THE CURE FOR ALL ADVANCED CANCERS
White Blood Cells (WBC)
These cells are our defense team. One type has the ability to
crawl (by means of pseudopodia!), squeeze through tiny spaces,
respond to something dead or toxic far away by moving toward
it, and simply eat it to destroy it. These are called granulocytes
(and also called “segs” or “polymorphs” or “neutrophils”) and
should constitute about seventy percent of your total WBC.
About twenty percent are smaller, rounder, and capable of de-
stroying viruses; those are the lymphocytes. The lymphocytes
are further divided into T and B lymphocytes, named after the
thymus or the bone marrow. Lymphocytes get their “final
training” at one of these two organs. The last 10% of your
WBCs are other varieties.
Your total WBC count should not be below 5,000/mm^3
(same as 5,000/uL). Any amount below this implies a toxin in
the bone marrow. Toxins abound. Heavy metals and azo dyes
are especially attracted to your bone marrow probably because
of its high fat content. (Metals and dyes are fat soluble.) Lead,
mercury, thallium, nickel, germanium, copper, cobalt and vana-
dium are commonplace. These consume your sulfur supply, es-
pecially glutathione. Then bacteria and even parasites are al-
lowed in. Many of these metals and dyes were found to be car-
cinogens decades ago.
Carcinogens have a special affinity for the stem cell line in
the bone marrow that makes white blood cells, probably be-
cause they are constantly in mitosis. Scarlet Red dye (Sudan
IV), Sudan Black B, DAB, and other dyes are commonly found
here by the Syncrometer. Hydroxyurea is found here too if As-
caris is present. Hydroxyurea specifically kills stem cells. Cop-
per^112 and lanthanide metals113,114 cause very large mutations,
(^112) Yamamoto, K., Kawanishi, S., Hydroxyl Free Radical Is Not the Main Active
Species in Site-specific DNA Damage Induced by Copper(II) Ion and Hydrogen
Peroxide, Journal of Biological Chemistry, v. 264, no. 26, 1989, pp. 15435-40.
(^113) Eichhorn, G.L., Butzow, J.J., Degradation of Polyribonucleotides by Lanthanum
Ions, Biopolymers, v. 3, 1965, pp. 79-94.
(^114) Das, T., Sharma, A., Talukder, G., Effects of Lanthanum in Cellular Systems, A
Review , Biological Trace Element Res., v. 18, 1988, pp. 201-28.