Evaluation of Bone Regeneration with an Injectable, In Situ Polymerizable Pluronic® F127 Hydrogel Derivative Combined with Autologous Mesenchymal Stem Cells in a Goat Tibia Defect Model

In situ forming bone substitute materials are attractive candidates for filling irregularly shaped defects. In this study, a chemically modified form of the Pluronic ® F127 hydrogel was used. Similar to the parent form, this derivative underwent a sol–gel transition in the body and additional radica...

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Published in:Tissue engineering. Part A 2010-02, Vol.16 (2), p.617-627
Main Authors: Lippens, Evi, Vertenten, Geert, Gironès, Jordi, Declercq, Heidi, Saunders, Jimmy, Luyten, Jan, Duchateau, Luc, Schacht, Etienne, Vlaminck, Lieven, Gasthuys, Frank, Cornelissen, Maria
Format: Article
Language:English
Subjects:
Animals
Bone marrow
Bone regeneration
Bone Regeneration - drug effects
Follow-Up Studies
Goats
Hydrogel, Polyethylene Glycol Dimethacrylate - pharmacology
Hydrogels
Implants, Experimental
Injections
Mesenchymal Stem Cell Transplantation
Mesenchymal Stromal Cells - cytology
Mesenchymal Stromal Cells - drug effects
Mesenchymal Stromal Cells - metabolism
Models, Animal
Original Articles
Osteogenesis - drug effects
Physiological aspects
Poloxamer - chemistry
Poloxamer - pharmacology
Radiography
Stem cells
Tibia
Tibia - diagnostic imaging
Tibia - pathology
Tibia - surgery
Tissue engineering
Transplantation, Autologous
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Summary:In situ forming bone substitute materials are attractive candidates for filling irregularly shaped defects. In this study, a chemically modified form of the Pluronic ® F127 hydrogel was used. Similar to the parent form, this derivative underwent a sol–gel transition in the body and additional radical curing resulted in a stable three-dimensional network gel with a controllable degradation rate. An extra cell source of autologous bone marrow-derived mesenchymal stem cells was mixed with the hydrogel to increase the ossification process, when implanted in noncritical size unicortical tibia defects. These cells were cultured and predifferentiated on two types of cell carrier systems, that is, gelatin CultiSpher-S ® microcarriers and hydroxyapatite tubular carriers. Radiographic and histological evaluation revealed that bone regeneration was comparable in the defects with the bone substitute compositions and the untreated control defects at 2 and 4 weeks postimplantation and that newly formed bone originated from the cells on the CultiSpher-S carriers. This resulted, 6 and 8 weeks postimplantation, in faster bone repair in the defects filled with the hydrogel plus CultiSpher-S carriers in comparison to the control defects. Surprisingly, there was no formation of new bone originating from the hydroxyapatite carriers. The hydrogel by itself seemed to stimulate the natural repair process.
ISSN:1937-3341
1937-335X
DOI:10.1089/ten.tea.2009.0418