about
Covalently immobilized glycosaminoglycans enhance megakaryocyte progenitor expansion and platelet releaseComparison of morphology, orientation, and migration of tendon derived fibroblasts and bone marrow stromal cells on electrochemically aligned collagen constructs.Incorporation of a decorin biomimetic enhances the mechanical properties of electrochemically aligned collagen threadsTenogenic Induction of Human MSCs by Anisotropically Aligned Collagen Biotextiles.Fabrication of compositionally and topographically complex robust tissue forms by 3D-electrochemical compaction of collagenSaos-2 cell-mediated mineralization on collagen gels: Effect of densification and bioglass incorporation.Osteoblasts detect pericellular calcium concentration increase via neomycin-sensitive voltage gated calcium channels.Genipin as a sporicidal agent for the treatment of cortical bone allografts.Tenogenic differentiation of human MSCs induced by the topography of electrochemically aligned collagen threads.Anticancer efficacy of tannic acid is dependent on the stiffness of the underlying matrix.Bioglass incorporation improves mechanical properties and enhances cell-mediated mineralization on electrochemically aligned collagen threads.In vitro characterization of electrochemically compacted collagen matrices for corneal applications.Impact of elastin incorporation into electrochemically aligned collagen fibers on mechanical properties and smooth muscle cell phenotype.A scaffold-free multicellular three-dimensional in vitro model of osteogenesis.Physically Crosslinked Nanocomposites from Silicate-Crosslinked PEO: Mechanical Properties and Osteogenic Differentiation of Human Mesenchymal Stem CellsGenipin crosslinking elevates the strength of electrochemically aligned collagen to the level of tendons
P50
Q33393835-730B76EC-C5C9-4853-871E-A5E4FB4666B7Q34058597-8C905AA0-A687-463C-B551-E8A67A066D1CQ34900615-33FF1701-5A99-4C57-9D86-6EC2406CBFE6Q35146710-3F39586F-E5A3-43F0-BA1A-FBD756A394EBQ35811537-C55E263B-75C6-4E70-9AD1-8572020B4144Q38805122-03C38B9E-9CE8-4511-94D1-F1136A9D8183Q39291363-614E35B9-1A93-4984-A908-C22861B79EE7Q39304987-86C414B4-E2B3-428F-8C5D-28D09A4B322DQ41110547-69EDFD0C-33D3-4039-87CB-E055BB432474Q47212791-2EDB7037-7C2D-4E25-8AE1-A5D1945DA6E5Q50648260-A2A1CA10-C27D-46F0-8159-DA09C543F9B9Q51144261-3EEE1FBA-8BD0-48C3-8DBE-092140EE3779Q51438045-3223CE31-1B0E-47BE-BE90-531D5C675A91Q53268344-4C66FBB6-5FD5-4E10-A2B0-558BBEA8C60FQ61951699-CC3B1BA7-E744-4527-B835-8829B182C404Q87405604-CFD463A4-ACAC-4E11-A329-A2683811B279
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Vipuil Kishore
@ast
Vipuil Kishore
@en
Vipuil Kishore
@es
Vipuil Kishore
@nl
Vipuil Kishore
@sl
type
label
Vipuil Kishore
@ast
Vipuil Kishore
@en
Vipuil Kishore
@es
Vipuil Kishore
@nl
Vipuil Kishore
@sl
prefLabel
Vipuil Kishore
@ast
Vipuil Kishore
@en
Vipuil Kishore
@es
Vipuil Kishore
@nl
Vipuil Kishore
@sl
P106
P1153
36537447900
P31
P496
0000-0002-2559-1789