Rebecca E. Rifkin scite author profile

The complex dynamic nature of bone tissue presents a unique challenge for developing optimal biomaterials within the field of bone tissue engineering. Materials based on biological and physiological characteristics of natural bone have shown promise for inducing and promoting effective bone repair. Design of multicomposite scaffolds that incorporate both malleable and hard mineral components allows for intricate structures with nano- and macrosized mineral components to provide architectural elements that promote osteogenesis. The examined S-1 and S-2 scaffolds are multilayered constructs which differ only in the compositional ratio of nanohydroxyapatite (nHA) and decellularized bone particles (DBPs). The constructs incorporated previously studied nHA/polyurethane films interspersed with macrosized bone DBPs to stimulate integration with native tissue and induce osteogenic activity. In vitro assessment of cytocompatibility and osteostimulatory characteristics indicated that the scaffolds did not negatively impact cell health and demonstrated osteogenic effects. When the constructs were implanted in vivo, in a rat tibial defect model, the biocompatibility and osteogenic impact were confirmed. Material-treated defects were observed to not induce negative tissue reactions and, in those treated with S-1 scaffolds, exhibited greater levels of new bone formation. These results indicate that, while both scaffold designs were biocompatible, S-1 constructs demonstrate more effective biologically relevant nano-/macromineral architectural elements.

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Evaluation of a bone filler scaffold for local antibiotic delivery to prevent Staphylococcus aureus infection in a contaminated bone defect

Beenken

Campbell

Ramirez

et al. 2021

Sci Rep

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We previously reported the development of an osteogenic bone filler scaffold consisting of degradable polyurethane, hydroxyapatite, and decellularized bovine bone particles. The current study was aimed at evaluating the use of this scaffold as a means of local antibiotic delivery to prevent infection in a bone defect contaminated with Staphylococcus aureus. We evaluated two scaffold formulations with the same component ratios but differing overall porosity and surface area. Studies with vancomycin, daptomycin, and gentamicin confirmed that antibiotic uptake was concentration dependent and that increased porosity correlated with increased uptake and prolonged antibiotic release. We also demonstrate that vancomycin can be passively loaded into either formulation in sufficient concentration to prevent infection in a rabbit model of a contaminated segmental bone defect. Moreover, even in those few cases in which complete eradication was not achieved, the number of viable bacteria in the bone was significantly reduced by treatment and there was no radiographic evidence of osteomyelitis. Radiographs and microcomputed tomography (µCT) analysis from the in vivo studies also suggested that the addition of vancomycin did not have any significant effect on the scaffold itself. These results demonstrate the potential utility of our bone regeneration scaffold for local antibiotic delivery to prevent infection in contaminated bone defects.

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Use of a pressure-sensing walkway system for biometric assessment of gait characteristics in goats

et al. 2019

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The purpose of this study was to quantitatively assess gait characteristics and weight-bearing forces during ambulation in goats free of lameness using a pressure-sensing walkway as a biometric tool for stride, gait, and force analysis. Forty-six non-lame adult goats ranging in age from 5 to 6 years, mixed-breeds, and with a mean body weight of 52 ± 7.1 kgs were used. Goats were trained to walk over a pressure-sensing walkway. Data for analysis was collected on 2 different days, 3 days apart. On each day, 2 to 5 walking passes, in the same direction, were captured for each goat. Data from 2 valid passes meeting the criteria for consistent walking gait on each day were averaged then used for analysis. Analysis was performed, including the day-effect, for stride, gait, and force characteristics. Of the 46 goats enrolled in the study, complete data sets were achieved in 33 (72%) goats. Gait biometrics were similar among the assessment days; therefore, all data was pooled for the purpose of characterizing data for individual limb and biometric parameter comparisons at the individual goat level. Statistical analysis revealed that no difference within the paired limbs, and that there were significant differences between the front limbs and hind limbs. Maximum force and maximum peak pressure were significantly greater for the front limbs as compared with the hind limbs (p < 0.001). Based on the results, gait and force characteristics can be consistently measured in goats using a pressure-sensing walkway during a consistent walking gait. Goats apply greater force to the forelimbs during the weight-bearing phase of stride as compared with the hind limbs. The use of objective assessment tools is expected to improve the ability of researchers and clinicians to monitor changes in weight bearing and gait and will contribute to improved animal welfare.

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Fully Implanted Prostheses for Musculoskeletal Limb Reconstruction After Amputation: An In Vivo Feasibility Study

et al. 2020

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Rebecca E. Rifkin

Evaluation of a Polyurethane Platform for Delivery of Nanohydroxyapatite and Decellularized Bone Particles in a Porous Three-Dimensional Scaffold

Evaluation of a bone filler scaffold for local antibiotic delivery to prevent Staphylococcus aureus infection in a contaminated bone defect

Use of a pressure-sensing walkway system for biometric assessment of gait characteristics in goats

Fully Implanted Prostheses for Musculoskeletal Limb Reconstruction After Amputation: An In Vivo Feasibility Study

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