Evaluating 3D‐Printed Biomaterials as Scaffolds for Vascularized Bone Tissue Engineering | Zendy

Wang Martha O. | Zendy; Vorwald Charlotte E. | Zendy; Dreher Maureen L. | Zendy; Mott Eric J. | Zendy; Cheng MingHuei | Zendy; Cinar Ali | Zendy; Mehdizadeh Hamidreza | Zendy; Somo Sami | Zendy; Dean David | Zendy; Brey Eric M. | Zendy; Fisher John P. | Zendy

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Evaluating 3D‐Printed Biomaterials as Scaffolds for Vascularized Bone Tissue Engineering

Author(s) -

Wang Martha O.,

Vorwald Charlotte E.,

Dreher Maureen L.,

Mott Eric J.,

Cheng MingHuei,

Cinar Ali,

Mehdizadeh Hamidreza,

Somo Sami,

Dean David,

Brey Eric M.,

Fisher John P.

Publication year - 2015

Publication title -

advanced materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.707

H-Index - 527

eISSN - 1521-4095

pISSN - 0935-9648

DOI - 10.1002/adma.201403943

Subject(s) - 3d printed , biocompatibility , materials science , toolbox , tissue engineering , modular design , biocompatible material , biomedical engineering , nanotechnology , scaffold , computer science , mechanical engineering , engineering , metallurgy , operating system

There is an unmet need for a consistent set of tools for the evaluation of 3D‐printed constructs. A toolbox developed to design, characterize, and evaluate 3D‐printed poly(propylene fumarate) scaffolds is proposed for vascularized engineered tissues. This toolbox combines modular design and non‐destructive fabricated design evaluation, evaluates biocompatibility and mechanical properties, and models angiogenesis.

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