1,720,961 research outputs found
Responses of lateral reticular neurons to sinusoidal rotation of neck in decerebrate cat
No full textResponses of lateral reticular neurons to sinusoidal stimulation of labyrinth receptors in decerebrate cat
No full text[Role of NGF in the development of primary sensory neurons in the rat]
No full textTwo populations of neurons are present in the dorsal root ganglia: i) the first which is connected with the neuromuscular spindles is localized in the mediodorsal (MD) part of the ganglion; ii) the second which is connected with the cutaneous receptors is localized in the ventrolateral (VL) part of the ganglion. The growth of MD but not of VL neurons in vitro is dependent upon the presence of the NGF. In order to study the presence in vivo of such differential effect of the NGF on the two neuronal populations, we have injected rat embryos with NGF antiserum (AS-NGF) and recorded the compound action potentials of different hindlimb nerves. We found that the sensory component, in the studied muscular nerves of the hindlimb, is seriously depressed in treated animals. These results indicate that the animals treated with AS-NGF suffer of a depression of activity in the afferents from the muscle spindles. This is probably due to a decrease in the number of these fibers in their muscle nerves
Effects of reinnervation with normal and tetrodotoxin-inactive nerves on resting membrane potential of rat skeletal muscle
No full textResting membrane potentials (RMPs) have been recorded in vitro near the end-plate region of rat soleus muscles reinnervated with tetrodotoxin-inactive nerves and compared with those of denervated muscles whose reinnervation had been prevented. The two muscle groups exhibited the same low values of RMP typical of denervated muscles. In control muscles of rats in which impulse conduction was left unimpaired, reinnervation induced the expected increase in RMP values towards normal. It is suggested that, at least for this property, reinnervation restores to normal the muscle fibre membrane essentially through the return of activity
Electrophysiological effects of a neurotoxin extracted from the skin of the Australian frog Pseudophryne coriacea
No full text1. The electrophysiological effects of a pumiliotoxin-B-like alkaloid extracted from the skin of the Australian frog Pseudophryne coriacea (PsC) have been studied in rat superior cervical ganglia at 37 degrees C. 2. PsC (50 mg/ml) elicits a broadening of the evoked compound action potential and, at rest, the appearance of spontaneous spike discharge at 10-20 Hz. Action potentials presumably originate far away from the soma, which is invaded in a typical IS-SD sequence. 3. The toxin effect is not related to any direct action on the preganglionic fibers of the sympathetic trunk, and does not involve synaptic mechanisms. 4. Two-electrode voltage-clamp experiments showed that the main properties of the major voltage-dependent ionic currents are apparently unaffected by the toxin, while the cell input resistance is considerably reduced. 5. The data are consistent with the hypothesis that PsC elicits a cationic permeability increase generating a pacemaker current in a region close to the cell soma
Effects of reinnervation upon electrical membrane properties of normal and paralyzed muscles
No full textResting membrane potentials (RMP) and resistance to tetrodotoxin (TTX) have been compared in denervated rat soleus muscles and muscles reinnervated with tetrodotoxin-inactive nerves for periods of 15-18 days. RMP's of the two muscle groups exhibited the same low values typical of denervated muscles. Similarly, comparable values of TTX-resistance were found in the two muscle groups, although exceptions with slightly lower values in the innervated-paralyzed muscles were noted. It is concluded that muscle reinnervation restores to normal the membrane properties altered by denervation essentially through the return of muscle activity
Sodium current in periglomerular cells of frog olfactory bulb in vitro
No full textKinetic properties of the sodium current in periglomerular (PG) cells were investigated by applying whole-cell patch-clamp techniques to thin slices of the frog olfactory bulb. Eight of the cells were intracellularly stained with Lucifer Yellow for precise identification. Under current-clamp conditions PG cells showed rich spontaneous activity at rest. Na current was isolated from other current contributions by equimolar substitution of K+ with Cs+ in the intracellular solution to prevent K-currents, and 100 microM Cd2+ in the external solution to block Ca-current. Depolarisations beyond -40 mV activated a fast transient TTX-sensitive inward current. Once activated, INa declined exponentially to zero following a single exponential. The underlying conductance showed a sigmoidal activation between -40 and +30 mV, with half activation at -17.4 mV and a maximal value of 9.7 nS per neurone. The steady-state inactivation was complete at -30 mV and completely removed at -90 mV, with a midpoint at -56 mV. The activation process could be adequately described by third order kinetics, with time constants ranging from 260 microseconds at -20 mV to 70 microseconds at +50 mV
Electrical properties of periglomerular cells in the frog olfactory bulb.
No full textWhole-cell patch clamp recording techniques were applied to periglomerular (PG) cells in slices of the frog olfactory bulb (OB) preparation to study the basic electrical properties of these inhibitory interneurons. The cells were intracellularly stained with Lucifer Yellow for precise identification. Under current-clamp conditions PG cells showed rich spontaneous excitatory synaptic activity at rest, usually leading to overshooting, TTX-sensitive action potentials. The passive cable properties of the cell membrane have been carefully characterised. Depolarisation of this neurone under voltage-clamp conditions activated a complex pattern of current flow, that has been dissected into its main components. The currents have been isolated resorting to their different kinetic and pharmacological properties. Four main voltage dependent ionic currents have been isolated, two inward currents, I(Na) and I(Ca), and two outward currents carried by potassium ions, one fast transient, I(A)-type and another similar to the delayed rectifier type. These currents have been characterised kinetically and pharmacologically. The functional implications of their properties are discussed
Going Beyond Counting First Authors in Author Co-citation Analysis
Full text linkThe present study examines one of the fundamental aspects of author co-citation analysis (ACA) - the way co-citation
counts are defined. Co-citation counting provides the data on which all subsequent statistical analyses and mappings
are based, and we compare ACA results based on two different types of co-citation counting - the traditional type that
only counts the first one among a cited work's authors on the one hand and a non-traditional type that takes into
account the first 5 authors of a cited work on the other hand. Results indicate that the picture produced through this non-traditional author co-citation counting contains more coherent author groups and is therefore considerably clearer. However, this picture represents fewer specialties in the research field being studied than that produced through the traditional first-author co-citation counting when the same number of top-ranked authors is selected and analyzed. Reasons for these effects are discussed
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