about
Glyoxalase-1 overexpression in bone marrow cells reverses defective neovascularization in STZ-induced diabetic mice.Evaluation of a collagen-chitosan hydrogel for potential use as a pro-angiogenic site for islet transplantationHigh-throughput Functional Genomics Identifies Regulators of Primary Human Beta Cell Proliferation.Co-culturing monocytes with smooth muscle cells improves cell distribution within a degradable polyurethane scaffold and reduces inflammatory cytokines.The effect of degradable polymer surfaces on co-cultures of monocytes and smooth muscle cells.Role of protein kinase C in the monocyte-derived macrophage-mediated biodegradation of polycarbonate-based polyurethanes.Full-Length Glycosylated Gag of Murine Leukemia Virus Can Associate With The Viral Envelope as a Type I Integral Membrane Protein.The interaction between hydrolytic and oxidative pathways in macrophage-mediated polyurethane degradation.Collagen-chitosan-laminin hydrogels for the delivery of insulin-producing tissue.Characterization of a degradable polar hydrophobic ionic polyurethane with circulating angiogenic cells in vitro.Is cell culture stressful? Effects of degradable and nondegradable culture surfaces on U937 cell functionTissue engineering a small diameter vessel substitute: engineering constructs with select biomaterials and cellsBiodegradation and in vivo biocompatibility of a degradable, polar/hydrophobic/ionic polyurethane for tissue engineering applicationsEffect of polyurethane chemistry and protein coating on monocyte differentiation towards a wound healing phenotype macrophageUse of monocyte/endothelial cell co-cultures (in vitro) and a subcutaneous implant mouse model (in vivo) to evaluate a degradable polar hydrophobic ionic polyurethaneDifferentiation of monocytes on a degradable, polar, hydrophobic, ionic polyurethane: Two-dimensional films vs. three-dimensional scaffolds
P50
Q31144176-2654977E-8802-46C7-B0B8-799CC65D1670Q35035364-BEFC180B-C398-4F02-81AE-EE402905696EQ36744551-C025AB34-F1F9-4408-BDC5-CD2B1C10F6A3Q44659991-F647B32A-DBF0-4A84-AAE6-8B74BE675DC6Q45008190-C89A4030-A930-4078-AC31-25520032BF78Q46688696-36A874BC-5796-4180-9DCB-B3FB9071BCA3Q47234345-D7B057E6-A98C-4FA3-8BF9-80F9B3F1ED69Q51056474-297DCBCF-AE6C-4244-B5DD-373975ACD650Q51774740-55C9D194-8A6A-4BEC-89A0-EAC4AEA797F6Q53044778-CB5A4689-331C-473A-A94A-E7F2D21AAE0DQ80570642-3066FB8E-42D6-47BD-92E8-028EC819E4B0Q83219369-91AECA39-C6A9-4CD9-B279-1D00933FAC2FQ84275481-55541CE4-B1A5-447D-BB86-35E07560FCCEQ84300445-73682760-3289-45C7-BEF7-4484EB14F734Q84725772-BC5B8A6A-C0EE-4C0B-A9B7-71332A31E7C1Q84782394-6E4C0616-094E-400D-A5FB-CCE1A9DFEC19
P50
description
researcher ORCID ID = 0000-0002-9053-4668
@en
wetenschapper
@nl
name
Joanne E McBane
@ast
Joanne E McBane
@en
Joanne E McBane
@es
Joanne E McBane
@nl
type
label
Joanne E McBane
@ast
Joanne E McBane
@en
Joanne E McBane
@es
Joanne E McBane
@nl
prefLabel
Joanne E McBane
@ast
Joanne E McBane
@en
Joanne E McBane
@es
Joanne E McBane
@nl
P106
P1153
8673255300
P31
P496
0000-0002-9053-4668