Abstract:
:The design and development of bioactive materials that are inherently conducive for osteointegration and bone regeneration with tunable mechanical properties and degradation remains a challenge. Herein, we report the development of a new class of citrate-based materials with glycerophosphate salts, β-glycerophosphate disodium (β-GP-Na) and glycerophosphate calcium (GP-Ca), incorporated through a simple and convenient one-pot condensation reaction, which might address the above challenge in the search of suitable orthopedic biomaterials. Tensile strength of the resultant poly (octamethylene citrate glycerophosphate), POC-βGP-Na and POC-GP-Ca, was as high as 28.2 ± 2.44 MPa and 22.76 ± 1.06 MPa, respectively. The initial modulus ranged from 5.28 ± 0.56 MPa to 256.44 ± 22.88 MPa. The mechanical properties and degradation rate of POC-GP could be controlled by varying the type of salts, and the feeding ratio of salts introduced. Particularly, POC-GP-Ca demonstrated better cytocompatibility and the corresponding composite POC-GP-Ca/hydroxyapatite (HA) also elicited improved osteogenic differentiation of human mesenchymal stem cells (hMSCs) in vitro, as compared to POC-βGP-Na/HA and POC/HA. The superior in-vivo performance of POC-GP-Ca/HA microparticle scaffolds in promoting bone regeneration over POC-βGP-Na/HA and POC/HA was further confirmed in a rabbit femoral condyle defect model. Taken together, the tunability of mechanical properties and degradation rates, together with the osteopromotive nature of POC-GP polymers make these materials, especially POC-GP-Ca well suited for bone tissue engineering applications. STATEMENT OF SIGNIFICANCE: The design and development of bioactive materials that are inherently conducive for osteointegration and bone regeneration with tunable mechanical properties and degradation remains a challenge. Herein, we report the development of a new class of citrate-based materials with glycerophosphate salts, β-glycerophosphate disodium (β-GPNa) and glycerophosphate calcium (GPCa), incorporated through a simple and convenient one-pot condensation reaction. The resultant POC-GP polymers showed significantly improved mechanical property and tunable degradation rate. Within the formulation investigated, POC-GPCa/HA composite further demonstrated better bioactivity in favoring osteogenic differentiation of hMSCs in vitro and promoted bone regeneration in rabbit femoral condyle defects. The development of POC-GP expands the repertoire of the well-recognized citrate-based biomaterials to meet the ever-increasing needs for functional biomaterials in tissue engineering and other biomedical applications.
journal_name
Acta Biomaterjournal_title
Acta biomaterialiaauthors
He Y,Li Q,Ma C,Xie D,Li L,Zhao Y,Shan D,Chomos SK,Dong C,Tierney JW,Sun L,Lu D,Gui L,Yang Jdoi
10.1016/j.actbio.2019.03.050subject
Has Abstractpub_date
2019-07-15 00:00:00pages
180-191eissn
1742-7061issn
1878-7568pii
S1742-7061(19)30226-0journal_volume
93pub_type
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