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Design and Development of a 3D Bio-Printer / Muhammad Hassan

By: Hassan, Muhammad Contributor(s): Supervisor : Dr. Murtaza Najabat Ali Material type: Text

TextIslamabad : SMME- NUST; 2023Description: 57p. ; Soft Copy 30cmSubject(s): MS Biomedical Engineering (BME)DDC classification: 610 Online resources: Click here to access online Summary: 3D Bio-Printing is an advanced technology to fabricate scaffolds. Using this technique, the scaffolds of various tissues can be printed. A 3D Bio-Printer was designed for fabricating complex functional living tissues using bioink. Bioink is basically a blend of living cells along with biochemical materials including growth factors and support components and then printed. The factors to be considered during the development of a 3D Bio-Printer are compactness (To be placed in a laminar flow unit), Printing Resolution (Fabrication with high fidelity), Degree of freedom (Need multiple axes to print 3D construct), printing Speed (High speed required) and Process Biocompatibility. The aim of this research was to develop a syringe-based 3D Bio-Printer which may print Biomaterials and cells by considering these factors. The developed 3D Bio-Printer was then tested by printing a highly viscous hydrogel as proof-of-concept where gelatin was used to simulate the fluid properties of bioink. The syringe-based 3D Bio-Printer demonstrated a high level of printing resolution and stable prototype, and so has a potential for use in 3D cell culture after further in vitro testing

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Item type	Current location	Home library	Shelving location	Call number	Status	Date due	Barcode	Item holds
Thesis	School of Mechanical & Manufacturing Engineering (SMME)	School of Mechanical & Manufacturing Engineering (SMME)	E-Books	610 (Browse shelf)	Available		SMME-TH-914

Total holds: 0

3D Bio-Printing is an advanced technology to fabricate scaffolds. Using this technique, the
scaffolds of various tissues can be printed. A 3D Bio-Printer was designed for fabricating complex
functional living tissues using bioink. Bioink is basically a blend of living cells along with
biochemical materials including growth factors and support components and then printed. The
factors to be considered during the development of a 3D Bio-Printer are compactness (To be placed
in a laminar flow unit), Printing Resolution (Fabrication with high fidelity), Degree of freedom
(Need multiple axes to print 3D construct), printing Speed (High speed required) and Process
Biocompatibility. The aim of this research was to develop a syringe-based 3D Bio-Printer which
may print Biomaterials and cells by considering these factors. The developed 3D Bio-Printer was
then tested by printing a highly viscous hydrogel as proof-of-concept where gelatin was used to
simulate the fluid properties of bioink. The syringe-based 3D Bio-Printer demonstrated a high level
of printing resolution and stable prototype, and so has a potential for use in 3D cell culture after
further in vitro testing

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