What is 3D Bioprinting? | Bioprinting Explained | Allevi
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- Опубліковано 29 вер 2020
- What is 3D bioprinting? How does it work? And why is 3D bioprinting so important for the future of medical innovation? Follow along as we give a high level overview of this incredible new technology that is disrupting the field of regenerative medicine, drug development and biomedical devices/implants. Questions about bringing this powerful design tool into your lab? Comment below and we'll be happy to discuss more! Created for the Maker Faire Zagreb 2020 virtual conference.
- Наука та технологія
Which soft materials are squeezed out of the syringe?
It's really up to you! Allevi users work with a wide range of industry-trusted bioinks (such as collagen, matrigel, gelma, and PLGA) as well as their own custom formulations. Most of our users work with a hydrogel mixed with whichever cell line they are working on. Please let us know if you have any additional questions. Thank you!
@@alleviinc6923 No but the video was really great and useful, and thank you fro explaining the materials inside :)
@@keithcorreia97 These are generally called hydrogel. Check it out if you are interested.
@@aniksamiurrahman6365 Ah thanks for that man!
Will 3D Bioprinting lead us to a future with printed organs and tissues?
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Hi dear! Which polymer is best for bone scaffold via 3d bioprinting? It means scaffold little bit hard after printing
Cool video, thanks!
Do you have any study material or manual to make a 3d bioprinter for own research? For my project work I have build a 3d bioprinter with a cheap cost. Can u help?
Allevi 3D bioprinters come in a wide range of prices to fit the needs of lab budget's both large and small. Email us at sales@allevi3d.com to receive a custom quote for your lab. You should also definitely check out our protocols page (www.allevi3d.com/protocols/) which has lots of great articles for 3D cell culture. Let us know if you have any additional questions!
Buy an i3 clone, modify the printhead to accept a custom or off-the-shelf syringe pump (probably won't have temp control) and start experimenting with Extrusion rates. Alternatively, build a heating block that can hold a syringe, then modify Marlin to run a vacuum pump as an extruder, substituting vacuum pressure steps for motor steps. It will require a lot of fine-tuning the extrusion rates for materials. Good luck!
Will 3D Bioprinting lead us to a future with printed organs and tissues?
ua-cam.com/video/TROcT8fP--A/v-deo.html
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Have anyone told you Yakub that you look like Jurgen Klopp ?
Ha ha ha that true