Rosemary Dziak scite author profile

Current clinical therapies for critical-sized bone defects (CSBDs) remain far from ideal. Previous studies have demonstrated that engineering bone tissue using mesenchymal stem cells (MSCs) is feasible. However, this approach is not effective for CSBDs due to inadequate vascularization. In our previous study, we have developed an injectable and porous nano calcium sulfate/alginate (nCS/A) scaffold and demonstrated that nCS/A composition is biocompatible and has proper biodegradability for bone regeneration. Here, we hypothesized that the combination of an injectable and porous nCS/A with bone morphogenetic protein 2 (BMP2) gene-modified MSCs and endothelial progenitor cells (EPCs) could significantly enhance vascularized bone regeneration. Our results demonstrated that delivery of MSCs and EPCs with the injectable nCS/A scaffold did not affect cell viability. Moreover, co-culture of BMP2 gene-modified MSCs and EPCs dramatically increased osteoblast differentiation of MSCs and endothelial differentiation of EPCs in vitro. We further tested the multifunctional bone reconstruction system consisting of an injectable and porous nCS/A scaffold (mimicking the nano-calcium matrix of bone) and BMP2 genetically-engineered MSCs and EPCs in a rat critical-sized (8 mm) caviarial bone defect model. Our in vivo results showed that, compared to the groups of nCS/A, nCS/A+MSCs, nCS/A+MSCs+EPCs and nCS/A+BMP2 gene-modified MSCs, the combination of BMP2 gene -modified MSCs and EPCs in nCS/A dramatically increased the new bone and vascular formation. These results demonstrated that EPCs increase new vascular growth, and that BMP2 gene modification for MSCs and EPCs dramatically promotes bone regeneration. This system could ultimately enable clinicians to better reconstruct the craniofacial bone and avoid donor site morbidity for CSBDs.

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Biological effects of a purified lipopolysaccharide from Bacteroides gingivalis

Nair

Mayberry

Dziak

et al. 1983

J of Periodontal Research

127

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Lipopolysaccharide (LPS) has been purified from Bacteroides gingivalis. The purity of this LPS is evidenced on ultracentrifugation, immunoelectrophoresis, and chemical analyses. On comparison with LPS from aerobic enteric organisms, LPS from Bacteroides gingivalis exhibits minimal potency when tested for pyrogenicity in rabbits and mitogenicity in mouse spleen cells. On the other hand, purified LPS from Bacteroides gingivalis exhibits high potency in its ability to stimulate 45Ca release from prelabeled fetal rat bones and to inhibit Ca influx into osteoclast‐like cells.

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The Effect of Doxycycline Hyclate, Chlorhexidine Gluconate, and Minocycline Hydrochloride on Osteoblastic Proliferation and Differentiation In Vitro

Almazin

Dziak

Andreana

et al. 2009

Journal of Periodontology

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At a concentration of 0.5 mg/ml, CHX and, to a lesser extent, MINO had a cytotoxic effect on osteoblast proliferation in vitro. However, DOXY seemed to enhance maturation and differentiation rather than proliferation. In addition to DOXY's beneficial effect as an adjunctive therapy to mechanical debridement in the treatment of periodontal disease, it may have an effect on periodontal regeneration.

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Anorganic Bovine Bone Supports Osteoblastic Cell Attachment and Proliferation

Stephan

Jiang²,

Lynch³

et al. 1999

Journal of Periodontology

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Rosemary Dziak

BMP2 Genetically Engineered MSCs and EPCs Promote Vascularized Bone Regeneration in Rat Critical-Sized Calvarial Bone Defects

Biological effects of a purified lipopolysaccharide from Bacteroides gingivalis

The Effect of Doxycycline Hyclate, Chlorhexidine Gluconate, and Minocycline Hydrochloride on Osteoblastic Proliferation and Differentiation In Vitro

Anorganic Bovine Bone Supports Osteoblastic Cell Attachment and Proliferation

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