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TLM is a combination
of
NatCell Thymus, NatCell Liver and NatCell Mesenchyme.
TLM is taken daily, one vial per day. |
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One weeks worth of TLM
equals 3 vials of Thymus, 2 Vials of Liver and 2 vial of Mesenchyme.
This is the best possible combination for the most reasonable
price.
NatCell Thymus
NatCell® Thymus Frozen provides the highest concentration
of thymic peptides and is recommended for individuals with
special needs. Thymus - NF (non-frozen) provides broad-spectrum
thymic peptides in a convenient dose and take home package
for all individuals. Other products have only one thymic peptide
and others contain heat-treated powders with undesirable insoluble
material. NatCell® Thymus products are manufactured using
state of the art extraction and ultrafiltration processes
to preserve the integrity of the active thymic molecules and
peptides. Our proprietary ultrafiltration technology is a
chemical-solvent free process that eliminates the undesired
material and provides a broad spectrum of thymic peptides
and signaling molecules.
Potential application:
Helps in supplementing the system with stimulating
factors extracted from Canadian bovine thymus tissues.
Potential mode of action:
The molecules selected through our manufacturing
process support their natural endogenous counterparts once
absorbed in the body thus contributing to the body's homeostasis.
NatCell Thymus increases lymphocyte proliferation as shown
by invitro studies.
NatCell Liver Extract
Defining Live Cell Liver Peptide Growth Factors
From the Department of Pathology and Laboratory Medicine
at Brown University in Providence, Rhode Island, U.S.A., three
investigating pathologists, Drs. N. Fausto, A.D. Laird, and
E.M. Webber, advise: "During liver regeneration quiescent
hepatocytes [liver cells] undergo one or two rounds of replication
and then return to a nonproliferative state. Growth factors
regulate this process by providing both stimulatory and inhibitory
signals for cell proliferation.” (1)
The idea of intrinsic hepatic growth control factors produced
by animal and human liver cells has been stated in published
reports, which date back as Iong as forty-six years ago. (2,3,4,5,6)
Much of this early research was conducted on rats and dogs,
(7) but currently clinical investigations among both healthy
human volunteers and really sick people have taken place.
Comprised of the tiniest of protein molecules which biochemists
and physiologists call peptides, these growth factors are
of an exceedingly low molecular weight (30,000 Da) which yield
two or more amino acids on hydrolysis. The Dalton with a symbol
of D or Da, also called an atomic mass unit is equivalent
to 1.657 X 10 (24) gm. Peptide growth factors form by loss
of water from the NH2and COOH molecular groups of adjacent
amino acids and are additionally referred to in biochemistry
as di-, tri-, tetra-, etc. peptides, depending on the number
of amino acids in the molecule. Thus peptides make up the
constituent parts of proteins. Examples of those several dozen
peptides from the human liver and other organs which often
give birth to growth factors are: hepatocyte growth factor
(HGF), epidermal growth factor (EGF), transforming growth
factor-beta (TGF-beta), and dozens more. (7,8,9,10)
According to which of the various scientific disciplines
are being queried, different names exist for peptide growth
factors. Historically, for instance, cell biologists have
called members of their identified growth factor-type set
of molecules "growth factors"; immunologists have named their
growth factor-types "interleukins", "lymphokines", or "cytokines";
while hematologists have used the growth factor-type descriptive
term "colony stimulating factors" (CSF). However, the present
generally delineating nomenclature of "growth factors" has
been and is now widely used throughout the world's scientific
literature.
The growth factor term is now used consistently among almost
every scientific and medical discipline because in almost
every case it reflects the context of the original discovery
or isolation of any peptide. Since essentially all of these
many molecules are multifunctional, it's not easy to conceive
of unique new names for them that would be entirely satisfactory;
almost all of them are "panregulins", that is they react as
universal regulators of the particular organ from which they
derive. As you’ll learn below, for the animal and human body,
actually, peptide growth factors are physiological symbols
for the transfer of signals or a kind of language of biological
regulation. (11,12)
Peptides often promote cell growth, but they also can inhibit
it; moreover, they regulate many critical cellular functions,
such as in the control of cell differentiation and other processes
which have little to do with growth itself. All peptide growth
factors actin sets. To understand their actions, one must
always consider the biological context in which they act.
Peptide growth factors provide an essential means for a cell
to communicate with its immediate environment. They ensure
that there is proper local homeostatic balance between the
numerous cells that comprise a tissue or organ. Since a cell
must adjust its behavior to changes in its environment, the
cell needs mechanisms to provide this adaptation. Therefore
the tissue cells either singularly or collectively use sets
of peptide growth factors as signaling molecules to communicate
with each other and to alter their own behavior to respond
appropriately to their biological context.
The most important peptide growth factors of the liver's
hepatocytes have been identified as a collection of hormones
called somatomedins. These liver hormones are peptides which
produce major effects on the growth of bone and muscle. Also
they influence the metabolism of ingested minerals, including
calcium, phosphate, carbohydrate, and lipid. Somatomedins
growth factors are indirectly stimulated to divide by the
pituitary hormone somatotropin (also referred to as growth
hormone by endocrinologists).
The peptide growth factors act by binding to functional receptors
which transduce their signals, and the peptides themselves
may be viewed as bifunctional molecules.
The following are two main responses or actions that peptide
growth factors accomplish: They possess an afferent function
in that there is the conveying of information to cellular
receptors, providing them with information from outside the
organism's cell, tissue, or organ. They have an efferent function
in that there is the inception of any latent biochemical activity
of the receptor.
Potential application:
Helps in supplementing the system with stimulating
factors extracted from liver tissues.
Potential mode of action:
The molecules selected through our manufacturing
process support their natural endogeneous counterparts once
absorbed in the body thus contributing to the body's homeostasis.
MESENCHYME A unique
and unusual substance called Mesenchyme has arrived in the
USA with little notice or fanfare; however, you will be hearing
a lot about it in the years to come. Mesenchyme will revolutionize
the way we handle health problems because of its astonishing
and well-documented ability to repair and rejuvenate damaged
cells and tissues. Mesenchyme is undifferentiated embryonic
connective tissue, the true mother lode of cell growth and
cell regeneration. Mesenchymal cells develop during the early
embryonic stages of mammalian gestation and are the source
material from which most of the body’s organs and tissues
are made – everything from bones, muscles, and connective
tissue to the central nervous system (Moore 1989).
What is extraordinary about Mesenchyme is that when it is
ingested it migrates to the area of greatest injury in the
body. Once there, it aligns itself with the damaged cells
and/or tissues, becomes identical to them, and then starts
replicating.
Potential application:
Helps in supplementing the system with stimulating
factors extracted from mesenchymal tissues.
Potential mode of action:
The molecules selected through our manufacturing
process support their natural endogeneous counterparts once
absorbed in the body thus contributing to the body's homeostasis.
Caution:
This product may not be suitable for 1) pregnant
or nursing women; and 2) children under twelve years of age.
Add $40.00 for shipping when frozen items are included.
The
Following Articles are in Adobe PDF Format
To view these files you'll need the Adobe Acrobat Reader
installed.
If you do not have it, you can get it FREE by clicking HERE
TLM
Directions (PDF)
THYMUS EXTRACTS:
An International
Literature Review of Clinical Studies
(HTML
version) • (PDF
version)
A
Novel Approach to Thymus (PDF)
Thymus
Clinical Trials (PDF)
Mesenchyme's
Little known Facts (PDF)
Due
to the recent problem with the madcow disease,
the FDA has inspected and cleared our Natcell products
for sale.
FDA Clearance No. 110-3122937-2
NO MADCOW HERE! |
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