Lyme disease is becoming increasingly common in the United States and worldwide. Find out more about what causes Lyme, symptoms of an acute or chronic infection, and how the Functional Medicine approach can help treat the condition.
Table of Contents:
- An introduction to Lyme disease, what causes it, and how it’s transmitted
- The history of Lyme disease and the controversy surrounding it
- Symptoms of Lyme disease
- What Borrelia burgdorferi does in the body
- Lyme disease is becoming prevalent and widespread
- Other tick-borne diseases
- Why Lyme is hard to treat
- Transmission between people
- Testing for Lyme
- Preventing Lyme disease
- The Functional Medicine approach to Lyme
What Is Lyme Disease?
Lyme disease is a multisystem infectious disease caused by the bacterium Borrelia burgdorferi and transmitted to humans through the bite of infected ticks. In the United States, two types of ticks carry Lyme disease:
- The Eastern blacklegged tick (Ixodes scapularis), also known as the deer tick, transmits Lyme disease on the East Coast and in the Midwest
- The Western blacklegged tick (Ixodes pacificus) transmits the disease on the West Coast
A third type of tick, the lone star tick (Amblyomma americanum), has not been found to transmit Lyme disease but does transmit other harmful pathogens. Its rapid geographic expansion into Lyme-endemic territories, including the Southeast, East Coast, and Midwest, is a significant cause for concern because the pathogens it carries can worsen illness in Lyme-infected individuals. (2)
What Causes Lyme Disease: Borrelia burgdorferi
Borrelia burgdorferi is a spirochete, a spiral-shaped bacterium, related to the bacteria that cause syphilis but more genetically complex. It is the primary causative agent of Lyme disease in North America, whereas Borrelia afzelii and Borrelia garinii, other members of the Borrelia species complex, are the primary causes of Lyme infection in Europe and Asia. (3) More recently in North America, Borrelia miyamotoi, Borrelia mayonii, and Borrelia hermsii have also been implicated in a significant proportion of Lyme disease cases. (4, 5, 6, 7)
How Is Lyme Disease Transmitted?
Borrelia bacteria require both an invertebrate vector—namely, ticks of the Ixodes genus—and a vertebrate host to successfully complete their life cycle. Ticks are vehicles for transmitting Borrelia to “reservoir hosts,” including mice and deer, which typically don’t experience ill effects from the pathogen.
Throughout their approximately three-year lifespan, ticks go through four life stages: egg, larva, nymph, and adult. Nymph Eastern blacklegged ticks have the highest Lyme disease infection rate, whereas lone star ticks attack human hosts aggressively in all life stages—adult, nymph, and larvae. (8)
Ticks transmit Borrelia burgdorferi (and many other pathogens) during the feeding process:
- First, a tick must find a feeding spot. Once it lands on a human or animal, it attaches to the skin and secretes a numbing agent that prevents the host from feeling the tick bite.
- Next, the tick bites into the surface of the skin, inserting a feeding tube and secreting a cement-like substance that firmly attaches it to the skin during the blood meal.
- The tick slowly sucks blood from the host over several days before dropping off and preparing for a new life stage.
If the tick contains any pathogens, the infectious organisms within its saliva are transmitted to the host during the feeding process.
History of Lyme Disease
Early case reports of Lyme disease began to emerge in the United States in the late 1960s and 1970s. However, the medical community did not take a serious interest in the condition until 1975, when a group of people in the Connecticut towns of Lyme and Old Lyme came down with an odd assortment of symptoms, including fatigue, arthritis, and neurological dysfunction.
The scientific and medical communities’ investigations ultimately led them to discover that all afflicted patients had experienced tick bites before the onset of illness. Eventually, the blacklegged tick was implicated in the transmission of the newfound disease, which became known as Lyme disease. In 1981, Swiss-American scientist Willy Burgdorfer discovered the infectious cause of Lyme disease, a hardy, genetically complex spirochete, which he named Borrelia burgdorferi. (9)
Lyme disease, once considered a rare condition, has exploded in prevalence over the past several decades. According to the authors of a recent peer-reviewed article on Lyme, “Lyme disease should be recognized as a virulent epidemic that is at least six times more common than HIV/AIDS.” (10)
Lyme Disease: A Controversial Illness
Since its discovery, Lyme disease has been steeped in controversy. The mainstream medical community claims that Lyme disease is rare and easily treated with a single round of antibiotics. While supporters of this claim include several highly esteemed medical organizations, including the CDC and the Infectious Diseases Society of America (IDSA), serious doubts have been expressed about the ethical behavior of these groups in their development of Lyme disease treatment guidelines. (11)
The International Lyme and Associated Diseases Society (ILADS) stands in direct opposition to the CDC and IDSA, arguing that Lyme disease is a complex condition that often requires extended treatment beyond what the conventional guidelines recommend. Despite abundant evidence that Lyme disease persists after treatment and that current diagnostic tests are inadequate, the CDC and IDSA continue to resist changing screening and treatment guidelines. Their actions (or lack thereof) on the Lyme front continue to deprive patients of the tests and treatment they need to get better.
What Are the Symptoms of Lyme Disease?
Once an infected tick bites a human, it begins to transmit microbes, among which Borrelia burgdorferi may be included. If the immune system responds immediately to the influx of B. burgdorferi, acute symptoms occur. If the immune system does not quickly detect the bacteria, or if treatments during the acute phase fail, Lyme disease may produce chronic symptoms.
