Takahito Murakami
Yoichi Ochiai
ABSTRACT
No abstract available.
Supplemental Material
Available for Download
- Andrew Michael Cayer, Jacob Daniel Aschettino, Luke Paul Bogdanovich, and Timothy Edward Granger. 2014. Design of Ergonomic Tissue Forceps. (2014).Google Scholar
- John Kirkup. 1996. The history and evolution of surgical instruments. VII. Spring forceps (tweezers), hooks and simple retractors.Annals of the Royal College of Surgeons of England 78, 6 (1996), 544.Google Scholar
- Lucia Kölle and Oliver Schwarz. 2016. Bionic forceps for the handling of sensitive tissue. Current Directions in Biomedical Engineering 2, 1(2016), 91–93.Google ScholarCross Ref
- Hiroshi Matsui, Gavin R Hunt, Katja Oberhofer, Naomichi Ogihara, Kevin J McGowan, Kumar Mithraratne, Takeshi Yamasaki, Russell D Gray, and Ei-Ichi Izawa. 2016. Adaptive bill morphology for enhanced tool manipulation in New Caledonian crows. Scientific reports 6, 1 (2016), 1–11.Google Scholar
Recommendations
Fundamental characteristics of printed gelatin utilizing micro 3D printer
Gelatin is useful for biofabrication, because it can be used for cell scaffolds and it has unique properties. Therefore, we attempted to fabricate biodevices of gelatin utilizing micro 3D printer which is able to print with high precision. However, it ...
3D printed PEGDA microstructures for gelatin scaffold integration and neuron differentiation
Three dimensional (3D) printing techniques can be used for scaffold fabrication but the most of them are limited by resolution and material choice. To bypass these limitations, we developed an approach by combining conventional 3D printing and freeze-...
3D Printed 3D-Microfluidics: Recent Developments and Design Challenges
Multi-layer structures with functionalities, varying height channels, complex microfluidic structures like valves, mixers and high aspect ratio channels (hereby referred as 3D-Microfluidics) are very difficult to fabricate using conventional microfluidics ...
Comments