Show
Sort by
-
Immediate Postextraction Implant Placement in Sheep's Mandibles: a pilot study
-
Evaluation of methacrylate-encapped poly(D,L-lactide-co-epsilon-caprolactone) as substrate for bone tissue engineering in a goat tibial unicortical defect model
-
- Journal Article
- A1
- open access
Evaluation of an injectable, photopolymerizable, and three-dimensional scaffold based on methacrylate-endcapped poly(D,L-lactide-co-ε-caprolactone) combined with autologous mesenchymal stem cells in a goat tibial unicortical defect model
-
Microscopic evaluation of bone healing after application of a bone substitute in bone defect as 'tissue engineering' technique in a goat model
-
Osteoblast behaviour on in situ photopolymerizable three-dimensional scaffolds based on D,L-lactide and epsilon-caprolactone: influence of pore volume, pore size and pore shape
-
Evaluation of methacrylate-encapped poly(D,L-lactide-co-epsilon-caprolactone) as substrate for bone tissue engineering in a goat tibial unicortical defect model
-
Biodegradable polymers for tissue engineering applications
-
Tailor made matrices for tissue engineering derived from crosslinkable polymeric precursors (ILect)
-
Degradable polymers designed for biomedical applications (Lect. by)
-
Novel initiator system for the preparation of biodegradable polyesters by ring opening polymerization (Poster by T.Gorski)
-
Study of the ring opening polymerisation of eta-caprolactone using diethylzinc as catalyst and multifunctionalised alcohols as initiator. (Lect. by J.Mendez)
-
Diethylzinc/alcohol as a novel initiating system for preparation of biodegradable polyesters. (Poster by T.Gorski)
-
Encapsulation of osteoblast seeded microcarriers into injectable, photopolymerizable three-dimensional scaffolds based on D,L-lactide and epsilon-caprolactone
-
Bone tissue engineering with in situ, photopolymerizable 3D scaffolds: a combination of degradable poyesters, calcium phosphate cements, porosigens and osteoblast seede microcarriers (Lect. of H. Declercq)
-
Preparation and evaluation of iodegradable composite scaffolds for bone tissue engineering. (Lect. by T.Gorski)
-
Porous composite scaffolds made of injectable, biodegradable polyesters and ceramics.(Poster by T.Gorski)
-
Biodegradable and bioactive polyester based scaffolds and their use in bone tissue engineering
-
Biodegradable and bioactive polyester composite scaffolds and their use in bone tissue engineering
-
289) Polyester composite scaffolds and their use in bone tissue engineering
-
In situ crosslinkable biodegradable polyesters for bone tissue regeneration. (Lecture by T. Gorski)