Anthal I.P.M. Smits
Anthal I.P.M. Smits
Biomedische Technologie, Technische Universiteit Eindhoven
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Tissue engineering of heart valves: advances and current challenges
A Mol, AIPM Smits, CVC Bouten, FPT Baaijens
Expert review of medical devices 6 (3), 259-275, 2009
In situ heart valve tissue engineering using a bioresorbable elastomeric implant–From material design to 12 months follow-up in sheep
J Kluin, H Talacua, AIPM Smits, MY Emmert, MCP Brugmans, ES Fioretta, ...
Biomaterials 125, 101-117, 2017
Biomaterial-driven in situ cardiovascular tissue engineering—a multi-disciplinary perspective
TB Wissing, V Bonito, CVC Bouten, AIPM Smits
NPJ Regenerative medicine 2 (1), 1-20, 2017
Early in-situ cellularization of a supramolecular vascular graft is modified by synthetic stromal cell-derived factor-1α derived peptides
DEP Muylaert, GC van Almen, H Talacua, JO Fledderus, J Kluin, ...
Biomaterials 76, 187-195, 2016
In Situ Tissue Engineering of Functional Small-Diameter Blood Vessels by Host Circulating Cells Only
H Talacua, AIPM Smits, DEP Muylaert, JW Van Rijswijk, A Vink, ...
Tissue Engineering Part A 21 (19-20), 2583-2594, 2015
Differential response of endothelial and endothelial colony forming cells on electrospun scaffolds with distinct microfiber diameters
ES Fioretta, M Simonet, AIPM Smits, FPT Baaijens, CVC Bouten
Biomacromolecules 15 (3), 821-829, 2014
The immune response in in situ tissue engineering of aortic heart valves
SLM Van Loon, A Smits, A Driessen-Mol, FPT Baaijens, CVC Bouten
Calcific aortic valve disease, 207-245, 2013
Development of Non‐Cell Adhesive Vascular Grafts Using Supramolecular Building Blocks
GC van Almen, H Talacua, BD Ippel, BB Mollet, M Ramaekers, M Simonet, ...
Macromolecular bioscience 16 (3), 350-362, 2016
Synergistic protein secretion by mesenchymal stromal cells seeded in 3D scaffolds and circulating leukocytes in physiological flow
V Ballotta, AIPM Smits, A Driessen-Mol, CVC Bouten, FPT Baaijens
Biomaterials 35 (33), 9100-9113, 2014
Shear flow affects selective monocyte recruitment into MCP‐1‐loaded scaffolds
AIPM Smits, V Ballotta, A Driessen‐Mol, CVC Bouten, FPT Baaijens
Journal of cellular and molecular medicine 18 (11), 2176-2188, 2014
Modulation of macrophage phenotype and protein secretion via heparin-IL-4 functionalized supramolecular elastomers
V Bonito, A Smits, O Goor, BD Ippel, A Driessen-Mol, T Münker, ...
Acta biomaterialia 71, 247-260, 2018
Macrophage-driven biomaterial degradation depends on scaffold microarchitecture
TB Wissing, V Bonito, EE van Haaften, M van Doeselaar, ...
Frontiers in bioengineering and biotechnology 7, 87, 2019
Decoupling the effect of shear stress and stretch on tissue growth and remodeling in a vascular graft
EE van Haaften, TB Wissing, MCM Rutten, JA Bulsink, K Gashi, ...
Tissue Engineering Part C: Methods 24 (7), 418-429, 2018
Can we grow valves inside the heart? Perspective on material-based in situ heart valve tissue engineering
CVC Bouten, AIPM Smits, F Baaijens
Frontiers in cardiovascular medicine 5, 54, 2018
Tissue engineering meets immunoengineering: prospective on personalized in situ tissue engineering strategies
AIPM Smits, CVC Bouten
Current Opinion in Biomedical Engineering 6, 17-26, 2018
Ex vivo culture platform for assessment of cartilage repair treatment strategies
A Schwab, A Meeuwsen, F Ehlicke, J Hansmann, L Mulder, A Smits, ...
ALTEX-Alternatives to animal experimentation 34 (2), 267-277, 2017
A Mesofluidics-Based Test Platform for Systematic Development of Scaffolds for In Situ Cardiovascular Tissue Engineering
AIPM Smits, A Driessen-Mol, CVC Bouten, FPT Baaijens
Tissue Engineering Part C: Methods 18 (6), 475-485, 2012
Host response and neo-tissue development during resorption of a fast degrading supramolecular electrospun arterial scaffold
R Duijvelshoff, NCA Van Engeland, KMR Gabriels, SHM Söntjens, ...
Bioengineering 5 (3), 61, 2018
In Situ Tissue Engineering: Seducing the Body to Regenerate
AIPM Smits, V Bonito, M Stoddart
Tissue Engineering Part A 22 (17-18), 1061-1062, 2016
Hemodynamic loads distinctively impact the secretory profile of biomaterial-activated macrophages–implications for in situ vascular tissue engineering
TB Wissing, EE van Haaften, SE Koch, BD Ippel, NA Kurniawan, ...
Biomaterials science 8 (1), 132-147, 2020
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