Acute Lyme Disease Symptoms
An erythema migrans is specific for Lyme disease; people with it can receive a diagnosis without clinical testing. However, few people with Lyme disease recall a prior tick bite and, in up to 30 percent of cases, an erythema migrans doesn’t appear, severely limiting the clinical utility of these two diagnostic features. (12)
Other symptoms of acute Lyme disease include:
- Headache
- Fatigue
- Rash
- Night and day sweats
- Chills
- Muscle pain
- Joint pain
- Neck pain
- Sleep issues
However, even these symptoms are frequently mistaken for other illnesses, such as the flu, delaying Lyme disease diagnosis.
Chronic Lyme Disease Symptoms
Lyme disease can become chronic, causing significant physical and mental impairment. Chronic Lyme disease is estimated to afflict a shocking 1.5 million people in the United States—far more than the 300,000-person figure cited by the CDC. (13) The prevalence of chronic Lyme disease is only expected to rise further in coming years, with nearly two million people expected to be affected by 2020. (14)
Some of the symptoms of chronic Lyme disease overlap with acute symptoms, including fatigue, joint pain, and sleep issues. However, chronic Lyme disease can also cause more serious dysfunctions in diverse body systems:
- Neuropsychiatric problems, like depression, anxiety, headaches, brain fog, mood swings, emotional lability, suicidal thoughts, and cognitive dysfunction
- Sudden-onset aggressiveness and violence, which have been observed in some cases of Lyme disease and Lyme coinfections, particularly Bartonella (15)
- Alzheimer’s disease, shown by a well-documented relationship between Lyme and neurodegenerative diseases (16)
- Immune dysfunction and inflammation, which is perpetuated by poor-quality sleep
- Neuropathy, or nerve malfunction, which can be caused by nervous system inflammation in various parts of the body
- Cardiovascular symptoms (17)
- Issues with fetal brain development in cases where a pregnant woman has Lyme disease and it’s transmitted to her child (18)
How Does Lyme Disease Become Chronic?
While I’ll answer this nuanced question in more detail below, the short answer is that chronic Lyme develops if the disease is missed in its early stages and as a result of the complex characteristics of Borrelia burgdorferi, which allow it to evade detection by the immune system and persist in the body.
Three Mechanisms of Action of Borrelia burgdorferi
How is Lyme disease capable of causing such a diverse array of symptoms? Borrelia burgdorferi induces physiological dysfunction through several mechanisms:
1. Borrelia Causes Inflammation
Borrelia burgdorferi incites a profound systemic inflammatory response, releasing pro-inflammatory cytokines that adversely affect tissues ranging from the heart to the brain. The neuroinflammatory effects of B. burgdorferi cause peripheral neuropathy and brain inflammation, resulting in depression, anxiety, brain fog, and other neuropsychiatric symptoms. (19, 20)
2. Borrelia Downregulates Immunity
Borrelia burgdorferi downregulates host immune function, allowing it to persist in the body undetected. (21) This subsequent immune suppression makes the host more susceptible to opportunistic infections, further harming the body.
3. Borrelia May Provoke Autoimmunity
Chronic Lyme disease may also provoke autoimmunity through cross-reactivity between B. burgdorferi antibodies and self-proteins. This mechanism helps to explain why Lyme disease has been linked to multiple sclerosis, rheumatoid arthritis, and Alzheimer’s disease. (22)
Lyme Disease Is Becoming More Prevalent and Widespread
In my previous article, 5 Myths and Truths about Chronic Lyme Disease, I debunked several common myths about Lyme disease—including the misconception that it’s a rare affliction limited to one region of the United States.
The perpetuation of these myths continues to hamper the timely diagnosis and effective treatment of the disease, causing countless people to suffer.
According to the CDC, there are more than 300,000 new cases of Lyme disease in the United States every year. (23) However, those numbers are likely skewed. Underreporting and inaccurate tests likely contribute to this—as well as the fact that many people with suspect Lyme disease don’t undergo testing before they begin treatment. As of 2018, the incidence of Lyme disease was estimated to be far greater than the 300,000-person figure reported by the CDC, instead reaching nearly 1 million people in the United States alone. By 2050, this number may rise to 55.7 million people. (24)
Many times, when patients living outside the East Coast voice their concerns about Lyme disease to their doctors, they are immediately shut down because most physicians hold the mistaken belief that Lyme can only be contracted on the East Coast. While Lyme disease was discovered on the East Coast, it is certainly not limited to that region. In fact, it has been diagnosed in all 50 states, and the ticks that carry it have been found in 43 of 50 states.
There are several reasons why Lyme disease is expanding in geographic distribution:
- Humans are increasingly developing natural areas, putting them in closer contact with ticks
- Ticks can be carried across state lines by migratory birds, deer, and traveling people and pets (25)
- Longer warm seasons due to climate change are extending the lifespan of ticks, giving them more time to infect animals and humans (26, 27)
Just as Lyme disease isn’t limited to one region, it’s not confined to rural or forested areas. Borrelia-carrying ticks are found in similar distributions in urban and suburban areas alike. (28, 29)
Other Tick-Borne Diseases and Coinfections
While Borrelia burgdorferi has long been the focus of Lyme disease research, scientists are learning that a single tick bite can transmit numerous infectious organisms, complicating Lyme disease treatment.
Ticks are reservoirs for dozens of microorganisms besides B. burgdorferi, including other types of bacteria, parasites, and viruses. Some of the organisms in ticks are not pathogenic but influence the tick’s ability to harbor and transmit pathogens, making it more virulent. (30, 31) Other tick-borne organisms are pathogenic, causing distinct sets of symptoms and complicating the clinical picture:
- Babesiosis: Infection with Babesia microti causes anxiety, drenching sweats both day and night, shortness of breath, and heart racing.
