The performance of CPC/PLGA and Bio‐Oss<sup>®</sup> for bone regeneration in healthy and osteoporotic rats

Houdt, Claire I. A. van; Ulrich, Dietmar; Jansen, John A.; Beucken, Jeroen J.J.P. van den

doi:10.1002/jbm.b.33801

Cited by 26 publications

(25 citation statements)

References 35 publications

(66 reference statements)

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“…Poly(lactide‐co‐glycolide) (PLGA) is a common component in Food and Drug Administration‐approved biocompatible copolymer with suitable mechanical properties, adjustable degradation time and nontoxicity, and is widely used in bone tissue engineering. A number of studies have employed PLGA as the artificial microsphere delivery system for cells, growth factors, and small molecule durgs (Liao et al, ; Rafiei & Haddadi, ; van Houdt, Ulrich, Jansen, & van den Beucken, ). It has been shown to effectively improve the targeting, stability and biological activity of the loading materials.…”

Section: Introductionmentioning

confidence: 99%

Sustained‐release of sclerostin single‐chain antibody fragments using poly(lactic‐co‐glycolic acid) microspheres for osteoporotic fracture repair

Liu

et al. 2019

J Biomedical Materials Res

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Osteoporotic fracture is one of the most common bone diseases in middle and old age, as the most serious consequence of osteoporosis. Sclerostin single‐chain antibody fragments (SCL‐scFv) have been proven to promote bone formation by binding to scleroprotein, a natural antagonist of the Wnt pathway, but it is difficult to rule alone due to the weak permeability and immunogenicity. Herein, we prepared poly(lactic‐co‐glycolic acid) microspheres as a sustained‐release vehicle to prolong the activity of SCL‐scFv. The morphology of microspheres were uniform and nearly sphere, loading efficiency and encapsulation efficiency of SCL‐scFv microspheres were 6.28 ± 1.04% and 48.37 ± 8.11%, respectively. Approximately 90% of the SCL‐scFvs were released from the microspheres over 28 days with initial burst releasing (38%) in the first 4 days. Sustained‐release of active SCL‐scFv from microspheres promoted bone marrow mesenchymal stem cells osteogenic differentiation in vitro and enhanced fracture healing in ovariectomized rats by improving bone mass and bone formation in the fracture region. All these findings demonstrate that the microspheres are able to simultaneously achieve localized long‐term SCL‐scFv controlled release and effectively promote bone formation, which provides a promising approach for osteoporotic fracture.

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Section: Introductionmentioning

confidence: 99%

Sustained‐release of sclerostin single‐chain antibody fragments using poly(lactic‐co‐glycolic acid) microspheres for osteoporotic fracture repair

Liu

et al. 2019

J Biomedical Materials Res

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“…33 This may be interpreted as a wound healing process with incorporation of a body foreign material rather than bone regeneration. 34 However, there are several limitations to our research. The anti-inflammatory activity of CS-EC@Ca microcapsules was shown on the mRNA level, and this study was preliminary.…”

Section: Discussionmentioning

confidence: 92%

“…During the production process, organic parts are removed from bovine bone and the remaining Ca‐containing bone structures are processed to slowly degradable granules . This may be interpreted as a wound healing process with incorporation of a body foreign material rather than bone regeneration …”

Section: Discussionmentioning

confidence: 99%

Suppressing inflammation and enhancing osteogenesis using novel CS‐EC@Ca microcapsules

