901034

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Fabrication of scalable and structured tissue engineering scaffolds using water dissolvable sacrificial 3D printed moulds.

Soumyaranjan Mohanty et al.

Materials science & engineering. C, Materials for biological applications, 55, 569-578 (2015-06-29)

One of the major challenges in producing large scale engineered tissue is the lack of ability to create large highly perfused scaffolds in which cells can grow at a high cell density and viability. Here, we explore 3D printed polyvinyl

A Versatile Method for Fabricating Tissue Engineering Scaffolds with a Three-Dimensional Channel for Prevasculature Networks.

Shuai Li et al.

ACS applied materials & interfaces, 8(38), 25096-25103 (2016-09-09)

Despite considerable advances in tissue engineering over the past two decades, solutions to some crucial problems remain elusive. Vascularization is one of the most important factors that greatly influence the function of scaffolds. Many research studies have focused on the

Hot-melt extruded filaments based on pharmaceutical grade polymers for 3D printing by fused deposition modeling.

Alice Melocchi et al.

International journal of pharmaceutics, 509(1-2), 255-263 (2016-05-25)

Fused deposition modeling (FDM) is a 3D printing technique based on the deposition of successive layers of thermoplastic materials following their softening/melting. Such a technique holds huge potential for the manufacturing of pharmaceutical products and is currently under extensive investigation.

Indirect three-dimensional printing: A method for fabricating polyurethane-urea based cardiac scaffolds.

R Hernández-Córdova et al.

Journal of biomedical materials research. Part A, 104(8), 1912-1921 (2016-03-19)

Biomaterial scaffolds are a key part of cardiac tissue engineering therapies. The group has recently synthesized a novel polycaprolactone based polyurethane-urea copolymer that showed improved mechanical properties compared with its previously published counterparts. The aim of this study was to

3D Printing Factors Important for the Fabrication of Polyvinylalcohol Filament-Based Tablets.

Tatsuaki Tagami et al.

Biological & pharmaceutical bulletin, 40(3), 357-364 (2017-03-03)

Three-dimensional (3D) printers have been applied in many fields, including engineering and the medical sciences. In the pharmaceutical field, approval of the first 3D-printed tablet by the U.S. Food and Drug Administration in 2015 has attracted interest in the manufacture

3D Printing of Medicines: Engineering Novel Oral Devices with Unique Design and Drug Release Characteristics.

Alvaro Goyanes et al.

Molecular pharmaceutics, 12(11), 4077-4084 (2015-10-17)

Three dimensional printing (3D printing) was used to fabricate novel oral drug delivery devices with specialized design configurations. Each device was loaded with multiple actives, with the intent of applying this process to the production of personalized medicines tailored at

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