about
Prevalence of scar contractures after burn: A systematic review.Individual differences in learning a novel discrete motor task.Design of a cross-sectional study on physical fitness and physical activity in children and adolescents after burn injuryCentral nervous system control of micturition.Joint-Angle Coordination Patterns Ensure Stabilization of a Body-Plus-Tool System in Point-to-Point Movements with a Rod.Physical fitness in people after burn injury: a systematic review.Fatigue in patients with juvenile idiopathic arthritis: A systematic review of the literature.Does practicing a wide range of joint angle configurations lead to higher flexibility in a manual obstacle-avoidance target-pointing task?Nucleus retroambiguus projections to the periaqueductal gray in the cat.How disabling are pediatric burns? Functional independence in Dutch pediatric patients with burns.Two parts of the nucleus prepositus hypoglossi project to two different subdivisions of the dorsolateral periaqueductal gray in cat.The nucleus para-retroambiguus: a new group of estrogen receptive cells in the caudal ventrolateral medulla of the female golden hamster.The effect of the height to which the hand is lifted on horizontal curvature in horizontal point-to-point movements.Less than 15% of the spinothalamic fibers originate from neurons in lamina I in cat.How many spinothalamic tract cells are there? A retrograde tracing study in cat.Afferent projections to pharynx and soft palate motoneurons: a light and electron microscopical tracing study in the cat.Three times as many lamina I neurons project to the periaqueductal gray than to the thalamus: a retrograde tracing study in the cat.The ventrolateral upper cervical cell group in cat projects to all rostrocaudal levels of the periaqueductal gray matter.Direct projections from the sacral spinal cord to the medial preoptic area in cat and guinea pig.Large segmental differences in the spinal projections to the periaqueductal gray in the cat.Periparabigeminal and adjoining mesencephalic tegmental field projections to the dorsolateral periaqueductal grey in cat - a possible role for oculomotor input in the defensive system.In cat four times as many lamina I neurons project to the parabrachial nuclei and twice as many to the periaqueductal gray as to the thalamus.Neurons in the lateral sacral cord of the cat project to periaqueductal grey, but not to thalamus.C1-C3 spinal cord projections to periaqueductal gray and thalamus: a quantitative retrograde tracing study in cat.Lamina I-periaqueductal gray (PAG) projections represent only a limited part of the total spinal and caudal medullary input to the PAG in the cat.Estrous cycle-dependent neural plasticity in the caudal brainstem in the female golden hamster: ultrastructural and immunocytochemical studies of axo-dendritic relationships and dynamic remodeling.Ultrastructural evidence for a direct excitatory pathway from the nucleus retroambiguus to lateral longissimus and quadratus lumborum motoneurons in the female golden hamster.Afferent projections to the pontine micturition center in the cat.Perceived fatigue following pediatric burnsThe periaqueductal gray in the cat projects to lamina VIII and the medial part of lamina VII throughout the length of the spinal cordLateral cervical nucleus projections to periaqueductal gray matter in catSegmental and laminar organization of the spinothalamic neurons in cat: evidence for at least five separate clustersAnthropometry, muscular strength and aerobic capacity up to 5 years after pediatric burns
P50
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P50
description
hulumtuese
@sq
onderzoeker
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researcher
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հետազոտող
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name
Leonora J. Mouton
@en
Leonora J. Mouton
@es
Leonora J. Mouton
@sl
Leonora Mouton
@nl
type
label
Leonora J. Mouton
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Leonora J. Mouton
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Leonora J. Mouton
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Leonora Mouton
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L. Mouton
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L.J. Mouton
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Leonora J. Mouton
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Leonora J. Mouton
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Leonora J. Mouton
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Leonora J. Mouton
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Leonora Mouton
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P106
P1153
6701679582
P21
P31
P3835
leonora-j-mouton
P496
0000-0001-8389-2013