Browsing by Author "Spicer, Patrick"

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    Combined space maintenance and bone regeneration system for the reconstruction of large osseous defects
    (2017-01-03) Mikos, Antonios G.; Wong, Mark E.; Young, Simon W.; Kretlow, James D.; Shi, Meng; Kasper, Kurtis F.; Spicer, Patrick; Rice University; United States Patent and Trademark Office
    Systems, methods and compositions useful for treatment of traumatic bone injuries are provided. In one embodiment, a bone reconstruction system comprising a space maintaining composition comprising porous polymethylmethacrylate; and an osseous generating construct comprising a polymethylmethacrylate chamber that comprises one or more osseous generating materials is provided. Associated compositions and methods are also provided.
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    Two Stage Repair of Composite Craniofacial Defects with Antibiotic Releasing Porous Poly(methyl methacrylate) Space Maintainers and Bone Regeneration
    (2013-09-16) Spicer, Patrick; Mikos, Antonios G.; Kasper, Kurt; Grande-Allen, K. Jane; Bennett, George N.; Wong, Mark E.
    Craniofacial defects resulting from trauma and resection present many challenges to reconstruction due to the complex structure, combinations of tissues, and environment, with exposure to the oral, skin and nasal mucosal pathogens. Tissue engineering seeks to regenerate the tissues lost in these defects; however, the composite nature and proximity to colonizing bacteria remain difficult to overcome. Additionally, many tissue engineering approaches have further hurdles to overcome in the regulatory process to clinical translation. As such these studies investigated a two stage strategy employing an antibiotic-releasing porous polymethylmethacrylate space maintainer fabricated with materials currently part of products approved or cleared by the United States Food and Drug Administration, expediting the translation to the clinic. This porous space maintainer holds the bone defect open allowing soft tissue to heal around the defect. The space maintainer can then be removed and one regenerated in the defect. These studies investigated the individual components of this strategy. The porous space maintainer showed similar soft tissue healing and response to non-porous space maintainers in a rabbit composite tissue defect. In humans, the porous space maintainers were well tolerated and maintained a soft tissue envelope for closure after implantation of a bone regeneration technology. The antibiotic-releasing space maintainers showed release of antibiotics from 1-5 weeks, which could be controlled by loading and fabrication parameters. In vivo, space maintainers releasing a high dose of antibiotics for an extended period of time increased soft tissue healing over burst release space maintainers in an infected composite tissue defect model in a rabbit mandible. Finally, stabilization of bone defects and regeneration could be improved through scaffold structures and delivery of a bone forming growth factor. These studies illustrate the possibility of the two stage strategy for repair of composite tissue defects of the craniofacial complex.