Strontium Hydroxyapatite scaffolds engineered with stem cells aid osteointegration and osteogenesis in osteoporotic sheep model

Tissue engineered SrHA (cSrHA) scaffolds fabricated by seeding Adipose Derived Mesenchymal Stem Cells (ADMSCs) on Strontium incorporated Hydroxyapatite scaffolds (SrHA) promote osteogenesis and osteointegration in sheep osteoporotic bone defect model. [Display omitted] •Synergistic role of Strontium...

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Published in	Colloids and surfaces, B, Biointerfaces Vol. 163; pp. 346 - 354
Main Authors	Chandran, Sunitha, Shenoy, Sachin J., Babu S., Suresh, P. Nair, Renjith, H.K., Varma, John, Annie
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 01.03.2018
Subjects	Mesenchymal stem cells Osteoporosis Osteoporotic sheep Strontium Hydroxyapatite Tissue engineering Osteoporosis Osteoporotic sheep Tissue engineering Strontium Hydroxyapatite Mesenchymal stem cells
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Abstract	Tissue engineered SrHA (cSrHA) scaffolds fabricated by seeding Adipose Derived Mesenchymal Stem Cells (ADMSCs) on Strontium incorporated Hydroxyapatite scaffolds (SrHA) promote osteogenesis and osteointegration in sheep osteoporotic bone defect model. [Display omitted] •Synergistic role of Strontium and MSCs investigated in a sheep osteoporotic model.•Porosity, radiopacity and cytocompatibility of SrHA appropriate for bone implants.•Enhanced osteogenic and osteointegrative ability depicted by cSrHA implanted group.•Proposes the use of allogenic ADMSCs for off the shelf tissue engineered products. Osteoporotic fracture healing is an orthopaedic challenge due to excessive bone resorption and impaired osteogenesis. Majority of current treatment strategies focus on regulating bone resorption and the potential application of Mesenchymal Stem Cells (MSCs) in promoting osteogenesis has not been explored much. Furthermore, the present study has put forth a novel approach, wherein the synergistic action of Strontium (Sr) and MSCs in a single implant may facilitate osteoporotic bone healing. Strontium Hydroxyapatite (SrHA) synthesized by wet precipitation was fabricated into tissue engineered Strontium incorporated Hydroxyapatite (cSrHA) using sheep adipose tissue derived MSCs (ADMSCs). Porosity, radiopacity and cytocompatibility of SrHA scaffolds were found appropriate for orthopaedic applications. cSrHA scaffolds exhibited an in vitro Alkaline Phosphatase activity of 20 μmol pnp/30 min comparable to that of Hydroxyapatite (HA) – control scaffold, proving its osteogenic efficacy. Implantation studies in sheep osteoporotic model depicted enhanced osteogenic ability with mature lamellar bone formation in cSrHA implanted group, compared to bare HA, SrHA and tissue engineered HA implanted groups. Histomorphometry data substantiated improved osteogenesis on par with material resorption, as cSrHA implanted group exhibited highest regeneration ratio of 0.38 ± 0.05. Density histograms from micro CT further signified the enhanced osteointegrative ability of cSrHA implants. Results of the study depicted the therapeutic potential of cSrHA in osteoporotic bone healing and proposes the use of allogenic ADMSCs for fabricating “Off the Shelf Tissue Engineered Products”.
