Deolinda Lima spends much of her time researching Spinal cord, Anatomy, Nociception, Neuroscience and Medulla oblongata. In the field of Anatomy, her study on Lamina overlaps with subjects such as Wheat germ agglutinin. Her study in the fields of Noxious stimulus under the domain of Nociception overlaps with other disciplines such as Homeobox.
Anesthesia is closely connected to Stimulation in her research, which is encompassed under the umbrella topic of Noxious stimulus. Deolinda Lima works in the field of Neuroscience, focusing on Chronic pain in particular. As part of the same scientific family, she usually focuses on Medulla oblongata, concentrating on Reticular formation and intersecting with Nociceptor.
Deolinda Lima mainly investigates Neuroscience, Spinal cord, Nociception, Anatomy and Chronic pain. As part of her studies on Neuroscience, Deolinda Lima often connects relevant areas like Spinal Cord Dorsal Horn. Her Spinal cord research incorporates themes from Medulla, Anesthesia, Inhibitory postsynaptic potential and Medulla oblongata.
The study incorporates disciplines such as Endocrinology, Stimulation and Central nervous system in addition to Nociception. Her work deals with themes such as Cholera toxin and Nucleus, which intersect with Anatomy. Her Chronic pain research focuses on Prefrontal cortex and how it relates to Spatial memory and Working memory.
Her primary areas of study are Neuroscience, Homeobox, Spinal cord, Cell biology and Neuropathic pain. Her Spinal cord research is multidisciplinary, incorporating elements of Spinal Cord Dorsal Horn, Nuclear localization sequence, Inhibitory postsynaptic potential and Nociception. The Spinal Cord Dorsal Horn study combines topics in areas such as Glutamatergic, Anatomy, Neuron and Excitatory postsynaptic potential.
Her Inhibitory postsynaptic potential study which covers Medulla oblongata that intersects with Anesthesia. The various areas that she examines in her Nociception study include Stimulus, Electrophysiology and Reticular activating system, Reticular formation. Her research in Neuropathic pain intersects with topics in Immunohistochemistry, Internal medicine, Epidemiology, Endocrinology and Pain catastrophizing.
The scientist’s investigation covers issues in Neuroscience, Chronic pain, Prefrontal cortex, Premovement neuronal activity and Neuropathic pain. Deolinda Lima does research in Neuroscience, focusing on Neuroimaging specifically. Deolinda Lima works mostly in the field of Chronic pain, limiting it down to topics relating to Local field potential and, in certain cases, Circadian rhythm, Cortex, Thalamus, Recurrent thalamo-cortical resonance and Somatosensory system.
Her Prefrontal cortex research is multidisciplinary, incorporating perspectives in Working memory, Spatial memory and Inflammatory pain. Her work carried out in the field of Spatial memory brings together such families of science as Biological neural network and Spatial cognition. Deolinda Lima combines subjects such as Hippocampus, Nerve injury and Orbitofrontal cortex with her study of Premovement neuronal activity.
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A Golgi study of the neuronal population of the marginal zone (lamina I) of the rat spinal cord
Deolinda Lima;Antonio Coimbra.
The Journal of Comparative Neurology (1986)
The spinothalamic system of the rat: structural types of retrogradely labelled neurons in the marginal zone (lamina I).
D. Lima;A. Coimbra.
The medullary dorsal reticular nucleus as a pronociceptive centre of the pain control system.
Deolinda Lima;Armando Almeida.
Progress in Neurobiology (2002)
The spino-latero-reticular system of the rat: projections from the superficial dorsal horn and structural characterization of marginal neurons involved.
D. Lima;J.A. Mendes-Ribeiro;A. Coimbra.
Morphological types of spinomesencephalic neurons in the marginal zone (lamina I) of the rat spinal cord, as shown after retrograde labelling with cholera toxin subunit B.
Deolinda Lima;Antonio Coimbra.
The Journal of Comparative Neurology (1989)
The paired homeodomain protein DRG11 is required for the projection of cutaneous sensory afferent fibers to the dorsal spinal cord
Zhou Feng Chen;Sandra Rebelo;Fletcher White;Fletcher White;Annika B. Malmberg.
Differential activation of c-fos in spinal neurones by distinct classes of noxious stimuli
Deolinda Lima;A. Avelino;A. Coimbra.
Cognitive impairment of prefrontal-dependent decision-making in rats after the onset of chronic pain
M. Pais-Vieira;M.M. Mendes-Pinto;D. Lima;V. Galhardo.
Impaired spatial memory performance in a rat model of neuropathic pain is associated with reduced hippocampus-prefrontal cortex connectivity.
Helder Cardoso-Cruz;Deolinda Lima;Vasco Galhardo.
The Journal of Neuroscience (2013)
Orbitofrontal cortex lesions disrupt risk assessment in a novel serial decision-making task for rats.
M. Pais-Vieira;D. Lima;D. Lima;V. Galhardo;V. Galhardo.
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