GLYCOBALM™ Active ingredients
Helix Aspersa Müller
Glycoconjugates.
Complex compound of powerful biologically active protein
enzymes, proteoglycans, glycosaminoglycans, copper peptides and antimicrobial peptides, in the mucus mucin
collected from live snails.
Antimicrobial Peptides - Biocid Action Against Skin Infection & Acne
Disruption of the skin by acne inflammation, infection, sun damage, disease, lesions due to trauma, surgery, burns, accidents, or by chemical, dermabrasion or laser procedures used for skin renewal, generates a signal to the innate immune system and initiates responses that may or may not be effective in a) preventing an impending invasion from surrounding microbes and b) in triggering the regeneration of new healthy cells to replace those damaged.
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Cutaneous defense mechanisms
by antimicrobial peptides. |
Recent research has led to conclude that the skin itself not only
acts as a physical barrier against microorganisms, it also produces peptides
which tend to display broad-spectrum antimicrobial activity. The skin also
produces growth factors, inhibitors of tumors and proteins. Following skin
lesions or wounds, growth factors are produced to stimulate the regeneration of
tissue and to induce the creation of antimicrobial peptides. The growth factor
response ceases after regeneration of the tissue, when the physical barrier
protecting against microbial infections is re-established.
The body's
response to acne, skin infection or injuries may or may not be impaired due to a
malfunction of the immune system but when those occur we tend to address the
problem with antibiotics and medicines that may have undesired side effects.
Below we present an alternative and biological product made with the same biocid
and skin regenerating complex a little creature with a skin similar to human
skin uses to repair his own body when it has been damaged and is attacked by
opportunistic bacteria and microbes.
A biological Solution to Clear Skin
Infections in Days
Skin infection can also be addressed with GLYCOBALM instead of using antibiotics that create bacterial resistance.
The
current situation of antibiotic resistant bacteria is creating alarm throughout
the medical community. The over-prescription of antibiotics and people not
taking the full recommended dosage, has created some super bacteria that are
quite deadly because they are resistant to antibiotics. A good example is the
new form of pneumonia that usually ends with infected people being placed in an
Intensive Care Unit.
So what do we do now? One thing we can do is to look
at how humans and other organisms ward off infections. The answer for many of
humans infectious problems may lie with antimicrobial peptide antibiotics which
have been found to be produced by all living animals tested to date.
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Antibacterial activity of snail mucus mucin
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This includes frogs (Journal of Peptide Research - Amphibians,
The antibiotic and anticancer active aurein peptides from the Australian Bell
Frogs) cows, fish ( Characterization of a Fish Antimicrobial Peptide), pigs
Natural antibiotics help aid swine health and food safety, insects Antimicrobial
peptides in insects), snails (Antimicrobial peptides in the secretion of land
snails ), snakes, birds and plants. And they are produced by many different
tissues and organs of the body, including our skin.
These peptides are
thought to punch holes in the membranes of bacteria much like the complement
proteins do in our immune system. But what is really exciting about these
antimicrobial peptide antibiotic complexs is that the target bacterium may not
be able to mutate and defend itself against this antibiotic action.
Bacteria have survived for millions of years by developing resistance to
new stressors including natural antibiotics like penicillin. What simply happens
is that the bacteria, with a high rate of mutation, ends up modifying one or
more of its enzymes that are used to break the link between a target protein and
the antibiotic. As a result, the antibiotic does not work.
But to adapt
to a peptide antibiotic that punches a hole in the cell membrane is a different
story. To protect itself, the bacterium would have to change the entire
composition of the cell membrane. And to change the composition of a membrane
would mean changing many of the enzymes that are responsible for making the
complex membrane in the first place.
Peptide antibiotics respond within
minutes. Part of the reason for this rapid response is how the peptide acts on
the cell membrane. But to destroy a cell, the peptide must also quickly find the
bacterial membrane. How does this happen? The answer lies in the construction of
the cell membrane.
The plasma membrane of eukaryotic cells is much
different than the membrane of a prokaryotic cell. Eukaryotic cell membranes are
constructed of a phospholipid bilayer and cholesterol. Consequently, these
membranes have a low negative electrical charge. On the other hand, a bacterial
membrane is made up of fats and sugars. This difference in construction means
that bacteria have a high negative electrical charge that quickly attracts the
peptide antibiotics.
Peptide antibiotics are effective. In one clinical
trial for the treatment of meningitis, a disease that affects 3,000 children a
year, a peptide antibiotic not only killed the bacterium which produces the
toxin, but it also bound to the toxin preventing the damage the endotoxin
produces. This is a promising new venue for research ... and creating effective
drugs...
But bringing a drug to clinical trial is time consuming and
expensive. It takes $300 million to bring a drug to market. This cost covers
every thing from discovery, identification, synthesis and clinical trials. This
process may also take 10 or more years to accomplish.
Fortunately we do
not have to wait to get the benefits of antimicrobial peptides when fighting
acne or skin injuries, for they can be addressed with the peptides and proteins
contained in the mucin of certain species of land snails, the same they use to
repair their own body and calcium shell whenever damaged.
The natural
biocid action of the snail's mucin is very effective against skin infections and
acne inflammation, and without the pitfalls of pharmaceutical antibiotics or the
side effects of harsh chemicals. The mucin also helps to get rid of the chemical
inflammatory promoters (i.e. interleukin-6, hydrogen peroxide, histamines,
bacterial toxins) that are significantly increased by acne infection.
GLYCOBALM contains secretions of land snails and acts both as a unique
antimicrobial that kills acne germs and also as a skin regenerating
complex.
Acne treatment, rosacea, acne scar marks removed with
GLYCOBALM
? stimulates the production of defensive molecules on the
skin that fight microbes, viruses and fungi, creating a barrier against
infection
? yields quick results in treatment of acne infections
? unclogs
pores blocked by sebum
? controls adult pimples & teen pimples,
zits & blackheads, gets rid of back acne
? effective for facial ice pick
acne scar marks, pitted acne scars, chicken pox scar repair
? compatible with
accutane for severe cystic acne scarring and accutane's side effects
? acts
against folliculitis pustular sores and lumps (boils, furuncles), on skin or
scalp
? gets rid of rosacea pustules, papules & lesions
? reduces acne
rosacea redness and rhinophyma
? eliminates warts
Forget about
chemicals, now you can take care of your skin with nature's gift for healthy
skin.