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Presentation transcript:

3D Bioprinting

3D bioprinting 1 '3D bioprinting' is the process of generating spatially-controlled cell patterns using 3D printing technologies, where cell function and viability are preserved within the printed construct. The first patent related to this technology was filed in the United States in 2003 and granted in

3D bioprinting - Process 1 Some of the methods that are used for 3D bioprinting of cells are photolithography, magnetic bioprinting, stereolithography, and direct cell extrusion

3D bioprinting - Applications 1 The company utilizes its NovoGen MMX Bioprinter for 3D bioprinting

Magnetic 3D Bioprinting - Terminology 1 'Magnetic 3D bioprinting' is a methodology that employs biocompatible magnetic nanoparticles to print cells into 3D structures or 3D cell cultures

Magnetic 3D Bioprinting - General Principle 1 There are several advantages to using magnetic 3D bioprinting over other 3D printing modalities such as extrusion, photolithography, and stereolithography

Magnetic 3D Bioprinting - History 1 The first commercially available 3D bioprinting system is being commercialized by Nano3D Biosciences, Inc. The first application of this system is for high-throughput and high-content drug screening.Timm, D. M. et al. [ 00/full/srep03000.html?WT.ec_id=SREP A high-throughput three-dimensional cell migration assay for toxicity screening with mobile device-based macroscopic image analysis]. Sci. Rep. 3, 3000 (2013)

Magnetic 3D Bioprinting - Process 1 Results employing Magnetic 3D Bioprinting were recently published in Scientific Reports in October

Magnetic 3D Bioprinting - Application 1 This has been demonstrated by the BiO Assay which combines the benefits of 3D bioprinting in building tissue-like structures for study with the speed of magnetic printing.

Magnetic 3D Bioprinting - Users 1 The target users for magnetic 3D bioprinting are in the pharmaceutical and CRO industries, where this system can be integrated early in the drug discovery process as a compound screen for toxicity and efficacy. In the future, magnetic 3D bioprinting could be applied to the field of regenerative medicine and organogenesis. Overall, magnetic 3D bioprinting is an effective tool to create faithful models of native tissue.

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