Physiology & behavior
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Physiology & behavior · Feb 2002
Dissociation of the effects of nucleus raphe obscurus or rostral ventrolateral medulla lesions on eliminatory and sexual reflexes.
Rat preparations were used to investigate long-term changes in external anal sphincter (EAS) contractions and reflexive penile erection following electrolytic lesions of the nucleus raphe obscurus (nRO) or the rostral ventrolateral medulla. EAS contractions were measured electromyographically (EAS EMG) following distention of the EAS with a 5-mm probe. Penile erections were measured using a standard ex copula reflex testing paradigm. ⋯ Similar facilitation of erection latency was observed at 14 days postlesion, while erection number and flip total were no longer significantly different from controls. These and previous studies suggest that the nRO regulates defecatory reflexes in the rat. These data further suggest that the comingled EAS and bulbospongiosus (BS) motoneurons are controlled by discrete and separate brainstem circuits and that increases in EAS and penile reflexes after spinal cord lesions are mediated by loss of different descending inputs.
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Physiology & behavior · Aug 2001
Comparative StudyTesting episodic memory in animals: a new approach.
Episodic memory involves the encoding and storage of memories concerned with unique personal experiences and their subsequent recall, and it has long been the subject of intensive investigation in humans. According to Tulving's classical definition, episodic memory "receives and stores information about temporally dated episodes or events and temporal-spatial relations among these events." Thus, episodic memory provides information about the 'what' and 'when' of events ('temporally dated experiences') and about 'where' they happened ('temporal-spatial relations'). The storage and subsequent recall of this episodic information was thought to be beyond the memory capabilities of nonhuman animals. ⋯ There is now a pressing need to adapt these experimental tests of episodic memory for other animals. Given the potential power of transgenic and knock-out procedures for investigating the genetic and molecular bases of learning and memory in laboratory rodents, not to mention the wealth of knowledge about the neuroanatomy and neurophysiology of the rodent hippocampus (a brain area heavily implicated in episodic memory), an obvious next step is to develop a rodent model of episodic-like memory based on the food-storing bird paradigm. The development of a rodent model system could make an important contribution to our understanding of the neural, molecular, and behavioral mechanisms of mammalian episodic memory.
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Physiology & behavior · Jun 2001
Topographic architecture of stress-related pathways targeting the noradrenergic locus coeruleus.
Peripheral sympathetic nerves and brainstem noradrenergic neurons of the locus coeruleus (LC) respond in parallel to a variety of stress-related stimuli which results in norepinephrine release both peripherally and centrally. Elucidation of central pathways subserving modulation of LC neurons point to extranuclear noradrenergic dendrites of LC somata that extend into peri-coerulear areas as a major target of afferents that participate in behavioral and physiological responses to stress. Anterograde tract tracing combined with immunoelectron microscopic detection of the catecholamine synthesizing enzyme tyrosine hydroxylase (TH) has demonstrated that the nucleus of the solitary tract (NTS) and the ventrolateral aspect of the periaqueductal gray (PAG), regions that participate in coordinating autonomic and motor behavior in response to stress, preferentially target the rostral ventromedial aspect of the peri-LC. ⋯ Our physiological data suggest that stress engages CRF and opioid afferents to the LC, which have opposing influences on this noradrenergic system. The balance between opioid and CRF influences acting in the LC may, in part, maintain the balance of active and passive coping behaviors in response to stress. Understanding the afferent and neurochemical organization of the LC may help elucidate adaptations in neural circuits associated with stress which impact on central noradrenergic function.
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Physiology & behavior · May 2001
Oral irritant properties of menthol: sensitizing and desensitizing effects of repeated application and cross-desensitization to nicotine.
The irritant properties of menthol and its interactions with nicotine were investigated psychophysically in human subjects. In the first experiment, 0.3% L-menthol was applied successively to one side of the tongue 10 times at a 1-min interval (30-s interstimulus interval, ISI), and subjects rated the intensity of the perceived irritation. The intensity of irritation progressively decreased across trials, consistent with desensitization. ⋯ In a final experiment, menthol was repeatedly applied to one side of the tongue at a shorter (20 s) interval (5-s ISI), and elicited a rapid increase in irritant sensation over the initial trials, consistent with sensitization, followed in subsequent trials by a progressive reduction in irritation (desensitization). After a 5-min rest period, self-desensitization was confirmed. Repeated application of menthol at the same short ISI was then resumed, and resulted in a significant mean increase in irritant intensity consistent with stimulus-induced recovery (SIR).
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Physiology & behavior · Feb 2001
Clinical TrialOral irritation by sodium chloride: sensitization, self-desensitization, and cross-sensitization to capsaicin.
Psychophysical methods were used to investigate the irritant sensory properties of concentrated NaCl. The first experiment investigated potential sensitization and desensitization properties. Subjects rated the intensity of the irritation elicited by 10 successive applications of 5 M NaCl on one side of the dorsal surface of the tongue. ⋯ In a second experiment, the effect of amiloride on NaCl-evoked irritation was studied. One side of the tongue was treated with 1 mM amiloride, after which 5 M NaCl was applied bilaterally and subjects performed the same 2-AFC and rating procedures. Since amiloride significantly reduced the intensity of the irritant sensation, the contribution of amiloride-sensitive ionic currents or the Na+/H+ exchange pump (NHE) are suggested as possible transduction mechanisms in lingual nociceptors mediating NaCl-evoked oral irritation.