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spirochetal Borrelia bacteria

Healing Lyme Naturally

Healing Lyme Disease Naturally: History, Analysis, and Treatments
by Wolf D. Storl
Foreword by Matthew Wood
North Atlantic Books

In our interview with herbalist and teacher Matthew Wood, you may recall his mentioning a new book, Healing Lyme Disease Naturally, by Wolf Storl. Matthew wrote the foreword to this book, and talked to us about the role of the herb teasel (Dipsacus sylvestris) in healing Lyme. Dr Storl is an anthropologist and herbalist, as well as an engaging and prolific writer. He has published twenty-eight books, and his work has been translated into numerous different languages. He has also taught university courses in medical anthropology. As a result of a superinfection that resisted antibiotic treatment in an earlier illness he suffered, he was unable to take antibiotics when he discovered he had Lyme. For this reason, he was forced to turn to older methods of treating a serious disease. Dr Storl healed himself using teasel and supportive therapies, such as a light diet, exercise and hyperthermia.

This new book is not going to appeal to everyone. However, if you are interested in herbal medicine and lore, or if you're investigating alternatives to antibiotics, you may find it a captivating read, as I did. It will give you a comprehensive picture of Lyme and another spirochetal illness that resembles Lyme, and that is syphilis. (Matthew Wood and others have called Lyme "deer syphilis".) Through the wide lens of medical history, and illustrated with his own personal story, he shows us how these diseases have been viewed and treated in different cultures through time.

If you've become paranoid of picnicking by the lake, or you panic at the sight of a weird-looking spider on the wall, this book may help restore your sense of wonder about nature, and lose a little of the fear. After all, as he points out in a provocative examination of the advent of antibiotics after WWII, microbes are not the enemy. They are an integral part of us.

Early in the book there is a fascinating chapter about the stealthy make-up of the Borrelia spirochete. Research scientists have told me that the Borrelia bacteria is capable of dormancy, changing forms, and hiding from the immune system. I just never really understood quite how until I read this chapter, which explains the Borrelia bergdorferi and its "astonishing typical characteristics." Among them:

  • Depending on the conditions of their environment, borrelia can take on different forms. Besides the normal spiral or corkscrew spirochete form, they can cast off their cell wall and, held together by a thin pliable membrane, take on globular form. In this way, cell-wall-inhibiting antibiotics are rendered useless. In this spheric form (also called L-form) they are not recognizable for the immune cells; they have, so to say, no "features," no antigens, by which they could be recognized.
  • Borrelia can also encapsulate and go into dormancy within minutes. They seem to do this when their environment is polluted by antibiotics, for example. Until the environment improves for them, they can remain dormant for at least ten months without carrying on basic life functions such as metabolism or dividing. As long as they are metabolically inactive, antibiotics have no effect of them. The patient believes he has been finally cured, but then the symptoms rebound anew.
  • Borrelia can attach to host cell walls (mainly scar-tissue cells and even defense cells) and induce the cell to release its own digestive enzymes, which eat a hole in the cell wall. The spirochete then enters the cell, kills the nucleus, and wears the cell wall as a disguising cloak or mask. This is another way in which these terrorists of the microscopic world evade recognition by the immune cells.

Included in his telling of herbal lore and histories are intriguing ethno-medical stories. For example, did you know that at one point in the 19th century, doctors injected syphilitic patients with malaria? It seemed to help. About a third of the patients would get healed. Another third weren't affected at all, and the other third entered a long remission. Years later, in the 1930s, the medical establishment discovered why it helped: the malaria caused spiking fevers of 107 degrees, which killed the Borrelia bacteria. Hyperthermia has long been used by many different cultures to kill bacteria of all kinds.

Dr Storl raises and explores important questions, such as whether Lyme is a new illness, or an old disease that was diagnosed as other conditions. Aside from an examination of teasel and how it works in healing Lyme, dosages, preparation methods, and more, there are many practical tips included here, such as measures to take to protect against tick bites (essential oils such as cedar milk, clove oil, tea tree oil, peppermint oil and others may be effective when rubbed onto exposed skin areas), and an explanation of the way antibiotics such as doxycycline work.