- Bartonella: Infection with Bartonella species causes sore throat, swollen glands, foot pain, abdominal pain, and pain in large joints such as shoulders and knees. It is also linked to neuropsychiatric disorders such as anxiety, panic disorder, rage, and sudden-onset schizophrenia. (32, 33) Bartonella is common in cats and other domestic animals and veterinarians have an increased risk of infection. (34, 35)
- Ehrlichiosis: Ehrlichiosis causes flu-like symptoms, including a dry cough, fatigue, muscle pain, and low white blood cells. It also lowers platelets and elevates liver enzymes. The incidence of Ehrlichia infection is increasing in the United States, with most cases occurring among immunocompetent (not immunocompromised) patients. (36)
- Rickettsia: Rickettsial infection is frequently mistaken for the flu because it produces symptoms such as fever, nausea, and vomiting. In 50 to 85 percent of people, it causes a red-spotted rash on the palms of the hands. Like Ehrlichia, it also reduces white blood cells and platelets while elevating AST and ALT. Rickettsia is believed to play a significant but underappreciated role in Lyme pathogenesis, influencing disease persistence. (37)
- Mycoplasma: Mycoplasma pneumoniae over stimulates B cells, causing autoimmune reactions and rheumatoid diseases, fatigue, and joint and muscle pain. The weakened immunity caused by Borrelia burgdorferi makes the body more susceptible to Mycoplasma infection. (38, 39)
- Chlamydia infections: Chlamydia infection causes arthritis, upper respiratory infections, and pneumonia and may contribute to the development of autoimmune diseases. (40)
- Viruses: Ticks have also been found to have a high viral density, transmitting novel, harmful viral species such as the South Bay virus. (41)
Why Lyme Disease Is So Challenging to Treat
Contrary to what the CDC and IDSA would like us to believe, Lyme disease is complicated and notoriously difficult to treat. Complete eradication of B. burgdorferi spirochetes by antibiotics has not been achieved in any animal model ever tested. (42) Treatment of B. burgdorferi is difficult due to the bacterium’s ability to evade the immune system, change its morphology, and adapt to antibiotic treatments.
It Impairs the Immune System
As I mentioned earlier, Borrelia impairs host immunity, including the adaptive immune response and the complement system, the part of the immune system that enhances the ability of antibodies and phagocytes (cells that engulf bacteria and other small particles) to clear harmful microbes. (43, 44) This not only opens up the body to opportunistic infection, but also allows Borrelia to persist in the body.
It Transforms to Evade the Immune System
Borrelia also changes its own morphology to evade the immune system; it transforms from its characteristic spiral shape into a spherical cystic structure devoid of cell-surface recognition proteins. (45) It also teams up with other microorganisms, including the co-infectious agents mentioned earlier, to form a biofilm. (46, 47) Biofilm is a consortium of microorganisms embedded in a slimy extracellular matrix; when bacteria are incorporated into biofilm, they become resistant to antibiotic treatment. In the case of Lyme disease, Borrelia biofilm makes treatment even more difficult.
It Rapidly Adapts to Antibiotics
Borrelia burgdorferi rapidly alters its gene expression in response to doxycycline, one of the most commonly prescribed drugs for Lyme disease, creating an antibiotic-resistant phenotype. Doxycycline treatment of Borrelia-infected mice causes Borrelia to upregulate genes that facilitate bacterial dormancy and downregulated genes that code for cell-surface proteins; these changes cause the immune system to halt its “search” for the bacteria, allowing Borrelia to establish persistent infection. (48) B. burgdorferi has also demonstrated resistance to amoxicillin and ceftriaxone, with treatment inducing drug-tolerant “persister” cells. (49)
At Johns Hopkins University, a recent study found a three-antibiotic cocktail useful for clearing persistent Borrelia; however, it remains to be seen whether Borrelia will also adapt to combination antibiotic therapies. (50)
Lyme Transmission between People
The topic of Lyme disease transmission from one person to another is contentious. While the CDC and IDSA recognize that Lyme disease can be transmitted from a woman to her unborn child through the placenta, they maintain that “no negative effects on the fetus have been observed when the mother receives appropriate antibiotic treatment.” (51)
Conversely, the mainstream medical community vehemently argues against the idea that Lyme can be transmitted between people through other routes, such as sexual contact. However, several lines of evidence suggest that this belief is mistaken. B. burgdorferi can be cultured in the vaginal fluid and seminal secretions of infected individuals, suggesting the possibility of sexual transmission as a mode of infection. While these findings remain speculative, they certainly warrant further study. (52, 53) If Lyme disease is found to be sexually transmitted, this would have significant implications for the treatment.
How to Test for Lyme Disease
For decades, the CDC and IDSA have relied on a two-tier blood testing strategy for diagnosing Lyme disease. The first tier is an ELISA (enzyme-linked immunosorbent assay) blood test, which measures levels of antibodies against Borrelia burgdorferi. The second tier, a western blot, also tests for antibodies to B. burgdorferi but goes a step further by reporting reactivity to 10 different proteins found in the bacterium. However, the two-tier testing strategy poses multiple problems:
- The two-tier approach has a low sensitivity (the ability to correctly identify those with the disease) of 30 to 40 percent in the early stages of Lyme disease; for those of you not familiar with biostatistics, this is pretty abysmal. At all stages of Lyme disease, including the often devastating later stages, the sensitivity of the two-tier algorithm increases to only 57.6 percent. (54, 55)
- The western blot does not pick up on many naturally occurring strains of Borrelia that cause disease. Because the western blot uses antigens from cultured strains of Borrelia, not clinical specimens, it does not pick up on many disease-causing strains of Borrelia that naturally occur in our environment.
