about
A Cell Derived Active Contour (CDAC) method for robust tracking in low frame rate, low contrast phase microscopy - an example: the human hNT astrocyte.Neuroprotective potential of CB1 receptor agonists in an in vitro model of Huntington's disease.Infra-red laser ablative micromachining of parylene-C on SiO2 substrates for rapid prototyping, high yield, human neuronal cell patterning.Cannabinoid Receptors: A brief history and what notLow cost, patterning of human hNT brain cells on parylene-C with UV & IR laser machining.Adult human glia, pericytes and meningeal fibroblasts respond similarly to IFNy but not to TGFβ1 or M-CSF.Exposure to inflammatory cytokines IL-1β and TNFα induces compromise and death of astrocytes; implications for chronic neuroinflammation.Pro-inflammatory TNFα and IL-1β differentially regulate the inflammatory phenotype of brain microvascular endothelial cells.Statins Inhibit Fibrillary β-Amyloid Induced Inflammation in a Model of the Human Blood Brain Barrier.Neuromedin U and Neuromedin U receptor-2 expression in the mouse and rat hypothalamus: effects of nutritional status.TGF-beta1 regulates human brain pericyte inflammatory processes involved in neurovasculature function.Regulation of human cerebro-microvascular endothelial baso-lateral adhesion and barrier function by S1P through dual involvement of S1P1 and S1P2 receptors.Application of xCELLigence RTCA Biosensor Technology for Revealing the Profile and Window of Drug Responsiveness in Real Time.Enrichment of differentiated hNT neurons and subsequent analysis using flow-cytometry and xCELLigence sensing.Improving active contour methods for tracking endothelial cells by the removal of low-confidence edge segments.Detailed analysis of inflammatory and neuromodulatory cytokine secretion from human NT2 astrocytes using multiplex bead array.Characterization of NTera2/D1 cells as a model system for the investigation of cannabinoid function in human neurons and astrocytes.First human hNT neurons patterned on parylene-C/silicon dioxide substrates: Combining an accessible cell line and robust patterning technology for the study of the pathological adult human brain.Induction of Krox-24 by endogenous cannabinoid type 1 receptors in Neuro2A cells is mediated by the MEK-ERK MAPK pathway and is suppressed by the phosphatidylinositol 3-kinase pathway.Cultured pericytes from human brain show phenotypic and functional differences associated with differential CD90 expression.oPer1 is an early response gene under photoperiodic regulation in the ovine pars tuberalis.Plasmin and regulators of plasmin activity control the migratory capacity and adhesion of human T cells and dendritic cells by regulating cleavage of the chemokine CCL21.Photoperiodic regulation of cellular retinol binding protein, CRBP1 [corrected] and nestin in tanycytes of the third ventricle ependymal layer of the Siberian hamster.Development of positive control tissue for in situ hybridisation using Alvetex scaffolds.Human astrocytic grid networks patterned in parylene-C inlayed SiO2 trenches.Sensitive and accurate quantification of human leukocyte migration using high-content Discovery-1 imaging system and ATPlite assay.
P50
Q30559802-EA7BA019-1A7A-41A8-8DCC-3EEF3D1F9552Q34098292-F430DCCE-EE60-4901-937D-5F21BA51D7D0Q34610492-A3562327-5975-474E-93E6-BF2D198BC860Q34959695-F224D5E1-9021-4194-BBED-BE7131655AB7Q35012975-9D4930D4-F7D1-4C26-BA1C-6B40D2D2DD88Q35067317-82FDBC0A-1F53-4566-B831-D645F05CACA4Q35075732-75774018-1F66-486C-B2EE-82556E61B2C7Q35863216-1027C440-0DD5-4448-82E4-4C4194149778Q36054103-6B7CCBBE-CCDC-4321-881E-4A0B0D482C16Q38347995-27811DF7-A36C-4FCD-8A10-98BDADFFBA35Q38384707-AC2024D7-A80F-47FA-A927-0F42E238C119Q38799282-D6CCC91E-282E-43C7-B6AF-8E16D04DB224Q38884578-E966746C-927A-4E78-8683-A44E8B34D3FAQ39023567-4CDD667F-7107-4AE8-8EAF-BF9D43FA0351Q39201678-0265BF7F-24D3-4F28-99A0-5E2154536040Q39469802-A34555A2-E7B3-4AC1-A030-C298F9A98B2EQ39524238-CDBA2374-EBBB-4AC2-B4A8-351C9DE79EFDQ39646564-C7C8A4DF-2093-4393-B3E0-57F3E5F0EDDCQ40251961-6C6CE1F4-72D5-4334-83CA-7C4FEAB7A984Q41896223-B45CAA94-766D-4C79-B8C1-81F928780228Q47848692-E810AB55-E485-41F3-BBD5-7CD06794F1ABQ48200395-585C00CB-0A44-44D0-9425-B5CEB1B9367FQ48337398-214DC3C9-C01E-45CE-88A6-F76CB87DBF65Q48525381-5F2C5F8E-640B-45F6-82E3-0D9E744FBB50Q48572634-E7EDB930-62DF-43A2-A21C-806177C13757Q48801306-E7ADAA8F-E10D-4149-B05D-E220911E882A
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Scott E Graham
@ast
Scott E Graham
@en
Scott E Graham
@es
Scott E Graham
@nl
type
label
Scott E Graham
@ast
Scott E Graham
@en
Scott E Graham
@es
Scott E Graham
@nl
prefLabel
Scott E Graham
@ast
Scott E Graham
@en
Scott E Graham
@es
Scott E Graham
@nl
P106
P1153
14826342400
P31
P496
0000-0002-2925-9126