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Near-infrared bulk optical properties of goat wound tissue and human serum : consequences for an implantable optical glucose sensor
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First step toward near-infrared continuous glucose monitoring: in vivo evaluation of antibody coupled biomaterials
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Ex vivo optical characterization of in vivo grown tissues on dummy sensor implants using Double Integrating Spheres measurement
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Cell survival and proliferation after encapsulation in a chemically modified Pluronic® F127 hydrogel
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PMMA and PDMS surface modification to enhance sensor-associated vascularization
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Enhanced vascularization surrounding an implantable continuous glucose sensor
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Histology of an implantable biosensor in goats
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Evaluation of Bone Regeneration with an Injectable, In Situ Polymerizable Pluronic (R) F127 Hydrogel Derivative Combined with Autologous Mesenchymal Stem Cells in a Goat Tibia Defect Model
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Enhancing bone healing and regeneration: present and future perspectives in veterinary orthopaedics
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Novel strategy in bone tissue engineering: combining cell loaded carrier systems with in situ forming biomaterials: an in vivo animal study
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Evaluation of de novo bone formation in a goat model using an injectable UV cross-linkable Pluronic® F127 modified hydrogel in combination with autologous mesenchymal stem cells
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Microscopic evaluation of bone healing after application of a bone substitute in bone defect as 'tissue engineering' technique in a goat model
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- 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
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Evaluation of methacrylate-encapped poly(D,L-lactide-co-epsilon-caprolactone) as substrate for bone tissue engineering in a goat tibial unicortical defect model
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Evaluation of methacrylate-encapped poly(D,L-lactide-co-epsilon-caprolactone) as substrate for bone tissue engineering in a goat tibial unicortical defect model
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Evaluation of an injectable, photopolymerizable scaffold based on D,L-lactide and - caprolactone combined with autologous mesenchymal stem cells in a goat model.
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Immunohistochemical Analysis of Low-Temperature Methylmethacrylate Resin-Embedded Goat Tissues
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- Conference Paper
- C1
- open access
Bone regeneration scaffolds prepared from crosslinkable biodegradable polymers