- The western blot is prone to methodological issues and subjectivity in interpretation. Slight variations in the western blot methodology and the highly subjective nature of western blot interpretation can lead to false negatives.
Clearly, our current “gold standard” blood testing strategy for Lyme disease is insufficient. But what tests should be used instead? At the California Center for Functional Medicine (CCFM), we’ve found a combination approach to be the most useful for diagnosing Lyme disease.
Serologic Testing
As a first step, we recommend serologic tests for Lyme disease. Serologic tests include the ELISA, the western blot, and the immunoblot, a new test that is more sensitive than the western blot and is designed to take its place. (56) Serologic Lyme tests can be done through Stony Brook University, Quest, LabCorp, or IGeneX.
Molecular Testing
If serologic tests come back negative, but Lyme disease is still strongly suspected, next-generation molecular Lyme tests can be used to supplement the serologic results. The EliSpot from ArminLabs assesses the T-cell immune response to Borrelia burgdorferi, thus reflecting current Lyme disease activity. The test becomes negative when B. burgdorferi is no longer active, making it useful for monitoring treatment.
Global Lyme Diagnostics offers the GLD test, which tests for the presence of antibodies to B. burgdorferi outer surface proteins, thereby expanding the number of species and strains that can be detected. The diversity of targets identified by the test significantly reduces false negatives.
Ceres Nanoscience, another cutting-edge company offering diagnostic solutions for Lyme, offers the Nanotrap Lyme Antigen Test. This test concentrates Lyme antigens in urine and then detects the antigens using an ELISA and western blot.
Importantly, we do not recommend testing for Lyme with PCR technology. While PCR-based tests, such as DNA Connexions, once seemed promising, they frequently produce false positives and demonstrate low sensitivity. (57)
Metabolomics: The Future of Lyme Disease Testing?
Last but not least, the field of metabolomics holds promise for future testing of Lyme disease. Metabolomics involved testing for the biosignature of Lyme disease, characterized by specific proteins and other metabolites either produced directly by the bacterium or by the body in response to the bacterium. (58)
Lyme Disease Is “the Great Imitator”
The diagnosis of Lyme disease is further complicated by the fact that it mimics many other conditions. In many cases, this leads to misdiagnosis. Before Lyme disease was first recognized in Lyme, Connecticut, it was mistaken for juvenile arthritis. (59) Lyme has also been misdiagnosed as multiple sclerosis, neuropsychiatric disorders, and Alzheimer’s disease. In some cases, untreated chronic Lyme disease may lead to these conditions, so the “misdiagnosis” may be partially correct even though it does not consider the underlying cause of the disease process. (60, 61, 62)
How You Can Prevent Lyme Disease
The simplest way to prevent Lyme disease is to avoid tick bites. Here’s a quick review of how to prevent tick bites and what steps to take if you are bitten. For more, check out my article “What to Do about a Tick Bite.”
Be Conscious in the Outdoors
Whenever you embark on a hike, walk, picnic, or any other activity outdoors, stick to well-groomed paths and avoid tall grasses. Tall grasses are one of the favorite habitats of ticks; when searching for a host to feed on, animal or human, ticks climb to the outer tips of the grass and wave their legs around, waiting to hitch a ride on an unsuspecting passerby. (63) Avoid walking through leaf litter or sitting on logs because ticks also like to hang out in these locations.
Use Insect Repellant
Insect repellant is critical for warding off ticks and other disease-carrying biting insects, such as mosquitos. You have several options for an effective repellent:
- Lemon eucalyptus oil, which is natural, non-toxic, and as effective as DEET for deterring ticks and mosquitos (64, 65)
- Permethrin, a synthetic insect repellent derived from chrysanthemums
- DEET, for extreme tick exposure situations
In general, I recommend starting with a safe option like lemon eucalyptus oil. Permethrin and DEET should be used with caution.
Perform Regular “Tick Checks”
When you return home from the outdoors in tick-endemic areas, change your clothes and put the used clothes in the dryer for 20 minutes—the heat will kill any ticks that hitched a ride. Next, perform thorough tick checks on your children, partner, and pets, and then have somebody check you. Be sure to examine your entire body, and check your children before bed and nightly if they have been playing outside.
Nymph ticks, the primary tick vector for Lyme disease, are the size of poppy seeds and thus quite hard to detect. You may need to use a magnifying glass. If you have an iPhone or Android, you can use the built-in magnifier tools, or you may want to keep a small magnifying glass at home for this purpose.
Safely Remove an Attached Tick
If you’ve been bitten by a tick, it is crucial that you promptly remove the tick using the proper removal technique. I recommend using a pair of TickEase tweezers, which have a fine tip specially designed for tick removal. Keep a pair in your purse, hiking backpack, car, and at home.
Here’s how to remove a tick safely:
- Grasp the tick with the tweezers, getting as close to the skin as possible
- Slowly and steadily lift up on the tick, perpendicular to where it’s attached
- Maintain pressure and wait for the tick to release
Don’t squeeze the body of the tick, twist it, burn it, or try any other home remedies. This can increase the risk of infection, as the tick might regurgitate its stomach contents into the bite area.
For more information on tick removal, see the Bay Area Lyme Foundation’s helpful web page on tick removal.
