Location of bodies of peripheral (sympathetic) afferent neurons participating in peripheral reflexes of the small intestine

Acute electrophysiological experiments on cats have shown that after preliminary decentralization of the solar plexus, accompanied by degeneration of spinal and vagal afferent and preganglionic efferent fibers in its postganglionic (mesenteric) nerves, only slow activity of the C-afferents is recorded in the peripheral segments of the mesenteric nerves instead of activity of the A-, B-, and C-fibers in the control (before degeneration). Activity of the C-afferents is intensified with the appearance of spontaneous contractions of the small intestine and also after gentle stretching of the corresponding segment of the intestine by inflation of a rubber balloon. After preliminary division of the mesenteric nerves, accompanied by degeneration of the postganglionic fibers in their peripheral segments, activity of C-afferents only also was observed, but it was much weaker than in the first series of experiments. After preliminary decentralization of the solar plexus and division of the mesenteric nerves application of a single electrical stimulus to the central part of one of the divided mesenteric nerves evokes a reflex electrical response in the other mesenteric nerves which disappears after treatment of the ganglia of the solar plexus with azamethonium bromide and also after electrical stimulation of the mesenteric nerves at 10–20 Hz. However, after decentralization only, this response was much weaker than after division of the mesenteric nerves. It is concluded that these peripheral responses of the intestinal nerves are due to excitation of two types of peripheral afferent neurons: the bodies of some lie in the small intestine and their long axons (C-afferents) run to the ganglia of the solar plexus; the bodies of the others lie in the ganglia of the solar plexus and their long axons (also C-afferents) run to the intestine, where they terminate in its receptors.Institute of Physiology, Academy of Sciences of the Belorussian SSR, Minsk. Translated from Neirofiziologiya, Vol. 6, No. 2, pp. 175–185, March–April, 1974.     

Contribution of antidromic efferent-fiber excitation to mass spinal potentials in the cat

The contribution of antidromic excitation of motoneurons to cord dorsum potentials (CDP) was studied in the spinal cord of anesthetized cats. It was shown that stimulation of ventral roots (VR) or peripheral nerves following deafferentiation of a number of segments by crosscutting of dorsal roots on the dorsal surface evokes appreciable positive-negative CDP (VR-CDP). Under intact conditions, VR effects of antidromic stimulation of efferent fibers brings appreciable input to the initial "fast" CDP component (the "afferent" peak); input values for the main mixed nerves of the hindlimb are presented. After conditioning stimulation of a mixed nerve, VR-CDP undergo inhibition with two maximums, associated with blocking of the effects of antidromic excitation of efferents by orthodromic mono- and polysynaptic reflex discharges of motoneurons. The hypothesis that intactness of efferents in nerves under stimulation can be determined from an analysis of initial CDP components is stated.Scientific-Research Institute of Biology, Dnepropetrovsk State University, Dnepropetrovsk. Translated from Neirofiziologiya, Vol. 23, No. 6, pp. 655–661, November–December, 1991.     

Neurophysiological mechanisms of neurological disorders in people irradiated in the Chernobyl’ catastrophe

We analyzed shifts in the functional parameters of the autonomic and segmental somatic reflex mechanisms in various categories of people subjected to irradiation because of the catastrophe at the Chernobyl’ NPS. It is demonstrated that long-lasting irradiation even with mild intensity evokes serious damage to the central structures controlling autonomic functions (first of all, the hypothalamus). This results in the development of autonomic dysfunction with domination of disorders of the sympathetic system manifested in a dramatic drop in the amplitude, an increase in the duration, and modification of the phase structure of evoked autonomic skin responses in all examined groups of persons. Cardiovascular and neurotrophic disorders are crucial factors, which determine pathological modifications in the somatic reflex sphere (a drop in the amplitude of sensory evoked potentials and a decrease of the conduction velocity in the peripheral nerves, a drop in the amplitude of M responses in the limb muscles, but with relatively small shifts in the synaptic relays of segmental reflex arcs).     

