Arch Ital Biol
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It is still an enigma how human subjects combine visual and vestibular inputs for their self-motion perception. Visual cues have the benefit of high spatial resolution but entail the danger of self motion illusions. We performed psychophysical experiments (verbal estimates as well as pointer indications of perceived self-motion in space) in normal subjects (Ns) and patients with loss of vestibular function (Ps). ⋯ We therefore describe the present findings by a non-linear dynamic model in which the visual input is processed in three steps: i) It shows dynamics similar to those of OKR and SP; ii) it is shaped to complement the vestibular dynamics and is fused with a vestibular signal by linear summation; and iii) it can be suppressed by a visual-vestibular conflict mechanism when the visual scene is moving in space. Finally, an important element of the model is a velocity threshold of about 1.2 degrees/s which is instrumental in maintaining perceptual stability and in explaining the observed dynamics of perception. We conclude from the experimental and theoretical evidence that self-motion perception normally is related to the visual scene as a reference, while the vestibular input is used to check the kinematic state of the scene; if the scene appears to move, the visual signal becomes suppressed and perception is based on the vestibular cue.
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1. The effects of microstimulation of the locus coeruleus (LC) region on the spontaneous discharge and the response of SI neurons to natural and electrical stimulation of the skin have been investigated in 26 urethane anesthetized Sprague-Dawley rats. In particular, one or two air puffs, 5-10 msec in duration, 1-2 psi, usually separated by an interval of 40 msec, were applied on the hairy skin of the wrist or the forepaw at the presentation rate of 1/sec. ⋯ Evidence for spatial focusing of the response was not easily documented. In some units, however, LC stimulation produced either facilitation of the responses to puffs at the receptive field center and inhibition of the responses to puffs at the edge at the receptive field or vice versa. 6. Since the LC complex contains in the rat a predominant population of noradrenergic neurons, it is likely that the effects described above were mainly due to activation of these noradrenergic neurons. 7. (ABSTRACT TRUNCATED)
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Review Historical Article
The cerebral ventricles, the animal spirits and the dawn of brain localization of function.
This paper reviews the early history of brain localization of function. It analyses the doctrines professed in ancient times by philosophers and physicians, who believed that brain functions were carried out in the cerebral ventricles by the psychic pneuma, or animal spirit, a sort of special and light substance endowed with the power to perform sensory, motor and mental activities. This theory, conceived in the Classic Age and called "ventricular-pneumatic doctrine", evolved in the 4th-5th centuries A. ⋯ The sixth section deals with the decline of the three-cell theory, which was first challenged in the early 16th century and then drastically revised by several Renaissance and post-Renaissance experimentalists, anatomists and philosophers, although some remnants of the Galenic pneumatic neurophysiology survived in medicine until the 18th century. The penultimate section analyses bibliographical data on the earliest localizationists and shows that, independently of chronological priority, Nemesius of Emesa was the source of the pattern of ventricular localization of function adopted by later Byzantines and by the Arabs, and then transmitted to Latin Western scholars. The last section discusses the legacy of the three-cell theory to later generations of neuroscientists.
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1. The Purkinje (P)-cells of the cerebellar vermis, which exert a prominent influence on posture as well as on the gain of vestibulospinal (VS) reflexes, are under the control not only of the classic mossy fibers and climbing fibers which liberate excitatory amino acids as neurotransmitter, but also of cholinergic afferents. The role of these afferents was investigated in precollicular decerebrate cats by using the method of local microinjection of cholinergic agents into appropriate areas of the cerebellar cortex. 2. ⋯ On the other hand opposite effects, characterized by an increased postural activity in the ipsilateral forelimb associated with a decreased activity in the contralateral forelimb, as well as by a reduced gain of the EMG responses of the triceps brachii of both sides to animal tilt were observed in other experiments after local microinjection of the muscarinic antagonist scopolamine (0.25 microliter at 4-8 micrograms/microliters saline). Evidence for muscarinic supersensitivity was obtained following repetitive injections of scopolamine into the cerebellar vermis. 4. The area which upon injection of the cholinergic agents modified the postural activity as well as the gain of the VS reflexes was located within the third and/or the fourth folium rostral to the fissura prima (culmen), at the laterality of 1.4-1.8 mm with respect to the midline.(ABSTRACT TRUNCATED AT 400 WORDS)
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The early component of the postural responses which accompany the limb flexion during unilateral stimulation of the motor cortex in the cat is not of reflex origin, but results from a central command. These postural adjustments are characterized by a decreased force under the limb diagonally opposite to the moving one and an increased force under the other two. Since the lateral vestibular nucleus (LVN) exerts an excitatory influence on ipsilateral limb extensor motoneurons, experiments were performed in cats to establish whether the cortical-induced postural changes were mediated through the LVN. ⋯ Moreover, histological controls indicated that the structure responsible for these postural changes corresponded to the middle part of the LVN. The specificity of the results was shown by the fact that unilateral microinjection of 0.25 microliters of the GABA-A antagonist bicuculline or the GABA-B antagonist phaclofen (at 5-8 micrograms/microliter saline) into the LVN produced a postural asymmetry opposite in sign to that elicited in the same experiments by the corresponding agonists. These injections did not modify the amplitude of the cortical-induced limb flexion, but rather enhanced the amplitude of the early component of the postural responses in the other three limbs.(ABSTRACT TRUNCATED AT 400 WORDS)