Get the Tick Tested for Pathogens
Once you’ve removed the tick, place it in a plastic bag with a moist paper towel and save it for identification and pathogen testing. You can try identifying the tick yourself using a resource like TickEncounter. Understanding what type of tick bit you can help your doctor decide whether or not to begin treatment for Lyme disease while waiting on the results of pathogen testing.
You have a few options to have the tick tested for pathogens, like:
- TickReport, which offers comprehensive pathogen testing and a quick turnaround time of 72 hours, and
- The Bay Area Lyme Foundation, which offers free—albeit slower—testing services
Pathogen testing can determine whether or not the tick that bit you carried Borrelia burgdorferi. Knowing that sooner rather than later can give your doctor the chance to begin treatment immediately, which can could help prevent chronic Lyme disease complications.
In some cases, your doctor may choose to begin treatment before receiving the results of pathogen testing (or in cases where testing wasn’t possible). Several factors go into a choice like this, including where you live, the type of tick that bit you, and how long it was attached before removal. I recommend consulting closely with your doctor to determine the right course of action for you.
Why a Functional Medicine Approach Is Best for Chronic Lyme Disease
The conventional medical approach to treating Lyme disease is very limited and, while antibiotics have their place in Lyme treatment, they do not correct the immune dysfunction, inflammation, and other metabolic derangements caused by the disease. Functional Medicine offers an entirely different approach—one that considers patient health from a whole-body perspective and works to correct the systematic dysfunctions characteristic of chronic Lyme disease. While every Functional Medicine protocol for Lyme will be somewhat different, you can expect to see the following:
- An anti-inflammatory diet and targeted nutritional support: Proper nutrition helps support healthy immune function and decrease Lyme-induced inflammation, providing a foundation for recovery.
- Antimicrobials: Both pharmaceutical and botanical antimicrobials have a place in the Functional Medicine approach to Lyme disease.
- Immune system and anti-inflammatory support: Both of these are crucial for Lyme recovery.
- Gut healing: The various coinfections transmitted in a tick bite can disrupt the gut microbiota, setting the stage for gut dysfunction and systemic inflammation. Like diet, supporting gut health should be a foundational part of any Lyme treatment protocol.
- Mold exposure: Many patients with chronic Lyme disease also have a history of mold exposure that further compromises their immunity. Mold exposure is just one of several environmentally acquired illnesses that Functional Medicine can address in people with Lyme disease.
For more resources on Lyme disease:
Crestone and Beyond
I thank Chris Kresser for his research and efforts in bringing forth this comprehensive coverage of a complicated subject.
In the reading list below I will be posting more current articles about Lyme disease as I encounter them.
Thank you for reading.
Signing off from Crestone and Beyond
Additional Reading
Some ominous news from Newsweek, 7-17-19…The U.S. House of Representatives quietly passed a bill requiring the Department of Defense (DoD) to conduct a review into whether the Pentagon experimented with ticks and other blood-sucking insects for use as biological weapons between 1950 and 1975, determining “whether any ticks or insects used in such experiments were released outside of any laboratory by accident or experiment design,” potentially leading to the spread of diseases such as Lyme.
Bitten: The Secret History of Lyme Disease and Biological Weapons, published by Stanford University science writer and former Lyme sufferer Kris Newby, features interviews with late Swiss-born scientist Willy Burgdorfer—the man credited with discovering the Lyme disease pathogen—who once worked for the DoD as a bioweapons specialist. “Those interviews combined with access to Dr. Burgdorfer’s lab files suggest that he and other bioweapons specialists stuffed ticks with pathogens to cause severe disability, disease—even death—to potential enemies,” Smith said during the debate on the House floor.
Mercola article on Lyme disease being a possible bioweapon
STORY AT-A-GLANCE
- In her book, “Bitten: The Secret History of Lyme Disease and Biological Weapons,” Kris Newby reviews the circumstantial evidence suggesting the organism that causes Lyme disease may originally have been developed as a biological weapon
- An estimated 476,000 Americans are diagnosed with and treated for Lyme disease each year, and prevalence is rising
- Lyme disease is transmitted by ticks (and sometimes other biting insects) infected with the bacteria Borrelia burgdorferi. There are about two dozen species of B. burgdorferi with hundreds of strains worldwide, many of which are resistant to antibiotics
- Ticks can also carry other pathogens, and coinfections are another reason why Lyme disease is so difficult to treat
- A major challenge with Lyme disease is that its symptoms imitate so many other disorders, including multiple sclerosis (MS), arthritis, chronic fatigue syndrome, fibromyalgia and even Alzheimer’s disease, making proper identification difficult and time consuming
In a February 28, 2023, Substack article,1 investigative journalist Paul D. Thacker interviewed award-winning author Kris Newby about the U.S. government’s history of manipulating pathogens to make them deadlier, and the secretive federal research that may be responsible for the epidemic of Lyme disease.
Newby, who educates health care providers on vector-borne diseases, is the author of “Bitten: The Secret History of Lyme Disease and Biological Weapons.” She also produced the 2008 Lyme disease documentary “Under Our Skin,”2 which was nominated for an Academy Award the following year.3 A follow-up film, “Under Our Skin 2: Emergence” came out in 2014.
As is the case with many people who end up becoming experts at a particular disease, Newby and her husband contracted Lyme disease in 2002 during a vacation at Martha’s Vineyard. “We were desperately ill and undiagnosed for a year. I thought that was the end of my life as I knew it. It took us four or five years to fully recover,” she told Thacker.
