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Understanding Biofilm and Lyme Disease
What about Lyme Disease?
There has been a lot of talk on Lyme forums about Lyme disease being a biofilm disease. This idea stems from a study done in a lab showing Borrelia, the bacteria associated with Lyme disease, forming a biofilm.
Borrelia can form a biofilm inside a test tube. Forming and participating in biofilm is a natural trait for most bacteria. In fact, if you can’t form a biofilm, you’re not much of a bacteria.
The symptoms associated with Lyme disease, however, are not typical of biofilm diseases. Bacteria manipulating the immune system to generate inflammation is what causes Lyme disease symptoms. Inflammation breaks down tissues and allows the bacteria to access vital nutrients.
When it comes to biofilms in the body, it wouldn’t be surprising to find that Borrelia can join the party, but once inside the biofilm, it would lose its ability to manipulate the immune system and therefore lose its capacity to cause symptoms. That said, biofilms are not how Borrelia causes illness.
Chronic Immune Dysfunction caused by Borrelia, however, could allow biofilms in the body to flourish. This may be a factor with an intestinal disease that usually accompanies Lyme disease and skin diseases sometimes associated with Lyme disease (but it is probably a slight factor compared to other things). Calcium deposits in the inner ear causing dizziness may also be related to biofilm.
As to whether biofilms prevent antibiotics from eliminating Borrelia, other factors play a greater role in determining antibiotic resistance. Borrelia grows very slowly, exists in small concentrations in the body, can bore deeply into cartilage and brain tissue, and can live inside cells—all factors that enhance resistance to antibiotic therapy.
How to Overcome Biofilms
Though Lyme disease is not a biofilm disease, it is a good idea to support the body’s ability to deal with biofilms during any illness.
A healthy immune system is the best way to slow formation of biofilm in the body. The immune system is always breaking down new biofilms that start to form—it’s part of the everyday struggle of life.
Digestive enzymes help with digestion, but also help break down biofilm in the gut. Systemically absorbed enzymes may also dissolve other biofilms in the body.
N-acetyl cysteine (NAC) is known to break up mucous and may also play a role in dissolving biofilm.
EDTA, a chelating agent, removes minerals from the biofilm surface and can help break up a biofilm (but can also remove essential minerals from the body at large).
Oxygen and nitric oxide penetrating into the biofilm can help degrade the biofilm.
Blasting biofilms with strong chemicals and potent antibiotics don’t work because it suppresses immune function. Supporting healthy immune function and etching away until the biofilms are gone is the best approach.
What about Lyme Disease?
There has been a lot of talk on Lyme forums about Lyme disease being a biofilm disease. This idea stems from a study done in a lab showing Borrelia, the bacteria associated with Lyme disease, forming a biofilm.
Borrelia can form a biofilm inside a test tube. Forming and participating in biofilm is a natural trait for most bacteria. In fact, if you can’t form a biofilm, you’re not much of a bacteria.
The symptoms associated with Lyme disease, however, are not typical of biofilm diseases. Bacteria manipulating the immune system to generate inflammation is what causes Lyme disease symptoms. Inflammation breaks down tissues and allows the bacteria to access vital nutrients.
When it comes to biofilms in the body, it wouldn’t be surprising to find that Borrelia can join the party, but once inside the biofilm, it would lose its ability to manipulate the immune system and therefore lose its capacity to cause symptoms. That said, biofilms are not how Borrelia causes illness.
Chronic Immune Dysfunction caused by Borrelia, however, could allow biofilms in the body to flourish. This may be a factor with an intestinal disease that usually accompanies Lyme disease and skin diseases sometimes associated with Lyme disease (but it is probably a slight factor compared to other things). Calcium deposits in the inner ear causing dizziness may also be related to biofilm.
As to whether biofilms prevent antibiotics from eliminating Borrelia, other factors play a greater role in determining antibiotic resistance. Borrelia grows very slowly, exists in small concentrations in the body, can bore deeply into cartilage and brain tissue, and can live inside cells—all factors that enhance resistance to antibiotic therapy.
How to Overcome Biofilms
Though Lyme disease is not a biofilm disease, it is a good idea to support the body’s ability to deal with biofilms during any illness.
A healthy immune system is the best way to slow formation of biofilm in the body. The immune system is always breaking down new biofilms that start to form—it’s part of the everyday struggle of life.
Digestive enzymes help with digestion, but also help break down biofilm in the gut. Systemically absorbed enzymes may also dissolve other biofilms in the body.
N-acetyl cysteine (NAC) is known to break up mucous and may also play a role in dissolving biofilm.
EDTA, a chelating agent, removes minerals from the biofilm surface and can help break up a biofilm (but can also remove essential minerals from the body at large).
Oxygen and nitric oxide penetrating into the biofilm can help degrade the biofilm.
Blasting biofilms with strong chemicals and potent antibiotics don’t work because it suppresses immune function. Supporting healthy immune function and etching away until the biofilms are gone is the best approach.