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Lyme disease in dogs

Are you and your dog both at risk for Lyme? It's terrible to think so, yet those energizing hikes through the forest that you and your canine pal adore may be putting you at a greater risk for infection. Even if you're not a frequent hiker, you know how man's best friend loves to rummage through the bushes around the edge of the yard and snuffle through piles of leaves. Hedges and leaf piles are prime hiding spots for ticks.

Lyme is endemic in the northeastern US, and increasing incidences of the illness are being reported in northern California and the Pacific northwest. Dogs living in other parts of the country may be at less of a risk for exposure. But before you allow yourself to believe your dog is out of the woods (so to speak), bear in mind that Lyme infection has been reported in every state.

Lyme in dogs manifests differently than in humans. When bitten by an infected tick, 30 - 50% of people will develop a skin rash and flu-like symptoms. However, dogs are not likely to develop symptoms for many weeks or months. Your dog might exhibit signs of arthritis from painful joint inflammation, or he might run a fever. Your veterinarian can prescribe a course of antibiotics such as doxycycline or Amoxicillin, which many dogs respond well to. As in humans, all the bacteria may not be killed with this course. Long term or chronic Lyme may or may not be a problem for our beloved buddies.

  • According to an article by Wendy C. Brooks, DVM, DipABVP Educational Director of VeterinaryPartner.com, dogs do not tend to develop neurologic or heart issues.
  • However, kidney disease may occur in response to stimulation by latent pathogens over a long period of time.

Preventing Lyme infection might be possible with the use of powerful tick repellents and collars. However, even if you use these agents you should take the time to check your dog daily for ticks whenever you think there has been exposure. There is no hard evidence to prove that a tick must be attached for 48 hours before it can spew its Lyme bacteria into the animal on which it's feeding. If the tick is disturbed while feeding, it may dump its toxins into the bloodstream of the host animal.

  • If you find a tick on your pet, grasp the tick firmly but gently with a tweezers and pull it straight out without twisting or turning it.
  • Never suffocate the tick by putting anything on it, such as Vaseline or soap. Doing so may cause it to unload its bacteria before you remove it.


The bad news is that diagnosing Lyme disease in dogs is as tricky as it is for humans. Spirochetes are notorious for being able to hide masterfully from the host's immune system. Therefore, detecting antibodies to the Lyme bacteria is nearly impossible. If you and your vet suspect that your furry buddy might have Lyme, the good news is that a 2 - 4 week course of antibiotics should bring your pet relief from symptoms quickly, within 48 hours.
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20,000 cases? Sorry, you're wrong

Dear ABC Good Morning America,

Thank you for running the story on Lyme disease. However, I would like to challenge your reporters on one point. The number of new cases of Lyme per year is said by Lyme specialists to be ten to forty times higher than the 20,000 quoted by the CDC, and the number used in your report. Gross misdiagnosis and under-diagnosis is due in part to the notoriously inaccurate tests for Lyme that are currently in use by most infectious disease doctors in the US. These tests are the Western Blot and the ELISA.

The Lyme compound consists of the spirochetal Borrelia bacteria, plus any number of mycoplasma parasites and other pathogens. This compound is a particularly stealth bacteria that is able to evade the body's immune system, therefore protecting itself from the attack of antibiotics by drawing up a shield around itself, and hiding in various cyst forms throughout the patient's body and brain. The common tests for Lyme do not account for the sophisticated nature of this bacteria, according to researchers at the University of New Haven, Dr. Alan MacDonald and Dr. Eva Sapi.

Another reason for the misdiagnosis is the fact that no two Lyme patients present symptoms in the same way. In addition, it is not known how long the bacteria may lie dormant.

The irksome fact that the process of writing the IDSA treatment guidelines have been found to be in violation of the law has created quite a stir with patients of this devastating disease. The most profound problem is the existence of two standards of care for Lyme, which directly affects patients' health insurance and coverage of long-term antibiotics. ILADs physicians have told me that there are thousands of scientific models proving that Lyme can go chronic if undertreated or left untreated. The IDSA has ignored that scientific evidence. This is the heart of the Lyme debate.
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