Conducting pathways of the dog solar plexus

Conducting pathways of the dog solar plexus were studied by recording action potentials from its nerves. The splanchnic nerves are composed of two groups of fast-conducting afferent A fibers (with conduction velocities of 12–15 and 25–56 m/sec), slowly conducting afferent C fibers (0.4–2.0 m/sec), and preganglionic B and C fibers (1.0–12.0 m/sec). Afferent A and C fibers from peripheral nerves run without interruption through the ganglia of the solar plexus, splanchnic nerves, and sympathetic chain and they enter the spinal cord in the composition of the dorsal roots. Cell bodies of A fibers are located in the spinal ganglia, those of the C fibers below the ganglia of the solar plexus, evidently in the walls of the internal organs. Peripheral nerves contain A fibers only with very low conduction velocities (13–20 m/sec) and no fast-conducting A fibers (25–56 m/sec) were found. Preganglionic fibers terminate synaptically on neurons of the ganglia of the solar plexus whose axons run in the peripheral nerves to the internal organs. Synaptic pathways run from some peripheral nerves of the solar plexus into others through its ganglia; in all probability these pathways participate in peripheral reflex arcs.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 8, No. 1, pp. 76–83, January–February, 1976.     

Periodic components in integral spontaneous activity of sympathetic neurons

In experiments on rabbits anesthetized with urethane, we made multichannel coherent recordings of spontaneous activity and evoked activity of preganglionic sympathetic fibers in peripheral nerves of a leg and unmyelinated preganglionic fibers of the cervical sympathetic nerve trunk (CSNT). The results of a spectral analysis of the activity recorded and a correlational analysis of the activity and changes in arterial pressure allow us to conclude that preganglionic unmyelinated fibers of the CSNT are primarily vasoconstrictive and are under stronger baroreceptor control than vasoconstrictive fibers going to the skin and limb muscles. This is possibly due to differences in the functions of the innvervated organs. The latent period of the change in arterial pressure evoked by a change in the activity of vasoconstrictor fibers equals 4–10 sec.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 23, No. 3, pp. 266–273, May–June, 1991.     

Synchronization of spontaneous activity of skeletal muscle,autonomic nerves,and brain structures in cats

Acute and chronic experiments with recording of electrical activity of skeletal muscle, autonomic nerves, and some brain formations were performed on cats. Spectral correlation analysis showed that the spatial synchronization of electrical activity for the autonomic nerves and brain formations within the frequency range of 25–35 Hz, revealed by previous investigations, extends also to skeletal muscle. It is postulated that the presence of a widespread rhythm of 25–35 Hz is a factor facilitating the transmission of influences in the nervous system through frequency potentiation of synaptic action.Institute of Physiology, Bulgarian Academy of Sciences, Sofia. Translated from Neirofiziologiya, Vol. 8, No. 2, pp. 146–151, March–April, 1976.     

Assessment of neuropathic pain in leprosy patients with relapse or treatment failure by infrared thermography: A cross-sectional study

BackgroundNeuropathic pain (NP) is one of the main complications of leprosy, and its management is challenging. Infrared thermography (IRT) has been shown to be effective in the evaluation of peripheral autonomic function resulting from microcirculation flow changes in painful syndromes. This study used IRT to map the skin temperature on the hands and feet of leprosy patients with NP.Methodology/Principal findingsThis cross-sectional study included 20 controls and 55 leprosy patients, distributed into 29 with NP (PWP) and 26 without NP (PNP). Thermal images of the hands and feet were captured with infrared camera and clinical evaluations were performed. Electroneuromyography (ENMG) was used as a complementary neurological exam. Instruments used for the NP diagnosis were visual analog pain scale (VAS), Douleur Neuropathic en 4 questions (DN4), and simplified neurological assessment protocol. The prevalence of NP was 52.7%. Pain intensity showed that 93.1% of patients with NP had moderate/severe pain. The most frequent DN4 items in individuals with NP were numbness (86.2%), tingling (86.2%) and electric shocks (82.7%). Reactional episodes type 1 were statistically significant in the PWP group. Approximately 81.3% of patients showed a predominance of multiple mononeuropathy in ENMG, 79.6% had sensory loss, and 81.4% showed some degree of disability. The average temperature in the patients’ hands and feet was slightly lower than in the controls, but without a significant difference. Compared to controls, all patients showed significant temperature asymmetry in almost all points assessed on the hands, except for two palmar points and one dorsal point. In the feet, there was significant asymmetry in all points, indicating a greater involvement of the lower limbs.ConclusionIRT confirmed the asymmetric pattern of leprosy neuropathy, indicating a change in the function of the autonomic nervous system, and proving to be a useful method in the approach of pain.     