Background on Lyme Disease
According to the U.S. Centers for Disease Control and Prevention, an estimated 476,000 Americans are diagnosed with and treated for Lyme disease each year.4 While exact numbers are difficult to ascertain, what is known is that the prevalence is rising, and this is true across the world. Outbreaks are also steadily creeping into northern areas with less temperate climates.5
Lyme disease is transmitted by ticks (and sometimes other biting insects) infected with the bacteria Borrelia burgdorferi. There are about two dozen species of B. burgdorferi with hundreds of strains worldwide,6 many of which are resistant to antibiotics. Research7 suggests one reason for this may be that B. burgdorferi form protective biofilms around themselves, which enhances antibiotic resistance.
Another feature that makes B. burgdorferi such a formidable foe is its ability to take on different forms in your body, depending on the conditions. This clever maneuvering helps it to hide and survive. Its corkscrew-shaped form also allows it to burrow into and hide in a variety of your body’s tissues, which is why it causes such wide-ranging multisystem involvement.
Ticks can also carry other pathogens, and coinfections are another reason why Lyme disease is so difficult to treat, as the symptomology can be all over the place. Coinfections in many cases also don’t respond to treatment for B. burgdorferi, so a multilayered approach is frequently required to get all of the infections under control.
Lyme Disease Is Often Debilitating
A “typical” case usually starts out with an expanding rash, fever, fatigue, chills and headache. As the disease progresses, additional symptoms such as muscle spasms, loss of motor coordination, arthritic pain, debilitating fatigue, heart problems, psychiatric symptoms, cognitive difficulties, and problems with vision and hearing can emerge.8
For more information on identifying a Lyme disease rash, see the American Lyme Disease Foundation’s (ALDF) website.9 Newby describes her personal experience:
“It’s sort of like having multiple sclerosis, Alzheimer’s, chronic fatigue … joint pain, all at the same time. It’s primarily a neurological disease that creates hyper-inflammation in your body. And the symptoms commonly move around your body. You can be very debilitated, unable to perform the tasks of a normal adult …
There is a growing body of scientific evidence that shows that the Lyme disease bacterium is a trickster that is good at dodging your immune system.
It comes out of the tick in a very mobile spirochetal form and, when it senses an antibiotic or killer cells, it goes into a dormant cyst form, hiding out for months to years. And when your immune system is stressed, it can start causing disease again.”
A major challenge with Lyme disease is that its symptoms imitate so many other disorders, including multiple sclerosis (MS), arthritis, chronic fatigue syndrome, fibromyalgia and even Alzheimer’s disease, making proper identification difficult and time consuming.10
What’s worse, many Lyme sufferers outwardly look quite healthy, and their blood work often raises no cause for concern, which is why Lyme disease has also been called “the invisible illness.”
In the past, Lyme sufferers were frequently told that their problem was psychiatric; in essence, the symptoms were “all in their head.” Today, Lyme is becoming more widely recognized as an actual disease, but sufferers are still often met with skepticism and resistance from the medical community and insurers.
The Lyme Disease Mimicker
Complicating matters further, there’s yet another tick-borne disease on the loose. Researchers have identified a tick-borne illness that is very similar to Lyme, caused by Borrelia miyamotoi.
The CDC11 describes B. miyamotoi as a distant relative to B. burgdorferi, being more closely related to bacteria that cause tick-borne relapsing fever. This disease is characterized by recurring episodes of fever, headache, nausea and muscle or joint aches.
This bacterium was first identified in Japanese ticks in 1995. Since then, it’s been found in several rodent species (and the ticks that feed on them) in the U.S., as well as in ticks feeding on European red deer, domestic ruminants and white-tailed deer.
Is Lyme Disease a Biological Weapon Gone Rogue?
According to Newby, there’s good reason to suspect that Lyme disease might be a biological weapon. There’s no smoking gun; just circumstantial evidence. But when taken together, it forms a highly suspect picture.
She describes being at a party where a former CIA agent bragged about a Cold War operation that involved dropping infected ticks on Cuba. “At that point, I knew I wasn’t done with the story,” she told Thacker. Her book, “Bitten,” is the result of her investigation into the military’s use of infectious bioweapons.
“When we started the film, Lyme disease was already too controversial to go down the bioweapons rabbit hole, so we focused on the human toll and the corruption in the medical system that allowed this epidemic to get so out of control,” Newby told Thacker.
“This CIA guy was a little bit in his cups, but what he said rang true. I started doing some research, interviewed him several times, and found that it was a verifiable story.”
Newby also got tipped off by Willy Burgdorfer during the filming of “Under Our Skin.” Burgdorfer, a Swiss medical zoologist, is credited with discovering Lyme disease. He worked at Rocky Mountain Labs — a National Institutes of Health-run biosafety level 4 (BSL4) facility in Montana — his whole career, and had contracts with Fort Detrick, which oversees the U.S. chemical and biological weapons programs.
While he made some important admissions during that interview, at the very end, he broke into an “evil little smile” and said, “I didn’t tell you everything.” Was he hinting that Lyme disease was a bioweapon?
“He started hinting at the unnatural origin of the outbreak to several people,” Newby told Thacker. “When I interviewed him for the book, he said, ‘Yes, I was in the biological weapons program. I was tasked with trying to mass produce ticks and mosquitoes.’
That’s also when he told me that he was called to investigate the outbreak of what was called ‘Lyme disease,’ but which could’ve been caused by one or more organisms. In Army documents, they said they were conducting early gain-of-function experiments by mixing pathogens — bacteria and viruses — inside ticks to create more effective bioweapons.”
The Official Story
As described by Newby, the official story is that Burgdorfer was sent to investigate a novel disease outbreak in Lyme, Connecticut, and Long Island. In 1980, he discovered the bacterium that now bears his name, Borrelia burgdorferi, and determined that this was what caused the disease.
