Design: Design

Cleft lip surgery using 3D Printing

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My Father In-law was the famous surgeon for doing cleft lip surgery. According to the Scientific Reports volume,”Computer-aided design and computer-aided manufacturing (CAD/CAM) technology have been implemented in the treatment of cleft lip and palates (CLP) by several research groups. This pilot study presents a technique that combines intraoral moulding with a semi-automated plate generation and 3D-printing”.

 

 

https://www.nature.com/

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Custom building envelopes straight from the 3D printer

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According to Moritz Mungenast, he is Associate Professor of Architectural Design and Building Envelope, “Custom building envelopes straight from the printer and not only is the facade element very stable, it’s also translucent and multi-functional. For example, cells inside the element provide stability while at the same time creating air-filled cavities for optimum insulation. Waves in the material create shadows. Thin embedded tubes let air circulate from one side of the element to the other, ensuring the best possible ventilation. And the micro-structured surface provides for perfect acoustics. All these functions are scalable and can be adapted to accommodate individual requirements at no extra cost”.

 

 

https://www.tum.de/en/about-tum/news/press-releases/detail/article/34151/

3D printing to understanding Influenza virus

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According to Dr Strappe he is working as Senior Lecturer in Medical Laboratory Science at CQUniversity for 20 years’ in Molecular Virology, “The CQUni has a state-of-the-art 3D printing facility which is largely used for engineering applications, however, the Medical students will use this technology to begin to understand concepts about how viruses are formed and enter cells, and how parts of the virus can be targets for therapeutic intervention.
Viruses cannot be seen with the naked eye and working with pathogenic viruses is untenable for undergraduates. 3D printing allows scaling up of the structure of these viruses so students can learn more about virus structure and shape, and relate these features to pathogenesis and recent outbreaks. For example, we are in the middle of a flu epidemic and from printing a high-resolution influenza virus we can highlight the part of the virus (haemmagluttin) that changes every year, causing new outbreaks and the need for annual vaccination. This project exposes medical science students to engineering concepts such as computer-aided design and advanced manufacturing, which they normally wouldn’t encounter in their degree. This helps students to think beyond the confines of their own subject and develop interdisciplinary skills which students will need in the field.”

 

https://www.cqu.edu.au/cquninews/stories/general-category/2017/cqu-students-use-3d-printing-to-get-close-to-understanding-influenza-virus