Phosphate in Blood, Fibrinogen and Fibrin Clots

How much has been measured and how? You can't exist without Phosphorus and you need it to dissolve Endotoxin induced Fibrin Clots.

Like Graphene Oxide, Phosphate in Jab Victim Clots is being used as a diversion with a mix of real and pseudo-Science.

The Fifth Column are active again.¹ I won’t tell you where to find the latest rubbish.

Unfortunately it arrived in my Sustack notifications.

They won’t tell you Phosphorus is an essential component of Blood, bones, teeth, DNA, RNA or your energy production.

They won’t tell you Phosphorus makes up about 1% to 1.4% of your fat-free body weight.

They won’t tell you that equates to 10,000 to 14,000 parts per million.

They won’t tell you Sulfur is an expected component of Fibrin Blood Clots because Fibrinogen is a plasma Phosphoprotein of molecular mass 340 000 which is made up of six polypeptide chains joined by disulphide (disulfide) bonds.²

They will tell you they found Carbon in Fibrin Blood Clots. Surprise Surprise!

In Human adults, normal Phosphate (PO4) concentration in serum or plasma is 2.5 to 4.5 mg/dL (0.81 to 1.45 mmol/L). That is 45 milligram per Litre, or 45 parts per million.

They won’t tell you that of course you expect to find Phosphorus in the Amyloid Fibrin Clots caused by Endotoxin in Jabs.³

So here are some references to work done over many decades to measure Phosphate in Whole Blood, Serum, Fibrinogen and Fibrin Clots.

In 1985 we find a very interesting study by Dutch researchers from the Central Laboratory of the Netherlands Red Cross Blood Transfusion Service, Amsterdam.⁴

A more recent paper⁵ includes numerous references and shows that PolyPhosphates (polyP) increase the resistance to dissolution.

Phosphates love to hang on to each other as in an Adenosine TriPhosphate that is vital to your very existence, known as ATP.⁶

Here are clots they made to measure the influence of PolyPhosphates, which increased the Fiber thickness and mass to length ratio.

The caption reads:

polyP increases the thickness of fibrin fibrils. Clots were formed by preincubating 2.6 mg/mL of fibrinogen for 15 minutes in the presence of 2.5 mM CaCl₂ plus the indicated polyP concentrations, after which clotting was initiated with 3 nM thrombin. (A) Mass-length ratios of the resulting Fibrin preparations (relative to the condition without polyP), calculated from scans of optical densities from 400 to 800 nm as described in “Determination of fibril thickness.” Data are mean plus or minus SE (n = 4). (B) Fiber thickness is measured from scanning electron micrographs, as described in “Scanning electron microscopy.” Data are mean plus or minus SE (n = 120). (C-F) Representative scanning electron micrographs of fibrin clots formed in the presence of (C) no polyP, (D) 100 μM polyP, (E) 500 μM polyP, and (F) 1 mM polyP. Bar represents 2 μm.

Now if you want to read how they dissolved Fibrin Clots, unlock here.