Your search keyword '"Hervé Bester"' showing total 8 results

1. Changes in tactile stimuli-induced behavior and c-Fos expression in the superficial dorsal horn and in parabrachial nuclei after sciatic nerve crush

Author

Clifford J. Woolf, Hervé Bester, and Simon Beggs

Subjects

Parabrachial Nucleus, General Neuroscience, Anatomy, Nerve injury, Biology, Parabrachial area, Mechanoreceptor, medicine.anatomical_structure, Allodynia, nervous system, Peripheral nerve injury, medicine, Nociceptor, Sciatic nerve, medicine.symptom

Abstract

Neurons in the superficial laminae of the dorsal horn are dominated by input from peripheral nociceptors. Following peripheral nerve injury, low threshold mechanoreceptive Aβ-fibers sprout from their normal termination site in laminae III/IV into laminae I–II and this structural reorganization may contribute to neuropathic tactile pain hypersensitivity. We have now investigated whether a sciatic nerve crush injury alters the behavioral response in rats to tactile stimuli and whether this is associated with a change in the pattern of c-Fos expression in the dorsal horn and the parabrachial area of the brainstem. Sciatic nerve crush resulted in a patchy but marked tactile allodynia manifesting first at 3 weeks and persisting for up to 52 weeks. C-Fos expression in the dorsal horn and parabrachial region was never observed on brushing the skin of the sciatic nerve territory in animals with intact nerves, but was found after sciatic nerve crush with peripheral regeneration. We conclude that after nerve injury, low threshold mechanoreceptor fibers may play a major role in producing pain-related behavior by activating normally nociceptive-specific regions of the central nervous system such as the superficial laminae of the dorsal horn and the parabrachial area. J. Comp. Neurol. 428:45–61, 2000. © 2000 Wiley-Liss, Inc.

Published

2000

2. Organization of efferent projections from the parabrachial area to the hypothalamus: aPhaseolus vulgaris-leucoagglutinin study in the rat

Author

Jean-François Bernard, Hervé Bester, and Jean-Marie Besson

Subjects

Lateral hypothalamus, General Neuroscience, Efferent, Anatomy, Biology, Amygdala, Parabrachial area, Stria terminalis, Ventromedial nucleus of the hypothalamus, medicine.anatomical_structure, Hypothalamus, medicine, Neuroscience, Nucleus

Abstract

The organization of projections from the parabrachial (PB) area to the hypothalamus was studied in the rat by using microinjections of Phaseolus vulgaris-leucoagglutinin (PHA-L) into subregions of the PB area. The present study is a follow-up of two former studies (Bernard et al. [1993] J. Comp. Neurol. 329:201-229; Alden et al. [1994] J. Comp. Neurol. 341:289-314) that examined PB projections onto the amygdala and the bed nucleus of the stria terminalis. The results demonstrate that 1) the mesencephalic PB region, centered in the lateral portion of the superior lateral subnucleus projects extremely densely to almost the entire dorsomedial subdivision of the ipsilateral ventromedial hypothalamic nucleus; 2) the mesencephalic PB region, located in the medial portion of the superior lateral subnucleus and weakly overflowing into the rostralmost dorsal lateral pontine subnucleus, projects densely to the retrochiasmatic area and, to a lesser extent, to the ipsilateral ventromedial nucleus of the hypothalamus; 3) the PB region, including the central lateral, a portion of the superior lateral, and the outer external lateral subnuclei, projects densely to the ipsilateral median, anteroventral, and periventricular preoptic hypothalamic nuclei and projects more weakly to the dorsal border of the paraventricular nucleus (PVN). No consistent projection was found in the magnocellular PVN. All of these PB regions also project diffusely to the dorsomedial area and to a small tuberal subfornical hypothalamic area. In addition, the medial half of the PB area projects consistently to the posterior lateral hypothalamus. It is suggested that these pathways may be involved in aversive-defensive behavior, in autonomic and neuroendocrine aspects of pain, and in feeding and energy metabolism regulation. J. Comp. Neurol. 383:245-281, 1997. © 1997 Wiley-Liss, Inc.

