Archive for the ‘Lyme’ Category

The Hidden Immune Pandemic

http://  Approx. 14 min.

March 18, 2021

The Hidden Immune Pandemic

Well known Lyme literate doctor Stephen Phillips on the Dr. Oz Show.

Dr. Phillips understands the issues surrounding autoimmune disease personally as he was diagnosed with two.  He wants to give people hope in that there are many things that can be done to give you a full life.  While Lyme is mentioned the conversation is much more broad.  I appreciate the fact Dr. Phillips states that getting to the root cause is the key.  In the case of Lyme/MSIDS, it’s the infections.

Fantastic, informative video.  Please share.

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Telling patients “it’s all in their heads” is basically telling them that doctors are too lazy to determine what’s causing their illness.

Category:

Activism, Inflammation, Lyme, Viruses

Part 3: PTLD & Insurance Coverage

http://

A continuation of Parts 1 and 2.

Listen in as Thayer explains how underlying infections are the predominant issue with chronically infected Lyme/MSIDS patients and that the moniker of PTLDS hurts patients as it denies persistent infection, thereby denying patients crucial anti-microbial treatment.  She also delineates why this is happening in the research world (researchers follow the money as they need grants) and how only going down the PTLDS road will affect insurance as well as treatment.

I’m thankful that Thayer clearly states Lyme groups should not be in support of any research using the PTLDS moniker.  I completely agree.  Until patients speak up on this point, damaging research – ignoring the root issue will continue to be done and important monies used up.  The same thing should be said about climate data as well.

Category:

Activism, Lyme

3 Lyme Arthritis Studies & How Our Immune System Can Fail to Shut Off When There’s An Infection

https://globallymealliance.org/lyme-arthritis-and-inflammation-shut-it-off/

A SUMMARY OF 3 LYME ARTHRITIS STUDIES AND HOW OUR IMMUNE SYSTEM CAN FAIL TO SHUT OFF WHEN THERE’S AN INFECTION.

by Mayla Hsu, Ph.D., Director of Research and Science, GLA

Arthritis is one of the most common symptoms of Lyme disease, commonly presenting as swelling and pain in the joints. Borrelia burgdorferi bacteria, which cause Lyme disease, migrate to the joints and create the arthritic symptoms. However, growing evidence implicates not only the bacteria, but the immune system itself as playing a key role in the disease. It’s an example of how something that should protect us can also be harmful.

Our immune system has evolved to help us get rid of pathogens like B. burgdorferi. But if it’s working like a finely tuned machine, the immune system should turn off when the job is done. Instead, research has shown multiple ways that the immune system may be failing to stop the inflammatory response after infection, thus prolonging symptoms that can be very debilitating. To study this in Lyme arthritis, synovial fluid surrounding the joints can be collected from patients. It is then analyzed for the presence of immune cells and cytokines, the chemical messengers produced by cells to help kill pathogens.

Some Lyme arthritis patients have symptoms that do not improve after antibiotic therapy, known as antibiotic-refractory Lyme arthritis. Synovial fluid from these patients has been previously studied for the presence of regulatory T cells (Tregs). These immune cells, which are a subset of specialized T cells, were counted because they act as an “off switch” for inflammation. It was suspected that one pathway to long-term Lyme arthritis may be through insufficient or malfunctioning Tregs.

In the synovial fluid of antibiotic-refractory arthritis patients, an average of 5% of activated T cells were Tregs, as compared to antibiotic-responsive arthritis patients, who had 12%. Those with fewer Tregs were less responsive to anti-rheumatic medications, their arthritis took longer to resolve, and a number of them required synovectomies, or surgical removal of inflamed joint tissues, to resolve their symptoms.

A limitation of this early study was that the amount of Tregs found in the patients before and during early B. burgdorferi infection could not be analyzed, since the patients were only identified after Lyme arthritis was well underway. Might higher pre-existing Tregs be associated with quicker recovery from arthritis? If so, the number of these cells could be used as a possible prognostic marker to help with treatment decisions.

One way to determine this would be to assess Treg cells before and after experimentally infecting animals with B. burgdorferi, since such an experiment could not be done in humans. A new study in mice used an engineered mouse strain called C57BL/6 DEREG to address this question. In these mice, Treg cells can be depleted when animals are administered minute, nontoxic doses of diphtheria toxin. This was done either before or after infecting mice, and results were compared to nondepleted mice.

The researchers found that depletion of Tregs before infection with B. burgdorferi caused earlier tibiotarsal joint swelling (day 10 after infection) than in non-depleted mice (day 16 after infection). Additionally, the Treg-depleted mice had significantly more joint swelling than control mice, and in fact, had a second wave of swelling that peaked at day 22 after infection.

