2017
DOI: 10.1002/adhm.201700598
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Freeze‐Drying as a Novel Biofabrication Method for Achieving a Controlled Microarchitecture within Large, Complex Natural Biomaterial Scaffolds

Abstract: The biofabrication of large natural biomaterial scaffolds into complex 3D shapes which have a controlled microarchitecture remains a major challenge. Freeze-drying (or lyophilization) is a technique used to generate scaffolds in planar 3D geometries. Here we report the development of a new biofabrication process to form a collagen-based scaffold into a large, complex geometry which has a large height to width ratio, and a controlled porous microarchitecture. This biofabrication process is validated through the… Show more

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Cited by 99 publications
(63 citation statements)
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“…The main advantages of freeze-drying are the ability to regulate pore size from 20 to approximately 300 µm by the change of freezing procedure as well as the possibility to obviate high temperature. In turn, long timescale, high energy consumption, and the possibility to generate irregular pore size constitute the drawbacks of this method [123,[221][222][223][224]. Electrospinning is more complicated technique in which electrostatic forces are used for formation of thin fibers from polymer solution.…”
Section: Application Of Polymer Scaffolds Modified With Proteins Andmentioning
confidence: 99%
“…The main advantages of freeze-drying are the ability to regulate pore size from 20 to approximately 300 µm by the change of freezing procedure as well as the possibility to obviate high temperature. In turn, long timescale, high energy consumption, and the possibility to generate irregular pore size constitute the drawbacks of this method [123,[221][222][223][224]. Electrospinning is more complicated technique in which electrostatic forces are used for formation of thin fibers from polymer solution.…”
Section: Application Of Polymer Scaffolds Modified With Proteins Andmentioning
confidence: 99%
“…Comparatively to the aforementioned techniques, freeze‐drying provides the scaffolds with a homogeneous and uniform porous architecture, that can be further predefined and controlled, by adjusting the freezing temperatures and polymer concentration . Importantly, by using this approach physical and/or chemical crosslinking strategies can be employed to tune the material stiffness, which is an attractive parameter to predict different cell functions such as differentiation.…”
Section: Introductionmentioning
confidence: 99%
“…Porous collagen–glycosaminoglycan (CG) biomaterials have shown high biocompatibility, high porosity, and homogenous pore size distribution and are biodegradable with non‐toxic degradation products (Brougham et al, ). Despite their successful application, these scaffolds can suffer from core necrosis after implantation in vivo in certain applications (Lyons et al, ).…”
Section: Introductionmentioning
confidence: 99%