Add to ORKGAssessing the repair of critical size bone defects performed in a goat tibia model using tissue-engineered constructs cultured in a bidirectional flow perfusion bioreactor LS Gardel1,2,3, M Afonso3, C Frias3, ME Gomes1,2 and RL Reis1,2 This work evaluated in vivo performance of a tissue-engineered bone-like matrix obtained by culturing cell-scaffold constructs in a flow perfusion bioreactor, designed to enable culture of large constructs, envisioning the regeneration of critical-sized defects. A blend of starch with polycaprolactone scaffolds was seeded with goat bone marrow stromal cells (GBMSCs) cultured in the perfusion bioreactor for 14 days using osteogenic medium. Cell seeded scaffolds cultured in static conditions acted as controls. ...
Successful bone-tissue engineering (TE) has been reported for various strategies to combine cells wi...
Bone loss is still a major problem in orthopedics. The purpose of this experimental study is to eval...
The use of scaffolds in combination with osteogenic cells has been the gold standard in bone tissue ...
This work evaluated in vivo performance of a tissue-engineered bone-like matrix obtained by culturin...
This study aims to assess the in vivo performance of cell–scaffold constructs composed of goat marro...
Bone repair was addressed in a critical-sized defect model in sheep, combining a ceramic biomaterial...
Background/Objective: Despite recent progress in regeneration medicine, the repair of large bone def...
articleBackground – Large bone defects still represent a major problem in orthopedics. Traditional b...
Tissue engineering and regenerative medicine (TERM) strategies for generation of new bone tissue inc...
Abstract: Osteoarticular pathologies very often require an implementation therapy to favor regenerat...
SummaryBackground/ObjectiveDespite recent progress in regeneration medicine, the repair of large bon...
Copyright © 2014 Jennifer L. Lansdowne et al. This is an open access article distributed under the C...
Contains fulltext : 51869.pdf ( ) (Open Access)Improvements to current therapeutic...
Regenerative cell-based implants using periosteum-derived stem cells were developed for the treatmen...
A disadvantage of traditional posterolateral spinal fusion models is that they are highly inefficien...
Successful bone-tissue engineering (TE) has been reported for various strategies to combine cells wi...
Bone loss is still a major problem in orthopedics. The purpose of this experimental study is to eval...
The use of scaffolds in combination with osteogenic cells has been the gold standard in bone tissue ...
This work evaluated in vivo performance of a tissue-engineered bone-like matrix obtained by culturin...
This study aims to assess the in vivo performance of cell–scaffold constructs composed of goat marro...
Bone repair was addressed in a critical-sized defect model in sheep, combining a ceramic biomaterial...
Background/Objective: Despite recent progress in regeneration medicine, the repair of large bone def...
articleBackground – Large bone defects still represent a major problem in orthopedics. Traditional b...
Tissue engineering and regenerative medicine (TERM) strategies for generation of new bone tissue inc...
Abstract: Osteoarticular pathologies very often require an implementation therapy to favor regenerat...
SummaryBackground/ObjectiveDespite recent progress in regeneration medicine, the repair of large bon...
Copyright © 2014 Jennifer L. Lansdowne et al. This is an open access article distributed under the C...
Contains fulltext : 51869.pdf ( ) (Open Access)Improvements to current therapeutic...
Regenerative cell-based implants using periosteum-derived stem cells were developed for the treatmen...
A disadvantage of traditional posterolateral spinal fusion models is that they are highly inefficien...
Successful bone-tissue engineering (TE) has been reported for various strategies to combine cells wi...
Bone loss is still a major problem in orthopedics. The purpose of this experimental study is to eval...
The use of scaffolds in combination with osteogenic cells has been the gold standard in bone tissue ...