The contribution of Tregs after B. burgdorferi infection was studied by depleting mice one to three weeks post-infection, and then comparing joint swelling with nondepleted mice. Although these Treg-depleted mice did have increased joint swelling compared to non-depleted animals, the difference in swelling did not achieve statistical significance and was less than in mice depleted before infection.

When the joints were examined for evidence of pathology, all of the mice whose Tregs were depleted prior to infection had lymphocyte infiltration into the joints and surrounding soft tissues, indicating the presence of immune cells homing to a site of inflammation. However, only a single mouse in the nondepleted group had a mild degree of immune cell infiltration on the surface of the joint. For mice whose Tregs were depleted one to three weeks after infection, there were no inflammatory pathological changes observed in the joint tissues.

Together, the mouse studies suggest that joint swelling and pathology were more dependent on the amount of Tregs before, rather than after infection by B. burgdorferi. But Treg function, not just abundance, may also be important. In other words, what do Tregs actually do to reduce arthritis?

Experiments that assess Treg function often focus on their ability to regulate, or suppress the proliferation of other immune cells. Tregs are also studied for their inhibition of inflammatory cytokine production. In one study of a limited number of Lyme patients, T cells, of which Tregs were a subset, were collectively cultured from the synovial fluid of either antibiotic-responsive or antibiotic-refractory arthritis patients. Tregs from the refractory patients were less able to suppress the production of inflammatory cytokines like interferon gamma (IFNγ) and tumor necrosis factor alpha (TNFα) than those from the antibiotic-responsive patients.

These findings suggest that both the lower amount of Tregs, and the loss of their suppressive functions, may be why some patients have antibiotic-refractory arthritis. The study of Treg depletion in mice showed this tendency too. More studies are needed to explain how other cytokines may be involved in promoting an infection environment that ultimately, resolves or continues inflammation.

And, why some people have lower Tregs to begin with is also not yet understood – whether it is genetically determined or occurs in response to infection. But what is obvious is that the interplay between B. burgdorferi and the host immune response is complicated, depending on switches to turn inflammation on and off. More research will help us understand this regulation, and how host protection can possibly turn into harm.

RELATED BLOGS:

Lyme Arthritis: The Antibody Connection
Research POV: Lyme Arthritis and Peptidoglycan
Possible Clue to Lyme Arthritis Found in People’s Inflamed Joints

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Category:

Inflammation, Lyme, research

Focus on COVID-19 Leads to Delayed Diagnosis of Lyme Disease

https://danielcameronmd.com/covid-19-delayed-diagnosis-lyme-disease/

FOCUS ON COVID-19 LEADS TO DELAYED DIAGNOSIS OF LYME DISEASE

covid lyme disease

Hello, and welcome to another Inside Lyme Podcast. I am your host Dr. Daniel Cameron. In this episode, I’ll be discussing a unique case involving a 67-year-old man whose diagnosis of Lyme disease was delayed because clinicians suspected his symptoms were due to COVID-19.

By

The case report, by Novak and colleagues, entitled “Lyme Disease in the Era of COVID-19: A Delayed Diagnosis and Risk for Complications” was published recently in the journal Case Reports in Infectious Diseases.1

The authors report that this case “illustrates the overlap of symptoms among disparate infectious diseases and the risk of a narrow approach and focus on COVID-19 in patients with undifferentiated febrile illnesses, such as Lyme disease.”

In July 2020, the man presented with symptoms consistent with COVID-19. He had chills, body aches, fever, headache, and neck ache.

Doctors concluded he suffered from a viral-like illness and instructed him to quarantine until results from his COVID-19 test were obtained. His COVID tests were negative.

The patient’s symptoms slowly resolved without treatment.

6 weeks after symptom onset

Six weeks later, however, he developed a rash on his arm. A dermatologist diagnosed the rash as an insect bite reaction rather than Lyme disease.

However, test results for early Lyme disease were positive with 3 of 3 IgM Western blot bands. In addition, 4 of 10 IgG Western blot bands were positive.

The patient was treated with one week of doxycycline.

After 7 days of doxycycline, the man developed double vision due to sixth nerve palsy. He also suffered from headaches, neck stiffness, and new onset fatigue.

At this point, the patient was referred to a Lyme disease telemedicine referral clinic, where a diagnosis of Lyme disease was confirmed.

“This delayed diagnosis of Lyme disease in the patient we describe resulted in disseminated infection and sixth nerve palsy,” the authors write.

The patient’s spinal tap was negative. He was treated with 200 mg of doxycycline twice a day.

After 4 weeks of treatment, his sixth nerve palsy had resolved. However, he still had minimal double vision with extreme right gaze, along with difficulty initiating sleep, mild anxiety, mild daytime fatigue, and subtle, difficulty with his short-term memory.

Diagnostic issues during a pandemic

In this case, doctors focused on screening the patient for COVID-19 and recommending he quarantine. However, the man never developed COVID-19.

