Anne M. Arnold
Carnegie Mellon University
26 Papers
39 Citations
Anne M. Arnold is an academic researcher from Carnegie Mellon University. The author has contributed to research in topics: Chemistry & Bone regeneration. The author has an hindex of 8, co-authored 19 publications. Previous affiliations of Anne M. Arnold include Pacific Northwest National Laboratory.
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Papers
Phosphate graphene as an intrinsically osteoinductive scaffold for stem cell-driven bone regeneration
Anne M. Arnold,Brian D. Holt,Leila Daneshmandi,Cato T. Laurencin,Cato T. Laurencin,Stefanie A. Sydlik +5 more
TL;DR: It is demonstrated that functional graphenic materials (FGMs) could serve as an osteoinductive scaffold: recruiting native cells to the site of injury and promoting differentiation into bone cells, and leads to the formation of new bone in an animal model.
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Functional Graphenic Materials, Graphene Oxide, and Graphene as Scaffolds for Bone Regeneration
Zoe M. Wright,Anne M. Arnold,Brian D. Holt,Karoline E. Eckhart,Stefanie A. Sydlik +4 more
- 01 Jun 2019
TL;DR: Graphene, graphene oxide (GO), and functional graphenic materials (FGMs) have a variety of interesting properties that make them promising foundations on which to craft sophisticated, biomimetic, osteo-inductive, synthetic scaffolds for bone regeneration.
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Injectable amine functionalized graphene and chondroitin sulfate hydrogel with potential for cartilage regeneration
TL;DR: Johnson-Claisen rearrangement chemistry was performed on graphene oxide to enable functionalization with a primary amine covalently bound to the graphenic backbone through a chemically stable linker, which has potential to improve clinical outcomes of patients with cartilage damage.
37
In It for the Long Haul: The Cytocompatibility of Aged Graphene Oxide and Its Degradation Products.
TL;DR: Overall, GO is cytocompatible throughout the process of aging, beginning to demonstrate that GO may be utilized for long‐term in vivo applications such as implanted tissue engineered scaffolds or biosensors.
34
Peptide-functionalized reduced graphene oxide as a bioactive mechanically robust tissue regeneration scaffold
TL;DR: A robust chemistry and processing strategy is reported for facile bioactive functionalization of compatible, reduced Claisen graphene for three-dimensional biomedical applications.
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