about
Nanofibrous Snake Venom HemostatHighly angiogenic peptide nanofibersRational design of fiber forming supramolecular structuresDrug-triggered and cross-linked self-assembling nanofibrous hydrogels.Microablation of collagen-based substrates for soft tissue engineeringSelf-assembling multidomain peptides tailor biological responses through biphasic release.Tissue Engineering of Blood Vessels: Functional Requirements, Progress, and Future Challenges.Controlled Angiogenesis in Peptide Nanofiber Composite HydrogelsA biologically active surface enzyme assembly that attenuates thrombus formation.Collagen-Based Substrates with Tunable Strength for Soft Tissue Engineering.A nanostructured synthetic collagen mimic for hemostasis.Elastin-like protein matrix reinforced with collagen microfibers for soft tissue repair.Microcrimped collagen fiber-elastin composites.Treatment of hind limb ischemia using angiogenic peptide nanofibersTwo-step self-assembly of liposome-multidomain peptide nanofiber hydrogel for time-controlled release.Cell surface engineering with polyelectrolyte multilayer thin films.A TEMPLATE-BASED FABRICATION TECHNIQUE FOR SPATIALLY-DESIGNED POLYMER MICRO/NANOFIBER COMPOSITESChallenges in Translating from Bench to Bed-Side: Pro-Angiogenic Peptides for Ischemia TreatmentImplantable anti-angiogenic scaffolds for treatment of neovascular ocular pathologiesAngiogenic Self-Assembling Peptide Scaffolds for Functional Tissue RegenerationA self-assembled peptide hydrogel for cytokine sequestration
P50
Q27300792-04EAC003-BCA4-48E9-8CB7-1C67524CDA6FQ27334887-F76CAAA6-1F3F-4FAE-9188-4C6ACF8D0BF9Q28829633-F351B3D2-EC5E-472A-80EC-0330493D7CB9Q30670908-92F08A86-34A7-4D49-94EE-29943F7D070EQ35685495-0A8B30C4-0EEA-49D8-90BD-2EDBE0526043Q36185537-B65031C3-17DE-4678-90D7-6C5E0B286E1EQ36419601-35277E28-41F5-4715-8D21-69CFAB5D7431Q36623213-C402170D-8915-4711-99F0-441BA7A642E0Q36712188-DB7F2F4C-7211-49A8-B227-1D4189144496Q37379438-34AD5B07-AC5D-4A38-A67C-9580A4D3570AQ38862626-EA553D4C-3547-4CAD-8B58-43E562A670F0Q38933415-26C8B5AA-751D-4369-B3FE-9C357C5CCFA2Q39023299-30966C62-1E99-4FAD-A4ED-9DB016104082Q39763708-5FFC9D4D-6A71-4626-900D-CE83F66AC01CQ42141840-61212274-3EB4-4E2D-826B-66A4DF10E818Q52610054-0F6F916D-C1B5-409F-A41B-16689442640AQ57095406-D2F78249-1022-42B2-9819-01D0B0936555Q64108288-BF6E29EA-FB9C-4722-911F-0EF55462135BQ90785954-D3AA9CDD-20D8-4F54-A456-0E9A0DFE44D6Q91074557-4D3C865A-2A14-4294-B3DB-AD8648BAF786Q92528270-E51731E8-F623-4F6F-A0D1-C1D902A1E7CD
P50
description
American biomedical engineer
@en
bio-medisch ingenieur
@nl
name
Vivek A Kumar
@nl
Vivek A. Kumar
@en
type
label
Vivek A Kumar
@nl
Vivek A. Kumar
@en
prefLabel
Vivek A Kumar
@nl
Vivek A. Kumar
@en
P108
P21
P2456
P31
P496
0000-0001-7536-9281