Post by toni on Dec 8, 2014 12:24:44 GMT -5
Something that needs "realized" by us with scopes, is that formations or the designs that are formed on our scope slides
from evaporating or drying fluid DOES MEAN SOMETHING.
Did you know that happy tears and sad tears (placed on a scope slide, then allowed to dry both reveal a difference just by the design it formed)?
This is important for those watching (fluids dry), because it then can be realized of the proteins, etc, within the fluid, just by those incredible designs formed.
For anyone in doubt watching a fluid on their slide dry, and beginning to make formations, (if in doubt whether those lines are formed from
something growing or cracks being formed from the drying, especially drying from the heat of the lighting of our scopes, ((( if in doubt )))
just place a drop of water upon the specimen, and if it's "blurs out"....that's because it was only heat drying cracks.
But, before placing water on your "designs, or formations that have formed on your slide" make sure to take a pic of it, as the formation is important.
And interestingly enough, it is used in science (this design formation for realization of what's what).
See *links below* - the tears, happy or sad tears, they ARE different. Don't miss the following links as they're useful and interesting.
No mystery now looking at "our specimens and fluids drying" on our slides anymore, because HERE IT IS,
info to get started with on how and why it does what it does, (the formations).
I know some want the "unknowing and hoopla to keep this all going on" as that makes for a NEVER GET BETTER situation,
but...I want better, and I know there's others that do too. So, look at reality, and lets figure this out because it's not off the charts.
allie.dbcls.jp/pair/DMC;Droplet+MicroChromatography.html
I think this process is called DMC (the link above)....Droplet+MicroChromatography (examining the dried fluid) to realize what it consists of.
The Microscopic Structures of Dried Human Tears
Read more: www.smithsonianmag.com/science-nature/the-microscopic-structures-of-dried-human-tears-180947766/#q1i8tAJTwQp6XuqC.99
www.smithsonianmag.com/science-nature/the-microscopic-structures-of-dried-human-tears-180947766/?no-ist
-------------------------------------------------------------------
Protein self-organization patterns in dried serum reveal changes in B-cell disorders.
www.ncbi.nlm.nih.gov/pubmed/17154654
--------------------------------------------------------------------
ABSTRACT
Desiccation of human tears on glass surfaces results in fern-like crystalloids.
This phenomenon has been associated with tear normality (Tear Ferning Test, TFT)
and is used as a diagnostic aid to evaluate patients with Dry-Eye disease
www.scielo.cl/scielo.php?script=sci_arttext&pid=S0716-97602013000300012
-----------------------------------------------------------------
www.ncbi.nlm.nih.gov/pmc/articles/PMC3201687/
-----------------------------------------------------------------
www.ncbi.nlm.nih.gov/pubmed?cmd=search&term=17154654