Lyme disease is the most common vector-borne illness in the US, caused by the bacterium Borrelia burgdorferi and transmitted via tick bites.
Lyme disease can cause various symptoms, including fever, joint pain, and loss of appetite, but is generally treatable with antibiotics if caught early.
However, if it’s not treated properly or caught on time, the infection can evade the initial antibiotic treatments and disseminate to various parts of the body—thus transitioning into chronic Lyme disease.
This chronic state is not only more difficult to treat but also more debilitating due to its persistence and multifaceted symptoms.
Among the most severe and disruptive of these symptoms are the neurological symptoms.
These symptoms not only reflect the direct impact of the infection on the nervous system but also represent the body’s continued inflammatory response to the enduring presence of Lyme bacteria.
This blog discusses the pathology of chronic Lyme, the mechanisms involved in its impact on the central nervous system, and advanced diagnostic tools to manage this complex condition effectively.
Table of Contents
Chronic Lyme disease, often called Post-Treatment Lyme Disease Syndrome (PTLDS), is characterized by the persistence of symptoms such as fatigue, pain, or joint and muscle aches long after the initial treatment of the acute infection.
Unlike acute Lyme disease, which is typically resolved with a course of antibiotics, chronic Lyme disease continues to significantly impair quality of life, even when no active infection is detected.
Patients may experience pain, neurocognitive symptoms, or fatigue, emerging during or within several months after antibiotic treatment of the infection. This can last for months or even years.
These patients may have severe pain around their joints (tender points), headache, brain fog, sleep disorders, and incapacitating fatigue, which can significantly impact quality of life.
It’s estimated that as many as 36% of those diagnosed and treated early for Lyme disease still experience symptoms post-treatment.
The reasons why some individuals recover entirely while others develop chronic symptoms remain a significant area of research, and understanding these patterns is crucial for developing targeted interventions.
The pathogenesis of chronic Lyme disease involves complex interactions between the infecting organism, Borrelia burgdorferi, and the host’s immune system.
The tickborne bacteria is a potent antigen— once it enters the human body, it can undergo changes in gene expression to adapt to its new environment.
Initially, when a tick carrying Borrelia bites a human, the bacterium enters the skin and can spread to different parts of the body through the bloodstream.
During its journey, Borrelia burgdorferi has several mechanisms to evade the immune system, including altering its surface proteins, which confounds immune detection and response.1
As the bacteria disseminate, they can sequester in remote areas of the body, like the joints, heart, and nervous system.
This ability to hide from the immune system, combined with its antigenic variation, allows the bacteria to persist long-term, potentially causing chronic symptoms.
This can lead to disabling post-treatment syndromes that persist even after the bacterial infection is treated.
These mechanisms suggest why Lyme symptoms can continue even after the bacteria are no longer detectable in the body.
The immune system continues to react to the bacteria's hidden presence, leading to inflammation and the array of symptoms associated with chronic Lyme disease.
After an initial infection, Borrelia burgdorferi can invade the central nervous system, crossing the blood-brain barrier.
This invasion triggers an inflammatory response, which can result in neuroinflammation and a variety of neurological symptoms.
The bacteria can wreak havoc on the nervous system either through inflammatory processes or direct nerve damage.
The resulting symptoms and conditions can severely impact quality of life. Additionally, their chronic nature and subsequent activation of the HPA axis can contribute to psychological distress, further exacerbating the situation.
Chronic Lyme disease can manifest a range of neurological symptoms that significantly affect daily functioning and quality of life.
Common neurological symptoms associated with chronic Lyme include:
Tickborne infections like Lyme can be difficult to diagnose due to:
These factors can lead to misdiagnosis and further health complications.
The diagnostic tests currently available for tickborne diseases are severely limited in their ability to provide accurate results and can’t detect multiple pathogens at once.
Recent research reveals that the standard two-tier testing recommended by the CDC can lead to false positive/negative results.
ELISA and Western blot tests can miss up to 60% of well-defined Lyme disease cases.
Thus, although catching Lyme disease early is critical, it can be difficult using current methods.
Advanced Diagnostic Strategies
The Vibrant Tickborne Disease Panel resolves this issue, detecting a broad range of antibodies and exposure to multiple pathogens simultaneously.
Vibrant’s Tickborne panel provides protein microarray antigen and PCR detection of Lyme disease, TBRF, and co-infections with tickborne diseases like Anaplasma, Babesia, Bartonella, Ehrlichia, and Rickettsia species.
The panel’s dual approach—testing for antibodies (indirect) and DNA (direct) — provides the most comprehensive Lyme and co-infection detection.
Vibrant’s Tickborne Diseases panel uses a first-of-its-kind customizable multiplex protein microarray and chemiluminescence detection to test antibody reactions to pathogens.
With protein microarray technology, you can access the full scope of antigen reactions rather than relying on only a limited number.
This allows for more comprehensive and accurate Lyme disease testing.
In managing Lyme disease, particularly when facing the threat of its progression to chronic stages with neurological complications, the importance of early and accurate diagnosis cannot be overstated.
The neurological complications associated with chronic Lyme disease, such as cognitive impairments, facial palsy, and nerve damage, can profoundly impact quality of life.
These conditions often develop when the initial infection is either undetected or inadequately treated. Early diagnosis and appropriate treatment can halt the progression of the disease, significantly reducing the risk of these serious long-term effects.
Additionally, an accurate diagnosis helps tailor the right treatment approach as early as possible. This is crucial because the standard treatment for early Lyme disease—typically antibiotics—is most effective before the bacteria disseminate throughout the body and establish themselves in hard-to-reach areas like the central nervous system.
Once Lyme disease progresses to more advanced stages, it becomes more difficult to treat, and symptoms can become entrenched and significantly harder to manage.
Early diagnosis not only prevents the disease from advancing but also enhances overall treatment outcomes. Patients diagnosed and treated early for Lyme disease generally have quicker and more complete recoveries.
In contrast, those with delayed treatment may experience persistent symptoms that can lead to chronic Lyme disease, requiring more complex and prolonged management strategies.
Moreover, an early and precise diagnosis minimizes the unnecessary use of broad-spectrum antibiotics, reducing the risk of antibiotic resistance and preserving these medications for when they are truly needed.
Chronic Lyme disease illustrates infectious diseases' profound impact on long-term health and well-being, emphasizing the need for early intervention and sustained health strategies.
By using advanced diagnostic tools like the Tickborne Diseases Test, you can prevent the progression of acute Lyme disease, stop chronic Lyme in its tracks, and enhance health and longevity.
References:
1. Coburn J, Garcia B, Hu LT, Jewett MW, Kraiczy P, Norris SJ, Skare J. Lyme disease pathogenesis. Curr Issues Mol Biol. 2021;42:473-518. doi:10.21775/cimb.042.473.
2. https://blog.vibrant-wellness.com/research-spotlight-protein-microarray-for-comprehensive-tickborne-testing