Fungus or algae?, in gel, in blood.
It travels through blood, but divides / grows in the polymer /gels.
( Note: Please don’t give this post a like as I’d like to test the stack algorithm - All comments and suggestions both welcome and appreciated as always though.)
The nub of it
What happens when it enters the gel.
Nub, in what’s left of the blood .
Nub, n blood.
Just traveling, in blood.
Entering the gel bubbles. (The blood cell circle is common when trapped in the gel)
First time I have seen this in blood, does not seem a good development.
This growth stops when it encounters the blood / gel membrane.
A different view of it.
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A few other recent pics:
I don’t often see what looks like a chip in the blood, but this one does. It certainly had a big effect on the surrounding blood.
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Note. I noticed these guys having a look - Thoughts?
Glyxon Biolabs
Description
Glyxon Biolabs studies microalgae and photosynthetic microorganisms to explore further strategies of atmospheric CO2 sequestration combining state of the art biotechnological approaches and mathematical modeling of ecological dynamics of planktonic ecosystems to develop novel ways to produce sustainable precursors of biofuels, bioplastics and other derivatives required in the electronics, food, medical and pharmaceutical industries. We also develop novel solution on minimal hardware for research and biopharma.
Hard to resist 'liking' the post when I really love seeing new things thrown into the ring of thought.
Have a look at the remarkable photo's of synbio in this post:
Scalable Intracorporeal Nanocircuitry? (1st April 2025) Eccentrik
2.5 YEARS into the landmark study and the Pfizer/Moderna SynBio structures are still growing in incubation...
Potentially alien synbio, a clusterfuck of possibilities
https://eccentrik.substack.com/p/scalable-intracorporeal-nanocircuitry?r=8ypo0