about
Spinal afferent nerve endings in visceral organs: recent advances.Identification of different functional types of spinal afferent neurons innervating the mouse large intestine using a novel CGRPα transgenic reporter mouse.Measurement of strains experienced by viscerofugal nerve cell bodies during mechanosensitive firing using digital image correlation.Damage from dissection is associated with reduced neuro-musclar transmission and gap junction coupling between circular muscle cells of guinea pig ileum, in vitro.Identifying unique subtypes of spinal afferent nerve endings within the urinary bladder of mice.Techniques to identify and temporally correlate calcium transients between multiple regions of interest in vertebrate neural circuits.Imaging activation of peptidergic spinal afferent varicosities within visceral organs using novel CGRPα-mCherry reporter mice.Neurogenic and myogenic patterns of electrical activity in isolated intact mouse colon.Synaptic activation of putative sensory neurons by hexamethonium-sensitive nerve pathways in mouse colon.Visceral pain - Novel approaches for optogenetic control of spinal afferents.Different types of spinal afferent nerve endings in stomach and esophagus identified by anterograde tracing from dorsal root ganglia.Morphological evidence for novel enteric neuronal circuitry in guinea pig distal colonNeurochemical characterization of extrinsic nerves in myenteric ganglia of the guinea pig distal colonTargeted electrophysiological analysis of viscerofugal neurons in the myenteric plexus of guinea-pig colonIdentification and mechanosensitivity of viscerofugal neuronsViscerofugal neurons recorded from guinea-pig colonic nerves after organ cultureIdentification of multiple distinct neurogenic motor patterns that can occur simultaneously in the guinea-pig distal colonSpinal Afferent Innervation of the Colon and RectumQuantitative immunohistochemical co-localization of TRPV1 and CGRP in varicose axons of the murine oesophagus, stomach and colorectumOptogenetic Induction of Colonic Motility in MiceIdentification of a Rhythmic Firing Pattern in the Enteric Nervous System That Generates Rhythmic Electrical Activity in Smooth MuscleIntrinsic sensory neurons provide direct input to motor neurons and interneurons in mouse distal colon via varicose basketsDistribution, projections, and association with calbindin baskets of motor neurons, interneurons, and sensory neurons in guinea-pig distal colonNeural motor complexes propagate continuously along the full length of mouse small intestine and colonDiversity of neurogenic smooth muscle electrical rhythmicity in mouse proximal colon
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description
investigador
@es
researcher
@en
wetenschapper
@nl
name
T J Hibberd
@en
T J Hibberd
@nl
type
label
T J Hibberd
@en
T J Hibberd
@nl
prefLabel
T J Hibberd
@en
T J Hibberd
@nl
P31
P496
0000-0002-3747-140X