Distribution of FMRFamide-like immunoreactive neurons in the central nervous system of the snail Helix pomatia

Summary The distribution of FMRFamide-like immunoreactive (FLI) neurons and their morphological characteristics have been investigated in the central nervous system of the snail, Helix pomatia L. Approximately phageal ganglion complex. More than 50% of the FLI neurons were located in the cerebral ganglia. The FLI neurons could be divided into four groups according to size: (i) giant neurons (over 100 m); (ii) large neurons (80–100 m); (iii) medium-sized neurons (40–70 m); (iv) small neurons (12–30 m). They were distributed i) in groups or clusters, typical of small neurons and ii) in solitary form or in groups comprising 2–3 cells, typical of large and giant neurons. Giant and large neurons revealed only limited arborizations in the neuropil, but rich branching towards and in the peripheral nerves. Some of the small neurons had extensive arborizations of varicose fibers in the neuropil. They may therefore play some role in integratory processes. Varicose FLI fibers were visualized in the cell body layer of the different ganglia, and in the neural sheath of both the ganglia and the peripheral nerves. We propose a multifunctional involvement of FLI neurons and FMRFamide-like neuropeptides in the Helix nervous system: (i) a synaptic or modulatory role in axo-axonic interactions in the neuropil; (ii) a direct influence on neuronal cell bodies in the cortical layer, (iii) innervation of different peripheral organs; and (iv) remote neurohormonal control of peripheral events through the neural sheath.     

Reticular structures and reticulospinal pathways participating in the initiation and inhibition of spino-bulbo-spinal activity

Reflex discharges in intercostal nerves and activity of reticulospinal fibers of the ventral and lateral funiculi, evoked by stimulation of the reticular formation and of the splanchnic and intercostal nerves were investigated in cats anesthetized with chloralose (50 mg/kg). Brain-stem neuronal structures participating in the "relaying" of spino-bulbo-spinal activity were shown to lie both in the medial zones of the medullary and pontine reticular formation and in its more lateral regions; they include reticulospinal neurons and also neurons with no projection into the spinal cord. Structures whose stimulation led to prolonged (300–800 msec) inhibition of reflex spino-bulbo-spinal activity were widely represented in the brain stem, especially in the pons. Analogous inhibition of this activity was observed during conditioning stimulation of the nerves. Reticulospinal fibers of the ventral (conduction velocity 16–120 m/sec) and lateral (17–100 m/sec) funiculi were shown to be able to participate in the conduction of spino-bulbo-spinal activity to spinal neurons. In the first case fibers with conduction velocities of 40–120 m/sec were evidently most effective. Evidence was obtained that prolonged inhibition of this activity can take place at the supraspinal level.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Institute of Normal and Pathological Physiology, Slovak Academy of Sciences, Bratislava, Czechoslovakia. Translated from Neirofiziologiya, Vol. 8, No. 4, pp. 373–383, July–August, 1976.     

Vesicle and granule content of sympathetic ganglion cells during limb regeneration of the newt Triturus

Summary Fine structural observations were made on the vesicle and granule content of ganglion cells in the posterior subclavian ganglion and peripheral nerve fibers of the upper forelimb of the newt Triturus. The populations of vesicles and granules in normal ganglion cells and nerve fibers were compared with those observed after limb transection. In normal neurons, clear vesicles range in size from 250 to 1000 Å in diameter, but are most frequently 400–500 Å. Vesicles with dense contents (granules) also vary greatly in size, but most are 450–550 Å in diameter and correspond to dense-core vesicles. Large granules that contain acid phosphatase activity are thought to be lysosomes. During limb regeneration, in both the ganglion cells and peripheral nerves, the ratio of dense vesicles to clear vesicles increases. There is a large increase in number of dense granules with a diameter over 800 Å, particularly in the peripheral regenerating fibers. This study shows that regenerating neurons differ from normal in their content of vesicular structures, especially large, membrane-bounded granules.This work was supported by grants from the National Science Foundation (GB 7912) and from the National Cancer Institute (TICA-5055), National Institutes of Health, United States Public Health Service.     

