about
Laser photofabrication of cell-containing hydrogel constructs.High throughput micro-well generation of hepatocyte micro-aggregates for tissue engineeringMultifactorial Optimization of Contrast-Enhanced Nanofocus Computed Tomography for Quantitative Analysis of Neo-Tissue Formation in Tissue Engineering Constructs.Gelatin-Based Hydrogels Promote Chondrogenic Differentiation of Human Adipose Tissue-Derived Mesenchymal Stem Cells In Vitro.Indirect Rapid Prototyping: Opening Up Unprecedented Opportunities in Scaffold Design and Applications.Biofunctionalization of ulvan scaffolds for bone tissue engineering.The 3D printing of gelatin methacrylamide cell-laden tissue-engineered constructs with high cell viability.Injectable self-gelling composites for bone tissue engineering based on gellan gum hydrogel enriched with different bioglasses.Di-Calcium Phosphate and Phytosphingosine as an Innovative Acid-Resistant Treatment to Occlude Dentine Tubules.Crack Mitigation in Concrete: Superabsorbent Polymers as Key to Success?A finite element strategy to investigate the free expansion behaviour of a biodegradable polymeric stent.Hybrid Tissue Engineering Scaffolds by Combination of Three-Dimensional Printing and Cell Photoencapsulation.Laser Fabrication of 3D Gelatin Scaffolds for the Generation of Bioartificial Tissues.Cross-Linkable Gelatins with Superior Mechanical Properties Through Carboxylic Acid Modification: Increasing the Two-Photon Polymerization PotentialQuantitative contrasts in the photopolymerization of acrylamide and methacrylamide-functionalized gelatin hydrogel building blocks.Heterocellular 3D scaffolds as biomimetic to recapitulate the tumor microenvironment of peritoneal metastases in vitro and in vivo.Ulvan-chitosan polyelectrolyte complexes as matrices for enzyme induced biomimetic mineralization.Cell response of flexible PMMA-derivatives: supremacy of surface chemistry over substrate stiffness.Soft tissue fillers for adipose tissue regeneration: From hydrogel development toward clinical applications.Activated carbon-plasticised agarose composite films for the adsorption of thiol as a model of wound malodour.Molecularly imprinted polymers immobilized on 3D printed scaffolds as novel solid phase extraction sorbent for metergoline.Poly(polyol sebacate) Elastomers as Coatings for Metallic Coronary Stents.Evaluation and validation of the use of a molecularly imprinted polymer coupled to LC-MS for benzylpenicillin determination in meat samples.Gelatin functionalised porous titanium alloy implants for orthopaedic applications.The role of new zinc incorporated monetite cements on osteogenic differentiation of human mesenchymal stem cells.Characterization of methacrylated alginate and acrylic monomers as versatile SAPs.Gelatin- and starch-based hydrogels. Part B: In vitro mesenchymal stem cell behavior on the hydrogels.Bio-inspired surface modification of PET for cardiovascular applications: Case study of gelatin.Indirect Solid Freeform Fabrication of an Initiator-Free Photocrosslinkable Hydrogel Precursor for the Creation of Porous Scaffolds.Combinatory approach of methacrylated alginate and acid monomers for concrete applications.Cryogel-PCL combination scaffolds for bone tissue repair.Photo-crosslinkable biopolymers targeting stem cell adhesion and proliferation: the case study of gelatin and starch-based IPNs.Highly Reactive Thiol-Norbornene Photo-Click Hydrogels: Toward Improved ProcessabilityJoint academic and industrial efforts towards innovative and efficient solutions for clinical needsImpact of Hydrogel Stiffness on Differentiation of Human Adipose-Derived Stem Cell MicrospheroidsTechnological advancements for the development of stem cell-based models for hepatotoxicity testingImpact of modified gelatin on valvular microtissuesA straightforward method for quantification of vinyl functionalized water soluble alginates via 13C-NMR spectroscopy(Photo-)crosslinkable gelatin derivatives for biofabrication applicationsAdditive manufacturing of photo-crosslinked gelatin scaffolds for adipose tissue engineering
P50
Q34986593-E910A25B-E111-4351-8A6B-F425284B2DB6Q35227071-21078095-251A-4279-BC4A-C79085E5CDBFQ35663993-1DF7061E-0F23-406E-9BEE-D03C5C845E5AQ38633855-32244C11-EE3B-4C97-8A40-D753267906C9Q38808766-5F67BA6B-2952-48B7-AC76-76AE8A8B2EC2Q39027416-291365B4-D4A4-4B77-A96B-6E7601335237Q39083037-7E9BD2F4-6723-4634-906F-672175BA2C9FQ39153318-CB4BEDD4-554B-4526-BF92-C5AFD018E631Q40374012-1E1BAF1C-5CAD-4567-8F23-D8735A132DE5Q40969688-0F2D9C18-3A22-458B-B06C-1C5B6E71A46CQ41021067-D1134764-BFF8-4F5B-8B5F-95B62CBA3BD1Q41846018-C824E191-8CD7-4BE8-ACC8-DC6D54E4FE7AQ42111234-19DFB0E8-C887-4F18-8976-33365C8BE1D7Q42380251-9565BF2F-48BF-4C73-92EE-6035E109EC62Q44082572-08423513-FDF1-4F4B-B0AB-D816830C3C0EQ47196405-660691C9-08A7-48B0-B193-AC34EB153122Q47218069-1833B88B-DB19-40EE-BB87-4C5B6FF9E7BBQ47449107-0EAE5AC4-9EB7-43DB-AEB8-116A1425B4B4Q47642030-506A5DE7-6394-4F83-BCC2-FF91D08E1A04Q47714687-B3768FC7-4208-4287-B4A1-BF99B19DF42BQ47965789-33DA110D-E22E-4F3F-8106-64970797C88DQ49030862-C4A8648D-C230-41C4-9F27-8A9615ECB36EQ49047272-1F7CA2FE-8014-42DB-A00B-1EF1C9A98458Q49056164-517E5342-8A51-422D-BABA-CFF9CDC38471Q49090003-C0B8A043-1411-4542-8BB4-3B8A014BF3A9Q49099091-96DABBFE-1459-4EAC-95CB-559AA0CAC87EQ49117686-337B1CA6-1860-475D-A215-38EBB2717126Q49127201-65437B09-AA97-40EE-8615-AFB6F0F883A5Q49142623-E0F8406F-5ECD-4DE8-ACF8-E0A12BFF676EQ49149956-08210944-3703-4C83-B530-C61452943427Q49158960-C7BF7BB6-1BA3-47F3-B2B7-65E487415375Q49160233-0A3AA3AA-A75A-4AF0-BC80-9B290A7AA656Q89058800-5E217E8A-AE26-45FB-91B6-D9D5BE8ACEC5Q90679606-A6E8E60C-916C-4143-A084-DBD2F98FC61BQ90995975-E8247A3F-F167-4F66-B9B0-94BDD6728C33Q91627154-0EC7D20A-F4AC-41E9-9A2F-4AEBF92C9F12Q91635174-FCD7E587-85EE-424E-B6D8-12F09D820295Q91948288-5738DE41-8603-4537-B3AA-920A9A1C29DAQ92175831-52A25E8C-ACC7-4553-95ED-7F0D71560B61Q92344563-7FC6787C-F9CD-4C3B-B9A8-B76929EF84FB
P50
description
researcher
@en
name
Peter Dubruel
@en
type
label
Peter Dubruel
@en
prefLabel
Peter Dubruel
@en
P108
P31
P496
0000-0002-5928-7726