about
Intravital immunofluorescence for visualizing the microcirculatory and immune microenvironments in the mouse ear dermisA spatiotemporal characterization method for the dynamic cytoskeletonSubablative Er:YAG laser effect on enamel demineralization.Migration dynamics of breast cancer cells in a tunable 3D interstitial flow chamber.Characterization of membrane materials and membrane coatings for bioreactor units of bioartificial kidneys.Radio-translucent 3-axis mechanical testing rig for the spine in micro-CT.Discovery of Rab1 binding sites using an ensemble of clustering methods.Surface characteristics of acrylic modified polysulfone membranes improves renal proximal tubule cell adhesion and spreading.Cell immobilization in gelatin-hydroxyphenylpropionic acid hydrogel fibers.Quantification of sterol-specific response in human macrophages using automated imaged-based analysis.Nanotopographic Regulation of Human Mesenchymal Stem Cell Osteogenesis.Non-invasive single-cell biomechanical analysis using live-imaging datasets.Efficient transdifferentiation of human dermal fibroblasts into skeletal muscle.In-depth evaluation of commercially available human vascular smooth muscle cells phenotype: Implications for vascular tissue engineering.Preliminary study on biomechanics of vertebroplasty: a computational fluid dynamics and solid mechanics combined approach.Heterogeneous meshing and biomechanical modeling of human spine.Relationship between CT intensity, micro-architecture and mechanical properties of porcine vertebral cancellous bone.Computational biomechanical modelling of the lumbar spine using marching-cubes surface smoothened finite element voxel meshing.In Vitro Immune Organs-on-Chip for Drug Development: A ReviewPermeability study of vertebral cancellous bone using micro-computational fluid dynamicsDeconstructing Immune Microenvironments of Lymphoid Tissues for Reverse EngineeringCollagen Fibril Density Modulates Macrophage Activation and Cellular Functions during Tissue Repair
P50
Q27313621-E0E49640-6033-4240-8825-5B775238C6B9Q28818191-1B5E1227-9CD7-440A-A01C-C23513C38448Q34467717-014C0FD1-EE4F-4495-9D52-C41FD35A349EQ39432799-B5995F9C-8961-4ED2-8D9C-1AD08E03AC87Q39621957-42A0AE74-9497-42F4-928A-4939F1146095Q39777820-6D40609F-2C16-40B0-82B8-43D75AF2440CQ40359179-299DE9E2-B771-4C6A-BDC1-CAC25DAD6A3DQ42482588-246949C9-A127-43DB-8C7A-C509BF6699D9Q46763012-51580057-ADBA-4CE0-B614-0254495FE1FCQ47136882-E384728B-9B06-46FA-9DCF-2DDFF5C1D4FFQ47286292-B5E637B0-7FA7-49FF-AA08-BD0EFC577A88Q48055325-32E82FB9-A553-4679-A023-C416B73552FBQ48336711-570B72CB-4FAD-4F24-98F4-F015DA3066B9Q50666036-E4A1E866-2458-47B9-B87C-07EA8BB9E42EQ50999507-CEA73802-C498-4E35-85F0-BEF9E161DF9BQ51209263-06165613-2146-47AB-8669-5F54ADCEBC59Q51304082-FEDE7646-A503-4A78-B771-138D9D4460C8Q51390085-B53647FC-2633-4319-8C95-89E5A968A97BQ60953886-7938B7EE-6779-4AFD-A3A7-D7C2D97922DDQ83181143-8B472C19-3CD3-4DFE-9B6C-1C00B7C658C3Q90267573-3341A1F1-FDF1-42FF-8AA9-937E9720BDD9Q91542425-30ED6824-08E8-4E53-BF8B-A859B8E0BBC8
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jeremy Teo
@ast
Jeremy Teo
@en
Jeremy Teo
@es
Jeremy Teo
@nl
Jeremy Teo
@sl
type
label
Jeremy Teo
@ast
Jeremy Teo
@en
Jeremy Teo
@es
Jeremy Teo
@nl
Jeremy Teo
@sl
altLabel
CM Teo J Teo
@en
prefLabel
Jeremy Teo
@ast
Jeremy Teo
@en
Jeremy Teo
@es
Jeremy Teo
@nl
Jeremy Teo
@sl
P1053
D-7590-2015
P106
P1153
36781435200
P1960
ebgQ1ncAAAAJ
P21
P2798
P31
P3829
P496
0000-0001-6869-3833