@indegeni.bsky.social
An awesome thing that YouTube recommended to me. Partially printed 3D stage with micron precision. Partially: the flexure member is made of metal string.
www.youtube.com/watch?app=de...
github.com/0x23/MicroMa...
#DIY #Microscopy
Or is this deliberate trolling of Trump by soldiers who definitely don't want to be here.
16.06.2025 07:28 β π 1 π 0 π¬ 0 π 0
Well, since you've read this far, we're already quite familiar with each other. So I'm ready to introduce you not only to spheroids, but also to sausageoids and 3d_cell_culture of ... other shapes.
13.06.2025 17:51 β π 2 π 0 π¬ 1 π 0I was greatly inspired to start this project by
@vsaggiomo.bsky.social, who has a whole series of such DIY projects. @senger.bsky.social and @alunellab also expressed interest at various stages.
Thank you.
8/n
The work turned out to be as open source as possible, all models were made in
@freecadnews.bsky.social, microscope images were processed in napari, ImageJ and CellProfiler
7/n
If you have a logical question: does the shape approximated by voxels produced by printers interfere with the cells? No, it does not interfere. I was also surprised, but the spheroids form perfectly.
Blue in the video is the CAD model, red is in the slicer, green is what actually comes out.
6/n
I tried to make everything as accessible as possible and specifically checked the reproducibility by distributing 3D models and printed samples of stamps to biologists I know. Everyone succeeded.
Models on GitHub can also be modified to suit specific tasks.
5/n
The required feature size for manufacturing spheroids is in the order of hundreds of micrometres, which is quite realistic for an MSLA printer. I mainly used an old Anycubic Mono, but other printers work just as well.
4/n
The MSLASpheroidStamp project includes 3D printed stamps that can be used to make indentations in agarose for #cell_culture #spheroids directly, and silicone molds (similar to MicroTissue).
3/n
You will need an MSLA 3D printer (around 200β400 USD), molding silicone, and a corner in the laboratory that will get dirty.
The article was published in Bioprinting: tinyurl.com/yjvuj64u
All protocols and models are available on GitHub:
tinyurl.com/3tm69k75
2/n
So, I'm on holiday, so it's the perfect time to post a thread that's been sitting around for a while.
How difficult is it to make your own spheroid production system comparable to the expensive MicroTissue or AggreWell systems?
Easy, actually.
1/n
#DIY #biology #science #3d_printing
I've tried a lot of options. It's not reliable and effective enough, so I'm just going to have to live with it.
13.06.2025 05:20 β π 1 π 0 π¬ 0 π 0
I am ***absurdly*** excited to announce the launch of a new funding opportunity through Experiment dot com!!! You have one month to pitch something wonderful in the realm of plant biology/biotech research and education. $10,000 max grant. PLEASE RE-POST + SHARE!!! 1/3
experiment.com/programs/pla...
Hi! My name is Joyce and I love building and using tools to manipulate the #cytoskeleton of cells to better understand their function. π¬
Below you can see my movie of #opto-katanin βοΈ(SspB-mCh-p60) being used to locally disassemble #microtubules (labelled by SiR-tubulin) inside a neuron.
Was flagged on pubpeer, but I think for nothing! Great article and a brilliant scientific breakthrough!
www.sciencedirect.com/science/arti...
New to Bluesky and looking for science feeds to follow? Check out this list created and updated by @markrubin.bsky.social. Thanks Mark!
docs.google.com/spreadsheets...
Axons β€οΈ ECM
16.11.2024 14:06 β π 32 π 6 π¬ 0 π 0
Let the first post here be a teaser for a paper I'm going to submit to a journal pretty soon. Redundant #DIY, #MSLA 3d printing and #3d_cell_cultures
16.11.2024 18:13 β π 3 π 0 π¬ 0 π 0
