and the force of successive contractions increased. The rise of force was visible in spite of shortening of the contraction time and was due to prolongation of the relaxation in this part of the tetanus. These observations indicated that the processes of the summation of successive contractions before sag and during the potentiation underwent different mechanisms discussed in this paper. Considerable release of Ca2+ ions from the sarcoplasmic reticulum was proposed as a possible mechanism responsible for a very efficient summation at the beginning of the tetanus whereas phosphorylation of regulatory light chain of myosin (RLC) in muscle fibers was considered as the reason of potentiation. Moreover, the present analysis revealed that previously found differences in tetani profiles between FF and FR units resulted from faster development of described changes in the course of contractions summating into the tetanus in FF motor units.     

Movement pre-history-dependent aspects of formation of the elongation trajectories of an active muscle

Trajectories of elongation of an active muscle were studied on them. soleus of anesthetized cats under conditions of distributed stimulation of efferent fibers and servo-controlled external loading. At different time Intervals after cessation of a high-amplitude unloading the muscle was subjected to a low-amplitude trapezoid testing loading. At applications of the test loading immediately after the conditioning linear unloading or with intervals shorter than 2 sec, the muscle maintained a significantly higher stiffness, as compared with that at longer intervals between the conditioning and testing influences; in the latter situation a decrease in the shortening rate was observed simultaneously with application of the testing loading. At short intervals after unloading, the phase of a dynamic “post-pulling” was practically absent in the muscle response, and just at the moment of fixation of the loading (within the trapezium plateau) the muscle length became rather strongly stabilized with subsequent manifestation of dynamic components, which increased with a further increase in the delay. The short-range stiffness regularly decreased with an increase in the interval between unloading cessation and testing influence, while the amplitude of muscle stretching under the Influence of the test loading increased. Thus, active shortening of the muscle can to a certain extent modify both its dynamic properties and the pattern of its response to the external stretching.