Sensory and autonomic innervation of non-hairy and hairy human skin

Summary Non-hairy and hairy human skin were investigated with the use of the indirect immunohistochemical technique employing antisera to different neuronal and non-neuronal structural proteins and neurotransmitter candidates. Fibers immunoreactive to antisera against neurofilaments, neuron-specific enolase, myelin basic protein, protein S-100, substance P, neurokinin A, neuropeptide Y, tyrosine hydroxylase and vasoactive intestinal polypeptide (VIP) were detected in the skin with specific distributional patterns. Neurofilament-, neuron-specific enolase-, myelin basic protein-, protein S-100-, substance P-, neurokinin A-and vasoactive intestinal polypeptide (VIP)-like immunoreactivities were found in or in association with sensory nerves; moreover, neuron-specific enolase-, myelin basic protein-, protein S-100, neuropeptide Y-, tyrosine hydroxylase- and vasoactive intestinal polypeptide (VIP)-like immunoreactivities occurred in or in association with autonomic nerves. It was concluded that antiserum against neurofilaments labels sensory nerve fibers exclusively, whereas neuron-specific enolase-, myelin basic protein- and protein S-100-like immunoreactivities are found in or in association with both sensory and autonomic nerves. Substance P- and neurokinin A-like immunoreactivities were observed only in sensory nerve fibers, and neuropeptide Y- and tyrosine hydroxylase-like immunoreactivities occurred only in autonomic nerve fibers, whereas vasoactive intestinal polypeptide (VIP)-like immunoreactivity was seen predominantly in autonomic nerves, but also in some sensory nerve fibers.     

Effects of transcranial electrical stimulation of opioid brain structures on regeneration of peripheral nerves in the rat

The effects of transcranial electrical stimulation of opioid brain structures on regeneration of the rat sciatic nerve after transection and microsurgical suturing of the nerve were investigated. Electrical stimulation was found to accelerate regeneration of motor and sensory fibers of the sciatic nerve. The subject of the involvement of endogenous opioid peptides in regeneration of the peripheral nerves is discussed.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 22, No. 1, pp. 76–79, January–February, 1990.     

Autonomic Nervous System Activity During Actual and Mentally Simulated Preparation for Movement

The aim of this study was to compare actual versus mentally simulated preparation for a complex motor skill. Two behavioral periods are observed during weightlifting: (i) an initial phase in which the subject standing behind the bar is thought to focus his attention on forthcoming execution and (ii) a second phase between hands/bar contact and execution during which the subject is thought to increase activation. Such mental processes accompanying behavioral sequences are correlated with autonomic nervous system activity, phasic responses corresponding to allocation of attentional resources, and tonic variations related to increasing general activation. To study mental processes during preparation for action, 12 subjects performed actual and imagined preparation phases of execution. Six autonomic variables were measured continuously. Skin potential (² = 0.16), skin temperature amplitude (Z = –0.66) and duration (Z = –1.78), skin blood flow amplitude (Z = –0.56) and duration (Z = –1.51), respiratory frequency amplitude (Z = –0.14) and duration (Z = –0.13), and duration of heart rate response (Z = –1.25) were shown to be comparable (p >.05), whatever the modality of preparation. However, during mentally simulated preparation, skin resistance response was shorter than in actual preparation (Z = –2.12, p <.05), thus attesting to a weaker load, whereas lower decrease in heart rate was elicited (Z = –1.96, p <.05). This may be explained by this particular experimental condition because mental preparation would not lead to actual action. Such autonomic variables could be used as feedback to improve performance.     

