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Leveraging Advancements In Tissue Engineering For Bioprinting Dental Tissues, Devin Grace Morrison, Ryan E. Tomlinson
Leveraging Advancements In Tissue Engineering For Bioprinting Dental Tissues, Devin Grace Morrison, Ryan E. Tomlinson
Department of Orthopaedic Surgery Faculty Papers
3D bioprinting allows biocompatible materials and cells to be deposited in precise locations in three-dimensional space, enabling researchers to surpass the limitations of traditional 2D cell culture and to create innovative therapies. 3D bioprinting is one of the newest tools developed in the field of tissue engineering, which has traditionally utilized a paradigm revolving around scaffolds, cells, and signals. In this review, we discuss how new developments in each of these three research areas relates to bioprinting dental tissues – specifically teeth, periodontal ligament, and alveolar bone. Important considerations include how scaffold materials and geometry affect regeneration of dental tissues, …
The Trka Agonist Gambogic Amide Augments Skeletal Adaptation To Mechanical Loading., Gabriella Fioravanti, Phuong Q. Hua, Ryan E. Tomlinson
The Trka Agonist Gambogic Amide Augments Skeletal Adaptation To Mechanical Loading., Gabriella Fioravanti, Phuong Q. Hua, Ryan E. Tomlinson
Department of Orthopaedic Surgery Faculty Papers
The periosteal and endosteal surfaces of mature bone are densely innervated by sensory nerves expressing TrkA, the high-affinity receptor for nerve growth factor (NGF). In previous work, we demonstrated that administration of exogenous NGF significantly increased load-induced bone formation through the activation of Wnt signaling. However, the translational potential of NGF is limited by the induction of substantial mechanical and thermal hyperalgesia in mice and humans. Here, we tested the effect of gambogic amide (GA), a recently identified robust small molecule agonist for TrkA, on hyperalgesia and load-induced bone formation. Behavioral analysis was used to assess pain up to one …