Published

1997

3. Inhibition of inflammation and hyperalgesia in NK-1 receptor knock-out mice

Author

Vivienne C. Hood, Kelly Vetsika, Carmen De Felipe, Julia J. Inglis, Hervé Bester, Bruce L. Kidd, S.C. Cruwys, and Stephen P. Hunt

Subjects

Male, medicine.medical_specialty, Ratón, Neuropeptide, Substance P, Inflammation, Lesion, chemistry.chemical_compound, Mice, Internal medicine, medicine, Animals, Receptor, Mice, Knockout, business.industry, General Neuroscience, Receptors, Neurokinin-1, Arthritis, Experimental, Endocrinology, chemistry, Hyperalgesia, Knockout mouse, Immunology, Female, medicine.symptom, business

Abstract

We sought to characterise the contribution of the neuropeptide substance P to the outcome of two models of footpad inflammation of differing severity. In an intense inflammatory model produced by intra-plantar Mycobacterium tuberculosus (10 mg/ml) substantial reductions in footpad swelling, histological outcome and mechanical hyperalgesia were observed from early time points in mice lacking the neurokin-1 receptor for substance P compared with wild-type controls. Conversely, in a less intense model (M. tuberculosus 1 mg/ml) no differences were observed other than for a reduction in mechanical hyperalgesia at later time points (day 9 onwards). The results point to a previously unrecognised influence of substance P on peripheral tissue injury and the maintenance of hyperalgesia during more severe or more chronic phases of inflammatory disease.

Published

2003

4. Chapter VII The expression of c-fos in the spinal cord: mapping of nociceptive pathways

Author

Stephen P. Hunt and Hervé Bester

Subjects

medicine.anatomical_structure, Nociception, Postsynaptic potential, Chemistry, Central nervous system, Forebrain, medicine, Noxious stimulus, Brainstem, Stimulus (physiology), Spinal cord, Neuroscience

Abstract

Publisher Summary The use of c-Fos protein expression as a mapping tool in the central nervous system (CNS) derived from an immunohistochemical study, which demonstrated that the noxious stimulation of peripheral tissues always resulted in the expression of c-Fos protein in postsynaptic neurones within the spinal cord. Since that time, many hundreds of studies have confirmed and extended this observation and the technique is widely used in experimental pain research. Following the initial observation, a number of studies attempted to characterize the necessary stimulus and time course of the response as well as the appearance of c-Fos in the brainstem and forebrain. These studies have revealed unexpected complexity in the response, and there is now evidence that the pattern of expression of c-Fos in the central nervous system changes with time following the noxious stimulus. This chapter describes the c-Fos response in the spinal cord and the way it has been used to map nociceptive pathways.

Published

2002

5. Recovery of C-fiber-induced extravasation following peripheral nerve injury in the rat

Author

Hervé Bester, Clifford J. Woolf, and Andrew Allchorne

Subjects

Male, Pathology, medicine.medical_specialty, Cell Membrane Permeability, Nerve Crush, medicine.medical_treatment, Pain, Rats, Sprague-Dawley, Nerve Fibers, Developmental Neuroscience, Physical Stimulation, medicine, Animals, Plant Oils, Neurons, Afferent, Behavior, Animal, Cell Death, business.industry, Plant Extracts, Nociceptors, Axotomy, Anatomy, medicine.disease, Sciatic Nerve, Extravasation, Sensory neuron, Electric Stimulation, Antidromic, Rats, medicine.anatomical_structure, Peripheral neuropathy, Neurology, Peripheral nerve injury, Nerve Degeneration, Sciatic nerve, business, Reinnervation, Evans Blue, Extravasation of Diagnostic and Therapeutic Materials, Mustard Plant

