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Bone repair by cell-seeded 3D-bioplotted composite scaffolds made of collagen treated tricalciumphosphate or tricalciumphosphate-chitosan-collagen hydrogel or PLGA in ovine critical-sized calvarial defects
- Source :
- Journal of biomedical materials research. Part B, Applied biomaterials. 93(2)
- Publication Year :
- 2010
-
Abstract
- The aim of this study was to investigate the osteogenic effect of three different cell-seeded 3D-bioplotted scaffolds in a ovine calvarial critical-size defect model. The choice of scaffold-materials was based on their applicability for 3D-bioplotting and respective possibility to produce tailor-made scaffolds for the use in cranio-facial surgery for the replacement of complex shaped boneparts. Scaffold raw-materials are known to be osteoinductive when being cell-seeded [poly(L-lactide-co-glycolide) (PLGA)] or having components with osteoinductive properties as tricalciumphosphate (TCP) or collagen (Col) or chitosan. The scaffold-materials PLGA, TCP/Col, and HYDR (TCP/Col/chitosan) were cell-seeded with osteoblast-like cells whether gained from bone (OLB) or from periost (OLP). In a prospective and randomized design nine sheep underwent osteotomy to create four critical-sized calvarial defects. Three animals each were assigned to the HYDR-, the TCP/Col-, or the PLGA-group. In each animal, one defect was treated with a cell-free, an OLB- or OLP-seeded group-specific scaffold, respectively. The fourth defect remained untreated as control (UD). Fourteen weeks later, animals were euthanized for histo-morphometrical analysis of the defect healing. OLB- and OLP-seeded HYDR and OLB-seeded TCP/Col scaffolds significantly increased the amount of newly formed bone (NFB) at the defect bottom and OLP-seeded HYDR also within the scaffold area, whereas PLGA-scaffolds showed lower rates. The relative density of NFB was markedly higher in the HYDR/OLB group compared to the corresponding PLGA group. TCP/Col had good stiffness to prepare complex structures by bioplotting but HYDR and PLGA were very soft. HYDR showed appropriate biodegradation, TCP/Col and PLGA seemed to be nearly undegraded after 14 weeks. 3D-bioplotted, cell-seeded HYDR and TCP/Col scaffolds increased the amount of NFB within ovine critical-size calvarial defects, but stiffness, respectively, biodegradation of materials is not appropriate for the application in cranio-facial surgery and have to be improved further by modifications of the manufacturing process or their material composition.
- Subjects :
- Calcium Phosphates
Scaffold
Materials science
Bone Regeneration
Time Factors
Cell
Biomedical Engineering
Bone healing
Biomaterials
Chitosan
chemistry.chemical_compound
Polylactic Acid-Polyglycolic Acid Copolymer
In vivo
Absorbable Implants
medicine
Animals
Lactic Acid
Bone regeneration
Sheep
Tissue Scaffolds
Skull
technology, industry, and agriculture
Hydrogels
Glycolates
PLGA
Disease Models, Animal
medicine.anatomical_structure
chemistry
Self-healing hydrogels
Female
Collagen
Polyglycolic Acid
Biomedical engineering
Subjects
Details
- ISSN :
- 15524981
- Volume :
- 93
- Issue :
- 2
- Database :
- OpenAIRE
- Journal :
- Journal of biomedical materials research. Part B, Applied biomaterials
- Accession number :
- edsair.doi.dedup.....3c68f4302757a9438df683786a9affcf