“They [clinicians] did not suggest further testing or give input on what could have been the cause of the chills, muscle aches, etc., ” the patient wrote. As a result, his diagnosis of Lyme disease was delayed for 6 weeks.

Novak and et al. proposed that the diagnostic delay was due to clinicians focusing solely on COVID-19 rather than examining other possible causes. Lyme disease was not considered until the patient developed an erythema migrans (EM) rash, 6 weeks after his onset of symptoms.

The man’s diagnosis was confirmed by a Lyme disease telemedicine referral clinic and he improved with treatment.

The man wrote about his frustrations with diagnostic delays even before the COVID-19 pandemic.

“I have spoken to several former business colleagues about my experience with Lyme disease. Their comments were similar; friends/family members who had Lyme disease in past years expressed the same complaint: Lyme disease was not tested for in the first stages of the illness because of the lack of a rash. Their stories were remarkably similar to mine. They experienced health problems before Lyme testing was finally considered and done.”

Editor’s perspective

The patient was left with chronic manifestations of Lyme disease. The authors did not address whether a persistent infection might be the cause of these chronic manifestations.

The following questions are addressed in this podcast episode:

  1. Was this man’s case of Lyme disease typical?
  2. Why is the author’s inclusion of “July” important?
  3. What is a 6th nerve palsy?
  4. The patient developed an EM rash 6 weeks after symptom onset. Is this unsual?
  5. The dermatologist unfortunately attributed the rash to an insect bite reaction?
  6. What is the significance of Western blot test results?
  7. Why was the spinal tap normal?
  8. Is it unusual to develop new symptoms (in this case, double vision) AFTER a week of antibiotic treatment? What would cause this?
  9. Have you seen diagnostic delays for Lyme disease patients during the COVID-19 pandemic?
  10. What are some of the causes of diagnostic delays?
  11. What are the consequences of diagnostic delays?
  12. The patient still had several symptoms following 1 month of treatment. What are your concerns regarding the remaining chronic manifestations?
  13. How has the use of telemedicine helped you in caring for your Lyme disease patients?
    • Thanks for listening to another Inside Lyme Podcast. You can read more about these cases in my show notes and on my website @DanielCameronMD.com. As always, it is your likes, comments, reviews, and shares that help spread the word about Lyme disease. Until next time on Inside Lyme.

Please remember that the advice given is general and not intended as specific advice as to any particular patient. If you require specific advice, then please seek that advice from an experienced professional.

Inside Lyme Podcast Series

This Inside Lyme case series will be discussed on my Facebook and made available on podcast and YouTube.  As always, it is your likes, comments, and shares that help spread the word about this series and our work. If you can, please leave a review on iTunes or wherever else you get your podcasts.

References:
  1. Novak CB, Scheeler VM, Aucott JN. Lyme Disease in the Era of COVID-19: A Delayed Diagnosis and Risk for Complications. Case Rep Infect Dis. 2021;2021:6699536. doi:10.1155/2021/6699536
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**Comment**
I’m too angry to write anything productive.

Category:

Lyme, research, Viruses

One Little Bite

http:// Approx. 4 Min.

One Little Bite

Feb. 12, 2021

By Monica White

Monica White co-founded the Colorado Tick-Borne Disease Awareness Association and has organized educational conferences for patients. She has served on a subcommittee of the federal Tick-Borne Disease Working Group and other governmental panels. She also co-authored a journal article about Colorado ticks and the diseases they carry.

While creating this project, White states:

“I was shocked at the level of emotion, anger and feelings of loss that surfaced,” she recalls. “I realize now that these were stages of grief that I had neglected to make room for or acknowledge. The storytelling process was a process of healing. I was so touched by the powerful stories that others shared so honestly and vulnerably, and I hope that the sharing of my story will both uplift and touch others.”  Monica White Source

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**Comment**

This reminds me of two events that woke me up to the depths of emotional healing. The first for me happened when I started using the Biomat daily due to severe pain. My physical therapist was offering free sessions and they coincided with a time where I was suffering horribly. I told him to “crank up up as high as it will go” and proceeded to sweat under a blanket which served as a tent – for an hour. Head exposed, it wasn’t long and I was sobbing. Tears pooling in my ears, I took inventory and asked myself why? Later, I shared what happened and my PT said that it’s a common emotional detoxification response. Evidently we hold a lot inside during this battle.

The second time it happened was when I received an upper cervical adjustment. I had to be at the office at 4:30 a.m. (yes, you read that correctly) for my first appointment that lasted until about 1:00 p.m. After the initial x-rays and adjustment, I “rested” in a quiet room where I proceeded once again to ball my eyes out. Good thing I was the only one there! He too told me this is a fairly common response to helping the body out, which is working overtime trying to find homeostasis.

Our bodies are incredible.

In both cases I was struck with an overpowering sense of gratitude. This journey, while extremely difficult, contains many silver linings if you look for them.

Category:

Activism, Lyme