AbstractList	Tissue engineered SrHA (cSrHA) scaffolds fabricated by seeding Adipose Derived Mesenchymal Stem Cells (ADMSCs) on Strontium incorporated Hydroxyapatite scaffolds (SrHA) promote osteogenesis and osteointegration in sheep osteoporotic bone defect model. [Display omitted] •Synergistic role of Strontium and MSCs investigated in a sheep osteoporotic model.•Porosity, radiopacity and cytocompatibility of SrHA appropriate for bone implants.•Enhanced osteogenic and osteointegrative ability depicted by cSrHA implanted group.•Proposes the use of allogenic ADMSCs for off the shelf tissue engineered products. Osteoporotic fracture healing is an orthopaedic challenge due to excessive bone resorption and impaired osteogenesis. Majority of current treatment strategies focus on regulating bone resorption and the potential application of Mesenchymal Stem Cells (MSCs) in promoting osteogenesis has not been explored much. Furthermore, the present study has put forth a novel approach, wherein the synergistic action of Strontium (Sr) and MSCs in a single implant may facilitate osteoporotic bone healing. Strontium Hydroxyapatite (SrHA) synthesized by wet precipitation was fabricated into tissue engineered Strontium incorporated Hydroxyapatite (cSrHA) using sheep adipose tissue derived MSCs (ADMSCs). Porosity, radiopacity and cytocompatibility of SrHA scaffolds were found appropriate for orthopaedic applications. cSrHA scaffolds exhibited an in vitro Alkaline Phosphatase activity of 20 μmol pnp/30 min comparable to that of Hydroxyapatite (HA) – control scaffold, proving its osteogenic efficacy. Implantation studies in sheep osteoporotic model depicted enhanced osteogenic ability with mature lamellar bone formation in cSrHA implanted group, compared to bare HA, SrHA and tissue engineered HA implanted groups. Histomorphometry data substantiated improved osteogenesis on par with material resorption, as cSrHA implanted group exhibited highest regeneration ratio of 0.38 ± 0.05. Density histograms from micro CT further signified the enhanced osteointegrative ability of cSrHA implants. Results of the study depicted the therapeutic potential of cSrHA in osteoporotic bone healing and proposes the use of allogenic ADMSCs for fabricating “Off the Shelf Tissue Engineered Products”. Osteoporotic fracture healing is an orthopaedic challenge due to excessive bone resorption and impaired osteogenesis. Majority of current treatment strategies focus on regulating bone resorption and the potential application of Mesenchymal Stem Cells (MSCs) in promoting osteogenesis has not been explored much. Furthermore, the present study has put forth a novel approach, wherein the synergistic action of Strontium (Sr) and MSCs in a single implant may facilitate osteoporotic bone healing. Strontium Hydroxyapatite (SrHA) synthesized by wet precipitation was fabricated into tissue engineered Strontium incorporated Hydroxyapatite (cSrHA) using sheep adipose tissue derived MSCs (ADMSCs). Porosity, radiopacity and cytocompatibility of SrHA scaffolds were found appropriate for orthopaedic applications. cSrHA scaffolds exhibited an in vitro Alkaline Phosphatase activity of 20 μmol pnp/30 min comparable to that of Hydroxyapatite (HA) - control scaffold, proving its osteogenic efficacy. Implantation studies in sheep osteoporotic model depicted enhanced osteogenic ability with mature lamellar bone formation in cSrHA implanted group, compared to bare HA, SrHA and tissue engineered HA implanted groups. Histomorphometry data substantiated improved osteogenesis on par with material resorption, as cSrHA implanted group exhibited highest regeneration ratio of 0.38 ± 0.05. Density histograms from micro CT further signified the enhanced osteointegrative ability of cSrHA implants. Results of the study depicted the therapeutic potential of cSrHA in osteoporotic bone healing and proposes the use of allogenic ADMSCs for fabricating "Off the Shelf Tissue Engineered Products".
Author	H.K., Varma John, Annie Chandran, Sunitha Shenoy, Sachin J. P. Nair, Renjith Babu S., Suresh
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Keywords	Osteoporosis Osteoporotic sheep Tissue engineering Strontium Hydroxyapatite Mesenchymal stem cells
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Snippet	Tissue engineered SrHA (cSrHA) scaffolds fabricated by seeding Adipose Derived Mesenchymal Stem Cells (ADMSCs) on Strontium incorporated Hydroxyapatite... Osteoporotic fracture healing is an orthopaedic challenge due to excessive bone resorption and impaired osteogenesis. Majority of current treatment strategies...
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SubjectTerms	Mesenchymal stem cells Osteoporosis Osteoporotic sheep Strontium Hydroxyapatite Tissue engineering
Title	Strontium Hydroxyapatite scaffolds engineered with stem cells aid osteointegration and osteogenesis in osteoporotic sheep model
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