The neuronal organization of the dentate nucleus of the cerebellum

The intracellular activity of the neurons of the dentate nucleus was studied in cats anesthetized with Nembutal by means of their antidromic and synaptic excitation through stimulation of the red nucleus (RN) and the ventrolateral nucleus of the thalamus (VL), as well as the sensomotor cerebral cortex (CC) and the peripheral nerves of the posterior and anterior extremities. Several functionally delimited groups of neurons were isolated and studied. Efferent neurons, antidromically activated from nuclei of the brain stem, which did not react to stimulation of the peripheral nerves were placed in group I. Group II neurons were synaptically activated from the nuclei of the brain stem, and in a majority of cases also reacted to stimulation of the peripheral nerves and CC. Cells with a rhythmic background activity, which did not react to any of the types of stimulation used, comprised group III. Group IV was made up of neurons having the properties of intermediate neurons with a selective reaction to stimulation of a specific peripheral nerve or which experience broad convergence of the effects of different afferent impulsations.L. A. Orbeli Institute of Physiology, Academy of Sciences of the Armenian SSR, Erevan. Translated from Neirofiziologiya, Vol. 3, No. 2, pp. 154–165, March–April, 1971.     

Correlations Between the Manifestations of Autonomic Regulation Related to the Orthostatic Test and Physical Loading

In 30- to 45-year-old healthy men (workers of the coal mines), we studied using correlation analysis the interrelations between the manifestations of autonomic regulation of the heart rhythm related to the active orthostatic test (AOT) and the state of systemic circulation in the physical loading test (PhLT). It has been concluded that the pattern of correlations is determined by the direction of autonomic regulatory drives within a transitional period of the AOT. In the group of tested persons with clear domination of ergotropic reactions, the variation range and power of a slow wave component of the heart rhythm in the standing posture strictly correlated with the cardial stroke, peripheral resistance, vascular tone, myocardial tension, and aerobic productivity. In persons with relatively balanced ergotropic and trophotropic effects, the AOT transitional period was characterized by correlations of nearly all indices of autonomic regulation of the heart rhythm with the indices of central hemodynamics of the PhLT.     

Complex estimation of adaptation abilities of the organism in children using the indices of responsiveness of the cardiovascular system and characteristics of EEG

Based on the complex analysis of the data of cardiointervalographic (CIG) and rheoencephalographic (REG) examination of 37 healthy children and 63 children suffering from bronchial asthma (BA), we identified the most informative indices characterizing reactions of the cardiovascular system under conditions of an active orthostatic test (coefficient of autonomic responsiveness and index of responsiveness of the vessels). We conclude that the relation between the values of these indices allows one to identify the level of strain of the regulatory mechanisms and the state of the adaptation systems of the organism, which determine the adequacy of control of the autonomic sphere. The following gradations can be classified: an optimum level, compensated adaptation disorders (strain and overstrain of the regulatory mechanisms), and decompensated adaptation disorders (exhaustion of the regulatory mechanisms and failure of adaptation). Among clinically healthy children, we found a risk group (about 30%) with manifestations of lowering of the organism’s adaptive abilities. It is shown that groups of healthy children and children suffering from BA differ from each other in the shares of different patterns of EEG and variants of EEG responses to a hyperventilation test. Qualitative and quantitative characteristics of EEG in children, despite high interindividual variability, clearly correlate with the state of adaptation processes. The expedience of a complex approach in estimating the adaptation ability of the child based on the data of CIG, REG and EEG examinations is discussed. Neirofiziologiya/Neurophysiology, Vol. 38, No. 1, pp. 72–84, January–February, 2006.     

Cytophotometric and electrophysiological analysis of the role of the celiac plexus in maintenance of temperature homeostasis during cold stress in rats

The role of the celiac plexus in maintenance of temperature homeostasis in rats exposed to cold stress was studied by histochemical, ultrastructural, and electrophysiological methods. Inhibition of efferent impulsation was found in the preganglionic (splanchnic) nerves and potentiation in postganglionic (superior mesenteric) nerves under the influence of short-term cold stress, leading to a state of mild hypothermia. During cooling of the animals after decentralization of the celiac plexus an increase was observed in the intensity of fluorescence, in the activity of enzymes of energy metabolism, and in hyperplasia of the ultrastructural formations responsible for protein synthesis and the energy supply of the cell. It is suggested that during cold stress, when the flow of efferent impulses along preganglionic nerves is considerably reduced the celiac plexus becomes the center regulating autonomic functions that are involved in the maintenance of temperature homeostasis.Institute of Physiology, Belorussian Academy of Sciences, Minsk. Translated from Neirofiziologiya, Vol. 24, No. 6, pp. 659–667, November–December, 1992.     

