about
Bone Injury and Repair Trigger Central and Peripheral NPY Neuronal Pathways.Neuropeptide Y and osteoblast differentiation--the balance between the neuro-osteogenic network and local control.Fracture pain-Traveling unknown pathways.Communication from the periphery to the hypothalamus through the blood-brain barrier: An in vitro platform.Therapeutic Drugs in Bone Loss-Associated Disorders: Clinical Outcomes and Challenges.Compartmentalized Microfluidic Platforms: The Unrivaled Breakthrough of In Vitro Tools for Neurobiological Research.Sensory neurons and osteoblasts: close partners in a microfluidic platform.Ablation of Y1 receptor impairs osteoclast bone-resorbing activity.Axonal outgrowth, neuropeptides expression and receptors tyrosine kinase phosphorylation in 3D organotypic cultures of adult dorsal root ganglia.Microfluidics co-culture systems for studying tooth innervation.Microfluidic-based platform to mimic the in vivo peripheral administration of neurotropic nanoparticles.Compartmentalized Microfluidic Platforms as Tool of Choice to Study the Interaction Between Neurons and OsteoblastsOn the role of subtype selective adenosine receptor agonists during proliferation and osteogenic differentiation of human primary bone marrow stromal cellsOsteoclasts control sensory neurons axonal growth through epidermal growth factor receptor signalingBone marrow cell response after injury and during early stage of regeneration is independent of the tissue-of-injury in 2 injury modelsAn in vitro approach to unravel the modulation of the hypothalamic system by blood-circulating factorsµSpikeHunter: An advanced computational tool for the analysis of neuronal communication and action potential propagation in microfluidic platformsHuman dental pulp stem cells exhibit enhanced properties in comparison to human bone marrow stem cells on neurites outgrowthThe alliance between nerve fibers and stem cell populations in bone marrow: life partners in sickness and healthThe lack of neuropeptide Y-Y1 receptor signaling modulates the chemical and mechanical properties of bone matrixOsteoblasts are inherently programmed to repel sensory innervation
P50
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P50
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Estrela Neto
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P1053
M-2561-2013
P106
P1153
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