He subsequently published an article stating the organism was easily killed off with penicillin. The notion that Lyme disease is easy to diagnose and treat has stuck ever since, even though the reality is often the opposite.
Newby agrees that, if caught early, many cases can indeed be cured with an inexpensive course of doxycycline. Two other antibiotics, ceftriaxone and vancomycin, have also been shown to clear the B. burgdorferi infection in cases where doxycycline fails.12 Unfortunately, Lyme disease patients often go undiagnosed for years, and by the time a diagnosis is made, the infection is well-established and very difficult to treat.
Holes in the Official Storyline
While researching for the book, Newby produced an animation of the original outbreak, which supposedly began at the mouth of the Connecticut River, near Long Island. This turned out to be rather revealing. She told Thacker:
“When I drew a 50-mile radius around that point, there were three new, highly virulent tick-borne diseases that showed up at that same time, in the late ’60s. This was 13 years before the Lyme bacterium was declared the cause of ‘Lyme disease’ in 1981.
I started looking through military records to see if the outbreak could be tied to any bioweapons accidents. And that’s when I discovered this massive bug-borne weapons program, as well as a program where germs were sprayed from airplanes over large areas, called Project 112.
Some of those germs were tick-borne diseases that they freeze-dried and aerosolized for spraying … Whatever happened in Lyme, Connecticut, we don’t have all the details. But I put together a solid circumstantial case, based on available evidence …
Burgdorfer … had worked with Q fever and ticks, experience that was needed at Rocky Mountain Labs for their bioweapons work. As soon as he got a security clearance, he started putting plague in fleas; deadly yellow fever in mosquitoes; and then mixing and matching viruses and bacteria in ticks to increase the virulence of these living weapons.
The Detrick weapons designers were looking for ticks that could be dropped on an enemy without arousing suspicion, filled with agents for which the target population wouldn’t have natural immunity … Ticks were the perfect stealth weapon, untraceable and long-acting …
I went as far as I could as a journalist to put together the circumstantial evidence that says Lyme disease is not the big problem — meaning the bacteria called Borrelia burgdorferi.
It’s what Burgdorfer said that they’re covering up: 1) that a different bacteria, perhaps a rickettsia related to Rocky Mountain spotted fever, was developed as a bioweapon in the Cold War; 2) that it might be a combination of bugs inside the ticks that is making people sick.”
Mice and Rats Are the Most Problematic Hosts
Since the late 1970s, the spread of Lyme disease has primarily been blamed on deer. However, more recent evidence suggests rodents like mice and rats are a far more serious threat.13 Ticks are not born with the Lyme spirochetes. They pick up the bacteria when feeding on an infected host.14
Research indicates that white-footed mice infect 75% to 95% of larval ticks that feed on them, while deer only infect about 1%. According to a 1996 study,15 rats are even more infectious than mice, noting that “the capacity of rats to serve as reservoir hosts for the Lyme disease spirochete, therefore, increases risk of infection among visitors to … urban parks.”
Another study16 published the following year also found that Norway rats and black rats were exceptionally effective hosts, infecting nearly all ticks that fed on them.
The main predators of small rodents like mice and rats are foxes, birds of prey, skunks and snakes.17 Agricultural and urban sprawl have decimated the habitats of these natural predators of mice and rats, allowing disease-carrying rodent populations to rise unabated.
Better Diagnostics for Lyme Are Sorely Needed
A big problem facing Lyme patients and their treating doctors is the difficulty of reaching a proper diagnosis.18 Conventional lab tests are unreliable, and one reason for this is because the spirochete can infect your white blood cells.19
Lab tests rely on the normal function of white blood cells to produce the antibodies they measure. If your white cells are infected, they don’t respond to infection appropriately. So, for blood tests to be truly useful, you need to be treated first.
Once your immune system begins to respond normally, only then will the antibodies show up. This is called the “Lyme Paradox.” You have to be treated before a proper diagnosis can be made.
That said, I recommend the specialized lab called IGeneX20 because they offer highly sensitive tests for more outer surface proteins (bands), and can often detect Lyme while standard blood tests cannot. IGeneX also tests for a few strains of coinfections such as Babesia and Ehrlichia.
Patients and Doctors Fight for Recognition of Chronic Lyme
As if the difficulties of getting a proper diagnosis and treatment were not enough, Lyme sufferers face additional hurdles when they don’t fully recuperate after the initial treatment. Whether “chronic” Lyme disease is possible or not has been the subject of controversy for many years.
The Infectious Diseases Society of America (IDSA), which publishes guidelines for a number of infectious diseases, including Lyme disease, has long opposed the idea chronic Lyme exists, and doesn’t include long-term treatment guidance for chronic Lyme in its clinical guidelines.21,22
This is important, as insurance companies frequently restrict coverage for long-term treatment based on IDSA’s guidelines. Physicians’ treatment decisions are also guided by its recommendations. Opposing IDSA is the International Lyme and Associated Diseases Society (ILADS), the members of which argue that many patients suffer long-term consequences and require far longer treatment than recommended by IDSA.23
Prevention Tips
Considering the difficulty of diagnosing and treating Lyme disease, taking preventive measures should be at the top of your list:
- Avoid tick-infested areas, such as leaf piles around trees. Walk in the middle of trails and avoid brushing against long grasses and path edgings. Don’t sit on logs or wooden stumps and take extra precautions if you’re in an area where rats have been sighted.
- Wear light-colored long pants and long sleeves, to make it easier to see the ticks.
