Jasper Van Hoorick

Overview

Explore the profile of Jasper Van Hoorick including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 27

Citations 435

Followers 0

Related Specialties

Biomedical Engineering

Biochemistry

Biology

Top 10 Co-Authors

Sandra Van Vlierberghe

Peter Dubruel

Aleksandr Ovsianikov

Marica Markovic

Hugo Thienpont

Jurgen Van Erps

Stefan Baudis

Agnes Dobos

Peter Gruber

Liesbeth Tytgat

Published In

Biomacromolecules

J Mater Sci Mater Med

Macromol Biosci

Acta Biomater

Biofabrication

Affiliations

Soon will be listed here.

Recent Articles

21.

Heterocellular 3D scaffolds as biomimetic to recapitulate the tumor microenvironment of peritoneal metastases in vitro and in vivo

De Jaeghere E, De Vlieghere E, Van Hoorick J, Van Vlierberghe S, Wagemans G, Pieters L, et al.

Biomaterials . 2018 Jan; 158:95-105. PMID: 29306747

Peritoneal metastasis is a major cause of death and preclinical models are urgently needed to enhance therapeutic progress. This study reports on a hybrid hydrogel-polylactic acid (PLA) scaffold that mimics...

22.

Cross-Linkable Gelatins with Superior Mechanical Properties Through Carboxylic Acid Modification: Increasing the Two-Photon Polymerization Potential

Van Hoorick J, Gruber P, Markovic M, Tromayer M, Van Erps J, Thienpont H, et al.

Biomacromolecules . 2017 Aug; 18(10):3260-3272. PMID: 28850786

The present work reports on the development of photo-cross-linkable gelatins sufficiently versatile to overcome current biopolymer two-photon polymerization (2PP) processing limitations. To this end, both the primary amines as well...

23.

Indirect Solid Freeform Fabrication of an Initiator-Free Photocrosslinkable Hydrogel Precursor for the Creation of Porous Scaffolds

Houben A, Pien N, Lu X, Bisi F, Van Hoorick J, Boone M, et al.

Macromol Biosci . 2016 Oct; 16(12):1883-1894. PMID: 27786417

In the present work, a photopolymerized urethane-based poly(ethylene glycol) hydrogel is applied as a porous scaffold material using indirect solid freeform fabrication (SFF). This approach combines the benefits of SFF...

24.

Indirect Rapid Prototyping: Opening Up Unprecedented Opportunities in Scaffold Design and Applications

Houben A, Van Hoorick J, Van Erps J, Thienpont H, Van Vlierberghe S, Dubruel P

Ann Biomed Eng . 2016 Apr; 45(1):58-83. PMID: 27080376

Over the past decades, solid freeform fabrication (SFF) has emerged as the main technology for the production of scaffolds for tissue engineering applications as a result of the architectural versatility....

25.

Hybrid Tissue Engineering Scaffolds by Combination of Three-Dimensional Printing and Cell Photoencapsulation

Markovic M, Van Hoorick J, Holzl K, Tromayer M, Gruber P, Nurnberger S, et al.

J Nanotechnol Eng Med . 2016 Feb; 6(2):0210011-210017. PMID: 26858826

Three-dimensional (3D) printing offers versatile possibilities for adapting the structural parameters of tissue engineering scaffolds. However, it is also essential to develop procedures allowing efficient cell seeding independent of scaffold...

26.

Indirect additive manufacturing as an elegant tool for the production of self-supporting low density gelatin scaffolds

Van Hoorick J, Declercq H, De Muynck A, Houben A, Van Hoorebeke L, Cornelissen R, et al.

J Mater Sci Mater Med . 2015 Sep; 26(10):247. PMID: 26411443

The present work describes for the first time the production of self-supporting low gelatin density (<10 w/v%) porous scaffolds using methacrylamide-modified gelatin as an extracellular matrix mimicking component. As porous...

27.

Cryogel-PCL combination scaffolds for bone tissue repair

Van Rie J, Declercq H, Van Hoorick J, Dierick M, Van Hoorebeke L, Cornelissen R, et al.

J Mater Sci Mater Med . 2015 Feb; 26(3):123. PMID: 25690621

The present work describes the development and the evaluation of cryogel-poly-ε-caprolactone combinatory scaffolds for bone tissue engineering. Gelatin was selected as cell-interactive biopolymer to enable the adhesion and the proliferation...