3D Bioplotter Research Papers

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Displaying all papers by S. M. Mitchell (1 results)

Hyperelastic “bone”: A highly versatile, growth factor–free, osteoregenerative, scalable, and surgically friendly biomaterial

Science Translational Medicine 2016 Volume 8, Issue 358, Pages 358ra127

Authors:A. E. Jakus A. L. Rutz S. W. Jordan A. Kannan S. M. Mitchell C. Yun K. D. Koube S. C. Yoo H. E. Witheley C-P. Richter R. D. Galiano W. K. Hsu S. R. Stock E. L. Hsu R. N. Shah

Despite substantial attention given to the development of osteoregenerative biomaterials, severe deficiencies remain in current products. These limitations include an inability to adequately, rapidly, and reproducibly regenerate new bone; high costs and limited manufacturing capacity; and lack of surgical ease of handling. To address these shortcomings, we generated a new, synthetic osteoregenerative biomaterial, hyperelastic “bone” (HB). HB, which is composed of 90 weight % (wt %) hydroxyapatite and 10 wt % polycaprolactone or poly(lactic-co-glycolic acid), could be rapidly three-dimensionally (3D) printed (up to 275 cm3/hour) from room temperature extruded liquid inks. The resulting 3D-printed HB exhibited elastic mechanical properties (~32…

Keywords:Bone Regeneration Hydroxyapatite Hyperelastic Bone in-vivo (mice) in-vivo (monkey) in-vivo (rat) Mesenchymal stem cells (MSCs) PCL PLGA