In this week’s issue of “From Academia”, we share with you three diverse publication in the space of 3D printed devices to alleviate supply shortages during COVID-19 pandemic, bioprinted constructs with shape memory capabilities, and 3D printed anatomical retroperitoneum models for anatomical education. The first article examines the practicality and clinical suitability of four face shields fabricated via material extrusion 3D printing. The second article demonstrates the use of a bioprinted pore-forming hydrogel constructs for enabling minimally invasive tissue regeneration and cell therapy. The third article presents a systematic workflow towards the development of anatomical retroperitoneum models utilizing CT and MRI datasets. This work allows the development of cadaver-based models which are highly accurate, reproducible and durable.
“From Academia” features recent, relevant, close to commercialization academic publications. Subjects include but not limited to healthcare 3D printing, 3D bioprinting, and related emerging technologies.
Email: Rance Tino (info@3dheals.com) if you want to share relevant academic publications with us.
3D Printed Protective Equipment during COVID-19 Pandemic
Authored by Christian Wesemann, Stefano Pieralli, Tobias Fretwurst, Julian Nold, Katja Nelson, Rainer Schmelzeisen, Elmar Hellwig, and Benedikt Christopher Spies. MDPI Materials, 24 April 2020
Bioprinted Injectable Hierarchically Porous Gelatin Methacryloyl Hydrogel Constructs with Shape-Memory Properties
Authored by Guoliang Ying, Nan Jiang, Carolina Parra‐Cantu, Guosheng Tang, Jingyi Zhang, Hongjun Wang, Shixuan Chen, Ning‐Ping Huang, Jingwei Xie, Yu Shrike Zhang. Advanced Functional Materials. 6 September 2020
Producing 3D printed high‐fidelity retroperitoneal models from in vivo patient data: The Oxford Method
Authored by Matthew A. Williams, Robert W. Smillie, Michael Richard, Thomas D. A. Cosker. Journal of Anatomy. 24 July 2020.
Related Articles:
From Academia: Oxygenated Bioink, Cartilage Repair, Pharma Tool for Neuroregeneration
From Academia: 3D Printing Intubation Phantom, Functional Porous Implants, Beating Cardiac Organoids
Comments