about
Imaging neuroinflammation in vivo in a neuropathic pain rat model with near-infrared fluorescence and ¹⁹F magnetic resonanceCyclooxgenase-2 inhibiting perfluoropoly (ethylene glycol) ether theranostic nanoemulsions-in vitro studyEvaluating learning and attitudes on tissue engineering: a study of children viewing animated digital dome shows detailing the biomedicine of tissue engineering.Ttk69-dependent repression of lozenge prevents the ectopic development of R7 cells in the Drosophila larval eye discIn vivo and systems biology studies implicate IL-18 as a central mediator in chronic pain.Coexpression of Drosophila TRP and TRP-like proteins in Xenopus oocytes reconstitutes capacitative Ca2+ entry.Summer undergraduate research: A new pipeline for pain clinical practice and research.Automated light microscopy for the study of the brain: cellular and molecular dynamics, development, and tumorigenesis.Two-color fluorescent (near-infrared and visible) triphasic perfluorocarbon nanoemuslions.Yan regulates Lozenge during Drosophila eye development.C-terminal domains within human MT1 and MT2 melatonin receptors are involved in internalization processes.Helmsman is expressed in both trachea and photoreceptor development: partial inactivation alters tracheal morphology and visually guided behavior.Analysis of microsomal flavoproteins from Phycomyces sporangiophores: Candidates for the blue-light photoreceptor.A family-centered educational program to promote independence in pediatric heart transplant recipients.Low-dose NSAIDs reduce pain via macrophage targeted nanoemulsion delivery to neuroinflammation of the sciatic nerve in rat.Backward design as a mobile application development strategyDifferential Expression of Neuroinflammatory mRNAs in the Rat Sciatic Nerve Following Chronic Constriction Injury and Pain-Relieving Nanoemulsion NSAID Delivery to Infiltrating MacrophagesNanomedicine-driven neuropathic pain relief in a rat model is associated with macrophage polarity and mast cell activationA New Best Practice for Validating Tail Vein Injections in Rat with Near-infrared-Labeled Agents
P50
Q27317567-DFFC9310-646C-44F4-A0D9-91618ED1CD66Q28486071-56EBEFE9-6BE1-49DF-8983-463F21A5C86FQ30505528-88551F28-8CE7-41D4-AE3D-2C9A8F20E0BAQ33517870-0ED91DC1-E7E9-485D-93C4-78FDCD96E40FQ35735946-99B665E2-171F-41DE-B560-AC186583A11CQ35946253-B66E0AFF-DB72-48BE-B953-3F8E5B223C4CQ36008011-E453A24A-3C7D-4836-BFE9-A81C8DD28BDAQ36873117-C424EBDB-CE12-4408-BF7C-4347FDB11AA2Q37064676-DFC82B4A-E786-4C5E-A0CA-A1AA4939ABA5Q42680050-3D7FAD3B-6685-4C28-B81C-1A07AB7BB509Q46701612-53DC5229-428C-47FD-B81D-BB1896ED05DFQ47071047-3D64B577-4967-4213-82E4-583ED0F731FBQ47716823-96B1427F-28BB-4275-9D2D-A18830E2D852Q51040413-8444E7A0-6217-4A21-BD9C-58D1144199AAQ51742640-C79125ED-113D-437C-8E16-DF779DDC3EF9Q64241697-338BAF74-C880-447A-B1E3-1CD2C5BA08BBQ90945991-01E16948-9D97-4FE5-9A67-72B05240916FQ91660742-36B88FBC-31B8-40C2-9E41-64C3E93E4F71Q91784389-8DA22FAC-08B9-4E06-AD15-330B767818C5
P50
description
researcher ORCID ID = 0000-0001-6602-3676
@en
wetenschapper
@nl
name
John A Pollock
@ast
John A Pollock
@en
John A Pollock
@es
John A Pollock
@nl
type
label
John A Pollock
@ast
John A Pollock
@en
John A Pollock
@es
John A Pollock
@nl
prefLabel
John A Pollock
@ast
John A Pollock
@en
John A Pollock
@es
John A Pollock
@nl
P108
P106
P1153
7203035306
P31
P496
0000-0001-6602-3676