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A.D. (Bud) Craig
Researcher at Barrow Neurological Institute
Publications - 87
Citations - 23906
A.D. (Bud) Craig is an academic researcher from Barrow Neurological Institute. The author has contributed to research in topics: Spinothalamic tract & Spinal cord. The author has an hindex of 50, co-authored 87 publications receiving 21835 citations. Previous affiliations of A.D. (Bud) Craig include Linköping University.
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Journal ArticleDOI
Thermoreceptive lamina I trigeminothalamic neurons project to the nucleus submedius in the cat
TL;DR: This finding indicates that Sm receives thermoreceptive in addition to nociceptive information in the medial thalamus of the cat.
Journal ArticleDOI
Lamina I, but not lamina V, spinothalamic neurons exhibit responses that correspond with burning pain.
TL;DR: Single-unit recordings from monkey spinothalamic tract neurons reveal that the responses of polymodal nociceptive lamina I STT neurons correspond with the profile of burning pain elicited in human subjects by repeated brief-contact heat.
Journal ArticleDOI
Psychological and neural mechanisms of subjective time dilation.
Virginie van Wassenhove,Virginie van Wassenhove,Virginie van Wassenhove,Marc Wittmann,Marc Wittmann,A.D. (Bud) Craig,Martin P. Paulus,Martin P. Paulus +7 more
TL;DR: An event-related functional magnetic neuroimaging study on the time dilation effect revealed an increased activation of the anterior insula and the anterior cingulate cortex in the context of self-referential processes.
Journal ArticleDOI
Is there a specific lamina I spinothalamocortical pathway for pain and temperature sensations in primates
TL;DR: The evidence indicates a view of ascending pain pathways that is conceptually distinct from Willis et al's view, as well as addressing a few major issues raised in their article.
Journal ArticleDOI
Control of size and excitability of mechanosensory receptive fields in dorsal column nuclei by homolateral dorsal horn neurons.
Robert W. Dykes,A.D. (Bud) Craig +1 more
TL;DR: The receptive fields of mechanosensory neurons of the dorsal column nuclei were studied and it is inferred that the control of neuronal excitability, receptive field size and location for lemniscal neurons is determined by tonic afferent activity that is relayed through a synapse in the dorsal horn.