[Cytonet] Why was the FIRST-degree burn ^^^^FOAMY WHITE^^^^?!?! Was
It Coagulation??!!?!?!?!?!?!?!?! Please Answer With
Reasonable Responses!!!! Its NOT VASOCONSTRICTION or
DEHYDRATION!!!!!!!!!!
Why has no one answered this question of mine? Please answer it
bara... at comcast.net wrote:
> The redness and whiteness during light burns is the result of different
> behaviour of the subcutaneous capillaries.
No. Redness and PALENESS is the result of the different behavior of
capillaries.
There is a difference between paleness and whiteness.
> Heat induces shock.
>> The resident granulocytes (histiocytes residing in the subcutaneous tissue)
> degranulate, and among others release histamine that is a potent
> vasoconstrictor. It causes the smooth muscle in the capillary to constrict.
> Constricted blood vessels reduce the blood flow locally, and the skin looks
> pale (white).
>This reaction is less visible in the more pigmented skin.
Not in my case. I am very dark-skinned [literally as dark as an oreo
cookie]. My burn wound appeared white -- foamy white. It was NOT cold,
so vasocontriction didn't cause the color change. The wound was
unusually hot, extremely irritating and painful and FOAMY WHITE.
What caused this whiteness? I know it is NOT vasoconstriction! It
seemed like a first-degree burn. The skin texture and moisture content
didn't change much. There was NO _swelling_ at all!
Is it the coagulation of the epidermal proteins that causes the
'whiteness'? If not, then what causes
it????????????????????????????????!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?
I know for a fact that it is ^^^^NOT^^^^
vasoconstriction!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
I know for a fact that it is ^^^^NOT^^^^
^^dehydration^^!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
The plate wasn't NEARLY hot enough to ^^dehydrate^^ my skin AT ALL.
Plus the duration of contact wasn't long enough to dehydrate my skin in
the burn region.
I hope my response didn't seem harsh. I was just trying to clarify that
the WHITENESS I am describing has nothing to do with VASOCONSTRICTION.
Unlike what you describe, the WHITENESS did NOT turn red at all. The
wound began to darken to my normal skin color after it healed.
I hope you understand.
> Now if the burn is more severe, is causes tissue damage. Cells necrotize and
> the permeability of endothelial lining of the blood vessels increases
> (serum exudes) in addition to the histamines other components are released
> too including the components of the complement system, all of this results
> in a localized, but rapidly escalating inflammatory reaction. This further
> increases the vascular permeability, vasodilation and enhanced blood which
> is necessary for leucocytes to infiltrate the damaged tissue (to protect and
> help to repair it).
>> At this stage erythema formation is common occurrence which is the swelling
> and redness of the affected areas of the skin. This takes some time to
> develop, so the proper order of changes is: whiteness immediately after the
> injury, followed by redness in minutes or hours.
>> Now if you have a VERY strong burn, "cauterizing" burn, that coagulates
> proteins even deeper in the tissue, it plugs the blood vessels by causing
> the proteins to coagulate, there is no blood circulation, and the skin
> remains pale (white). Because of reduced circulation, it takes much longer
> for the inflammatory reaction to begin and usually the injury develops a
> decently sized "sack" filled with yellowish plasma that hides any color
> below it (plain optical phenomenon) it protects the underlying tissue but
> dries up gradually and normal blood coagulation proteins help to form a
> brownish cover over the damaged area.
>> The ultimate burn injury results in charring. Charred tissue is initially a
> dry mixture of skin proteins and blood, contains large amount of
> carbohydrates, lipids, hemoglobins etc, and all kind of degradation products
> thereof, carbonized, caramelized sugars etc, that causes it to have a dark
> almost black color. It never regenerates (dead tissue), but easily breaks
> and allows bacteria to seep into the wounds. charred tissue is usually
> removed to hasten the healing.
>> lajos
Hmm, I wonder what would happen if all the proteins in my epidermal
tissues throughout my body were thermally-denatured completely but did
NOT form *covalent* bonds after being denatured.
Please note: My email address is not glucegen1 at excite.com. I don't use
that address. I use glucegen1b at excite.com