Detection of FMRFamide-like immunoreactivities in the sea scallopPlacopecten magellanicus by immunohistochemistry and Western blot analysis

FMRFamide-like immunoreactivity was detected histochemically in the sea scallopPlacopecten magellanicus. Most immunoreactivity was concentrated in the cerebral, pedal, and parietovisceral ganglia, particularly in the cortical cell bodies and in their fibers which extend into the central neuropile. Whole-mount immunofluorescence studies were used to localize concentrations of immunoreactive cells on the dorsal and ventral surfaces of each ganglion. Immunoreactivity was also detected in nerves emanating from the ganglia. Strong immunoreactivity was localized in peripheral organs, including the gut and gills of juvenile and adult scallops. Weak immunoreactivity was detected in the gonads, heart, and adductor muscle of the adults. A broad FMRFamide-like immunoreactive band of 2.5–8.2 kDa was detected by Western blotting of acetone extracts of the parietovisceral ganglia. In the presence of protease inhibitors, two FMRFamide-like immunoreactive bands (7.2–8.2 kDa and >17 kDa) were obtained. Neither of these bands comigrated with the FMRFamide standard. It is concluded that peptides of the FMRFamide family are probably regulators of numerous central and peripheral functions inP. magellanicus.     

The freezing threshold of peripheral motor nerves following pretreatment with dimethyl sulfoxide and ethanol: An electrophysiologic and light and electron microscopic study on the sciatic nerve of rabbits

The right sciatic nerve of 78 cross-breed rabbits was exposed. Fifty-two of these nerves were treated with 10% DMSO or 10% ethanol for a period of 10 min before being frozen or supercooled. Twenty-six nerves were just supercooled or frozen, these being used for control purposes. A capacity-limited solid silver probe, 15 cm in length and 1 cm in diameter, was employed. Ethanol was used as the cooling agent. The freezing or supercooling temperatures were 0, ?5, ?10, ?20, ?25, and ?30 °C, and the freezing or supercooling times were 10, 30, and 120 sec. One, two, or four freeze- or supercool-thaw cycles were employed. After electric supramaximal stimulation with 3.8 V, the amplitudes of the action potentials (AP) were measured before and immediately after 1, 3, 5, 10, 20, 30, 60, and 90 min and 2, 5, and 10 days after supercooling or freezing, respectively. The pretreated nerves were examined under light and electron microscopes after 2 days. The damage to the nerve fibers depends on the freezing or supercooling temperature, the freezing or supercooling time, and the number of freeze- or supercooling-thaw cycles. Electrophysiologically, this damage leads to a decrease in the amplitude or complete disappearance of the APs and to a reduction in motor function. The morphological findings were clumping and at times even vacuolization of the myelin sheaths and a thickening of the axon with a loss of microfilaments, microtubules, and mitochondria. First the large, then the medium and small myelinated nerve fibers appeared to be affected. The unmyelinated fibers seem well preserved. No differences in quality but differences in quantity were observed between those nerves treated with cryoprotective agents and the nontreated control nerves. With the latter, the damage was spread diffusely over the whole nerve; whereas with the pretreated nerves, damage was localized in the periphery, primarily where the cryoprobe was applied.DMSO and ethanol have a cryoprotectivc effect on the nerves, and in this respect it would appear, from electron microscopic observations, that fewer nerve fibers were damaged compared with the control nerves and, from an electrophysiological viewpoint, following pretreatment the action potentials had a greater amplitude than that of the control nerves.After pretreatmcnt with 10% DMSO or 10% ethanol, the freezing or supercooling threshold of the sciatic nerves was determined in relation to the freezing or supercooling times and the freeze- or supercool-thaw cycles. With one freeze-thaw cycle this freezing threshold was, for both 10% DMSO and 10% ethanol, ?25 °C with a freezing time of 10 sec, ?20 °C with a freezing time of up to 30 sec, and ?15 °C with a freezing time of up to 120 sec. Consequently, the freezing threshold was higher than with motor nerves frozen under the same conditions without cryoprotective agents (the controls).If these experimental results could be applied in clinical cryosurgery it might be possible to preserve a peripheral motor nerve in the periphery of the cryolesion to a certain extent by injecting such cryoprotective agents around the nerve.