- Tuck your pants into socks, and wear closed shoes and a hat, especially if venturing out into wooded areas. Also tuck your shirt into your pants.
- Ticks are very tiny. You want to find and remove them before they bite, so do a thorough tick check upon returning inside, and keep checking for several days following exposure. Also check your bedding for several days following exposure.
As for using chemical repellents, I do not recommend using them directly on your skin as this will introduce toxins directly into your body. If you use them, spray them on the outside of your clothes and avoid inhaling the spray fumes. The Environmental Protection Agency has a list24 indicating the hourly protection limits for various repellents.
If you find that a tick has latched onto you, it’s very important to remove it properly. For detailed instructions, please see lymedisease.org’s tick removal page.25 Once removed, make sure you save the tick so that it can be tested for presence of pathogenic organisms.
It’s Time to Ban Gain-of-Function Research
In closing, the Lyme disease epidemic and COVID-19 both appear to be the result of bioweapons development, and the real-world ramifications clearly demonstrate the risks involved. They can’t guarantee containment of the created pathogens, and sometimes, they don’t even try to contain them. In the case of Lyme disease, it’s possible that live testing is what led to the epidemic.
And while we don’t know whether SARS-CoV-2 was intentionally released or simply escaped, the end result is the same. The virus spread worldwide. If the world doesn’t wise up and realize just how suicidal these biological weapons programs are, humanity may eventually be wiped out by one of our own creations.
- 1 Paul Thacker Substack February 28, 2023
- 2 Under Our Skin
- 3 Indie Wire November 18, 2009
- 4 CDC How Many People Get Lyme Disease? December 21, 2018
- 5 Science Daily Experts Sound Alarm April 14, 2019
- 6, 8 International Lyme and Associated Diseases Educational Foundation
- 7 Lyme Disease Association Eva Sapi January 14, 2019
- 9 American Lyme Disease Foundation April 20, 2019
- 10 Symbiosis (2009) 47, 51-58 (PDF)
- 11 CDC January 10, 2019
- 12 Antimicrobial Agents and Chemotherapy Oct 2018, 62 (11) e01201-18
- 13 QZ.com July 9, 2015
- 14 Tickencounter.org
- 15 J Infect Dis. 1996 Nov;174(5):1108-11
- 16 J Med Entomol 1997 Jul;34(4):489-93
- 17 Orkin House Mice Enemies
- 18 ILADS Controversies & Challenges in Treating Lyme
- 19 Arthritis Rheumatol. 2014 Sep; 66(9): 2313–2323
- 20 Igenex.com
- 21 Clinical Infectious Diseases IDSA Clinical Guidelines for Lyme Disease January 2021; 72(1): e1-e48
- 22 Lyme Disease News August 20, 2019
- 23 Expert Review of Anti-Infective Therapy 2014; 12(9)
- 24 EPA Review the Guidance Document
- 25 Lymedisease.org
Associated Readings
- Five Myths and Truths about Chronic Lyme Disease…a companion article by Chris Kresser.
- Lyme disease: The CDC’s greatest cover-up…some institutional complexity is covered here.
- What to do About a Tick Bite…how to manage tick bites, tick species identification, and where to send ticks for testing.
- Help Clients Recover from Lyme Disease with Diet and Nutrition…an excellent guest post from Chris Kresser’s website on helping people recover from Lyme disease with diet and nutrition.
- New 15-minute Lyme Disease Test…a professor of biomedical engineering at Columbia Engineering, has developed a rapid microfluidic test that can detect Lyme disease. This is as accurate as the standard two-tiered testing involving ELISA and western blot studies which take several hours to run.
- The Long-Term persistence of Borrelia burgdorferi Antigens and DNA in the Tissues of a Patient with Lyme Disease…a publication in the journal Antibiotics, published in 2019. Researchers performed an autopsy on a 53-year-old woman from New York who had suffered from Lyme disease for 16 years and had taken multiple courses of antibiotics during that period. They examined tissues in her brain, heart, kidney, and liver, and found Borrelia burgdorferi—the organism that causes Lyme disease—in all of these organs. They also found clear evidence of Borrelia biofilms, which is significant because biofilms are known to be antibiotic-resistant. And they detected significant numbers of infiltrating lymphocytes present next to the biofilms, which indicates that Borrelia was causing chronic inflammation.
- Metamorphoses of Lyme disease spirochetes: phenomena of Borrelia persisters…a May, 2019, article from the journal Parasites & Vectors which indicates that Borrelia can morph into other forms, like biofilms.
- Persistence of Borrelia burgdorferi following Antibiotic Treatment in Mice…from the journal Antimicrobial Agents and Chemotherapy comes an article which addresses the persistence of Borrelia in animal tissues.
- Special Webinar on Lyme Disease and Borrelia persistence…the CDC had a special webinar in 2014 where they acknowledged that persistence of Borrelia might be more common than previously believed, and that further study is warranted.
- Andrew W. Campbell, MD: Lyme Disease and Mycotoxicosis—How to Differentiate Between the Two…Dr. Campbell discusses the challenges to diagnosing Lyme disease and Mycotoxicosis from molds and their mycotoxins. The two frequently present in the similar manner.
- Estimation of cumulative number of post-treatment Lyme disease case in the US, 2016 and 2020…recent estimates suggest that as many as 2 million Americans are living with chronic Lyme disease. Yet they are still not getting the attention they deserve from doctors and researchers.
- Journey to Healing: Finding New Life with Lyme Disease…posted here on 4-23-21. A patient with Lyme disease details her story of healing through the treatments at the Riordan Clinic.