Han

Wang

et al. 2018

J Biomedical Materials Res

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The aim of this study was to investigate the suppression of inflammation and enhancement of osteogenesis using chitosan‐coated calcium hydroxide‐loaded microcapsules (CS‐EC@Ca microcapsules) in vivo. Circular defects were created in the mandibular bones of rabbits and filled with Ca(OH)2, Bio‐oss, or CS‐EC@Ca microcapsules, and rabbits without drug implantation served as the controls. Lipopolysaccharides were injected in situ daily in all groups for 7 days. Mandibular bones were investigated at 4 and 12 weeks after surgery using micro‐CT, histological observations, and real‐time PCR analysis. At the postoperation, there was more substantial nascent bone in the microcapsule and Bio‐oss groups than in the control group. The recovery of the rabbits in the Ca(OH)2 group was slower than the control group, as determined using micro‐CT and histological staining. Osteocalcin and collagen type I production was not significantly different between the microcapsule and Bio‐oss groups (p > 0.05), but the expression levels of the two molecules were significantly increased compared to the control and Ca(OH)2 groups at postoperation (p < 0.05). The mRNA transcript levels of inflammatory factors in the microcapsule group had the most reduced expression of IL‐6 and TNF‐α (p < 0.05). The microcapsules significantly reduced inflammation and promoted osteogenesis in this rabbit model of inflammatory bone destruction. Our findings indicate that CS‐EC@Ca microcapsules hold potential for use in apical periodontitis treatment. © 2018 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 106A: 3222–3230, 2018.

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“…The loading of CPC/PLGA (60-40 wt %) materials with ALN revealed to be successful in promoting bone formation in comparison to material without pharmaceuticals. The rate of degradation of CPC/PLGA in comparison to CPC alone allowed to control the release of ALN, maximizing the local effect [40].…”

Section: Rat Modelmentioning

confidence: 99%

Functionalization of Ceramic Coatings for Enhancing Integration in Osteoporotic Bone: A Systematic Review

et al. 2019

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Background: The success of reconstructive orthopaedic surgery strongly depends on the mechanical and biological integration between the prosthesis and the host bone tissue. Progressive population ageing with increased frequency of altered bone metabolism conditions requires new strategies for ensuring an early implant fixation and long-term stability. Ceramic materials and ceramic-based coatings, owing to the release of calcium phosphate and to the precipitation of a biological apatite at the bone-implant interface, are able to promote a strong bonding between the host bone and the implant. Methods: The aim of the present systematic review is the analysis of the existing literature on the functionalization strategies for improving the implant osteointegration in osteoporotic bone and their relative translation into the clinical practice. The review process, conducted on two electronic databases, identified 47 eligible preclinical studies and 5 clinical trials. Results: Preclinical data analysis showed that functionalization with both organic and inorganic molecules usually improves osseointegration in the osteoporotic condition, assessed mainly in rodent models. Clinical studies, mainly retrospective, have tested no functionalization strategies. Registered trademarks materials have been investigated and there is lack of information about the micro- or nano- topography of ceramics. Conclusions: Ceramic materials/coatings functionalization obtained promising results in improving implant osseointegration even in osteoporotic conditions but preclinical evidence has not been fully translated to clinical applications.

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The performance of CPC/PLGA and Bio‐Oss^® for bone regeneration in healthy and osteoporotic rats

Cited by 26 publications

References 35 publications

Sustained‐release of sclerostin single‐chain antibody fragments using poly(lactic‐co‐glycolic acid) microspheres for osteoporotic fracture repair

Sustained‐release of sclerostin single‐chain antibody fragments using poly(lactic‐co‐glycolic acid) microspheres for osteoporotic fracture repair

Suppressing inflammation and enhancing osteogenesis using novel CS‐EC@Ca microcapsules

Functionalization of Ceramic Coatings for Enhancing Integration in Osteoporotic Bone: A Systematic Review

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The performance of CPC/PLGA and Bio‐Oss® for bone regeneration in healthy and osteoporotic rats

Cited by 26 publications

References 35 publications

Sustained‐release of sclerostin single‐chain antibody fragments using poly(lactic‐co‐glycolic acid) microspheres for osteoporotic fracture repair

Sustained‐release of sclerostin single‐chain antibody fragments using poly(lactic‐co‐glycolic acid) microspheres for osteoporotic fracture repair

Suppressing inflammation and enhancing osteogenesis using novel CS‐EC@Ca microcapsules

Functionalization of Ceramic Coatings for Enhancing Integration in Osteoporotic Bone: A Systematic Review

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The performance of CPC/PLGA and Bio‐Oss^® for bone regeneration in healthy and osteoporotic rats