Abstract

Peripheral nerve injury leads to substantial alterations in injured sensory neurons. These include cell death, phenotypic modifications, and regeneration. Primary sensory neurons have recently been shown not to die until a time beyond 4 months following a nerve crush or ligation and this loss is, moreover, limited to cells with unmyelinated axons, the C-fibers. The late loss of C-fibers may be due to a lack of target reinnervation during the regenerative phase. In order to investigate this, we have used a particular peripheral function, unique to C-fibers, as a measure of peripheral reinnervation: an increase in capillary permeability on antidromic activation of C-fibers, i.e., neurogenic extravasation. This was investigated in rats that had received a nerve crush injury 1 to 50 weeks earlier. Some recovery of the capacity of C-fibers to generate extravasation was detected at 8–10 weeks, which increased further at 12–14 weeks, and then plateaued at this level with no further recovery at 30 or 50 weeks. In intact and damaged sciatic nerves, Aβ-fibers never induced extravasation. These findings are compatible with the hypothesis that those C-fibers which make it back to their peripheral targets do not subsequently die and those that do not, may die.

Published

1999

6. Urodynamical and neuro-anatomical approaches of an experimental model of interstitial cystitis

Author

Jacques Bernabé, Karell Mevel, François Giuliano, El-Djouher Yaici, Hervé Bester, and Gérard Benoit

Subjects

Pathology, medicine.medical_specialty, business.industry, Experimental model, Urology, Medicine, Interstitial cystitis, business, medicine.disease

Published

2002

7. Sperm expulsion-like reflex activity in perineal striatal muscles can be elicited by electric

Author

Emmanuel Chartier-Kastler, Miguel Laurin, Hervé Bester, Gérard Benoit, Pierre Denys, Jacques Bernabé, and François Giuliano

Subjects

medicine.medical_specialty, Endocrinology, business.industry, Urology, Internal medicine, medicine, Reflex, business, Sperm

Published

2002

8. The NK1 receptor is essential for the full expression of noxious inhibitory controls in the mouse

Author

Hervé Bester, Carmen De Felipe, and Stephen P. Hunt

Subjects

medicine.medical_specialty, Hot Temperature, Pain, Cell Count, Mice, Inbred Strains, Substance P, c-Fos, Periaqueductal gray, Mice, chemistry.chemical_compound, Neurokinin-1 Receptor Antagonists, Stress, Physiological, Internal medicine, Conditioning, Psychological, Forelimb, medicine, Animals, ARTICLE, Crosses, Genetic, Pain Measurement, Mice, Knockout, Nucleus raphe magnus, integumentary system, biology, Chemistry, General Neuroscience, Diffuse noxious inhibitory control, Lumbosacral Region, Brain, Neural Inhibition, Receptors, Neurokinin-1, Spinal cord, Immunohistochemistry, Hindlimb, medicine.anatomical_structure, Endocrinology, Nociception, Spinal Cord, biology.protein, Rostral ventromedial medulla, Proto-Oncogene Proteins c-fos, Neuroscience, Neck, Brain Stem

Abstract

Behavioral analysis of the NK1 receptor gene knock-out (NK1-/-) mouse indicated that substance P was closely involved in orchestrating the physiological and behavioral response of the animal to major environmental stressors. In particular, endogenous pain control mechanisms, such as stress-induced analgesia were substantially impaired in mutant mice, suggesting a reduction in descending inhibitory controls to the spinal cord from the brainstem. To directly test the integrity of descending controls in NK1-/- mice, we have analyzed c-Fos expression in laminae I-II of the lumbar and cervical cord and in the rostral ventromedial medulla in an experimental paradigm known to require recruitment of descending inhibitory controls. Anesthetized mice were stimulated with water at 50 degrees C either on their forepaw, hindpaw, or on both the hindpaw plus forepaw concurrently. Wild-type mice, naive or treated with an NK1 antagonist (RP67580) or its inactive isomer (RP68651), were compared with NK1-/- mice. C-Fos expression at the lumbar laminae I-II level was significantly reduced, whereas it was significantly greater in the raphe magnus and pallidus nuclei in the double stimulation situation in wild-type compared with NK1-/- mice. Blocking the NK1 receptor pharmacologically reproduced, in an enantiomere-selective manner, the data from NK1-/- mice, with no evidence for recruitment of descending inhibition at the lumbar cord level after forepaw stimulation. The present study demonstrates that the NK1 receptor is essential for the full development of noxiously evoked descending inhibition.